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Non-Financial Interventions: Actions taken to support or facilitate electricity access

Interventions should be regarded as part of a National Electrification Approache only if they are integral to governement electrification policy/strategy

1 Direct Energy Access Provision
2 Institutional Restructuring
3 Regulatory Reform
4 Policy & Target Setting
5 Quality & Technical Standards
6 Technical Assistance
7 Capacity Building & Awareness Raising
8 Market Information
9 Demand Promotion
10 Technology Development & Adoption
11 National Energy Planning
12 References
- 12.1 Authors
- 12.2 Acknowledgements

Direct Energy Access Provision

Definition

Direct action by an implementing authority (such as a Rural Energy Agency or national utility) to provide or take part in the provision of electricity directly, rather than by funding, incentivizing or facilitating provision by others.

This may include providing:

all, or multiple, steps along the supply chain - for instance development, construction and operation of isolated mini-grids and sale of electricity to users;
one link along the supply chain, such as bulk purchase of solar home systems which are then purchased by retailers to be distributed and sold to users

Internactions wiht other NAE Categories

	Technology	Grid extension is often directly provided, but direct provision may also be used for mini-grids and standalone systems.
	Delivery Model	Direct provision sits naturally with a public delivery model where all the elements along the supply chain are undertaken by public entities. Where the public sector wishes to take on only some roles along the chain, a public-private partnership may be more appropriate. Direct provision through a purely private model is difficult to envisage.
	Legual Basis	Direct provision may be on a national concession monopoly basis, with oversight and control being through the organisational hierarchy (though a transparent regulatory system would still be best practice). Where direct provision is applied to only one part of electricity access and or to only some elements of the supply chain, it is important that the regulatory basis is clear so that other market participants can understand it and so that any potential threat to them is reduced.
	Price/Tariff Regulation
	Finance	Private finance is unlikely to be used to fund direct provision, though it will probably be used in the private elements of a public-private partnership arrangement including direct provision (and could be leveraged by the direct provision elements). Some form of public funding is very likely to be involved in direct provision, though since this may be within the public sector it may be implicit rather than through explicit grants or subsidies. Direct provision may also draw on cross-subsidies and hence on charges on existing users to subsidise provision to new users.
	Other Forms of Non-Financial Interventions	National energy planning will establish the optimum mix of technologies to meet electrification needs across the country, but not how they are best provided. Direct provision will often take place within existing structures, however Institutional restructuring may be needed to provide a focus for provision – eg by a Rural Energy Agency – and capacity building or technical assistance for this new organisation may be merited. Direct provision may also be accompanied by measures such as demand promotion and technology adoption.

Advantages and Disadvantages

Direct provision will generally use existing institutions, capabilities and systems and where these are strong may bring advantages. By drawing on these strengths it can bring economies of scale (eg through bulk purchasing). However, this will often be accompanied by entrenched ways of working and be inflexible and slow moving. Direct provision also has the potential to bring in other participants (for instance by offering standalone system providers a simple way to distribute their products), but carries the risk of distorting and crowding others out of the energy access provision.

Further Information and Guidance

Barnes, D. (2007). The Challenge of Rural Electrification: Strategies for Developing Countries. Book Chapter. https://books.google.co.uk/books?id=iOBi17Pr3fIC&printsec=frontcover&source=gbs_ge_summary_r&cad=0#v=onepage&q&f=false
ESMAP (2005), Meeting the Challenge of Rural Electrification in Developing Nations: The Experience of Successful Programs https://static.globalinnovationexchange.org/s3fs-public/asset/document/Meeting0the0Ch10Discussion0Version0.pdf?q3Tol9Bdn4yH4J43t3P9t3hq5lh6ZipT
IEA, (2010), Comparative Study on Rural Electrification Policies in Emerging Economies https://www.iea.org/publications/freepublications/publication/rural_elect.pdf
The World Bank Group, (2012). Institutional Approaches to Electrification: The Experience of Rural Energy Agencies/ Rural Energy Funds in Sub-Saharan Africa. November 14–16, 2011 Dakar, Senegal https://openknowledge.worldbank.org/bitstream/handle/10986/26073/763820WP0P11090s0to0Electrification.pdf?sequence=1&isAllowed=y

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Institutional Restructuring

Definition

Reorganising and reassigning responsibilities between government departments, agencies, utilities and other organisations charged with managing the sector and delivering electricity access.

In many countries, the national electricity utility has historically been the sole provider of electricity and responsible for all electrification efforts. The motivation for institutional reform is generally some combination of poor performance or inefficiency of existing institutions (often the national utility) and a wish to accelerate extension of electricity access, to introduce new forms of electricity provision, to bring in new (often private) funding and investment or to create greater transparency and accountability.

The experience of structural change to the electricity industry in many countries has highlighted some key lessons. Orthodox approaches to organisations are often unsuitable, and no one industry structure appears to be significantly better than others. A structure compatible with the objectives of electricity distribution in developing countries, and with the local context and planned approach to electrification is needed. Energy sector restructuring has a significant political dimension, but restructuring can still fail even if there is support from government at a high level. It has also been noted that indecision and uncertainty regarding the format of a restructured utility can have serious negative consequences.

The organisations most frequently involved in institutional restructuring include:

Renewable Energy Agency (REA) – a national REA is usually a semi-autonomous institution which is responsible for executing the Government’s Rural Electrification Plan or Programme. Its major responsibilities include: planning and packaging projects for public or private investment in rural electrification and renewable energy power generation; implementing priority rural electrification projects; administering capital subsidies for private investments; maintaining a national database for rural electrification;
advising the relevant Government department(s) on policy issues in rural electrification; and managing any rural electrification programmes implemented with Government support.

Regulator– electricity regulatory agencies display a range of effectiveness depending upon their structure and official remit, and particularly their degree of independence. The presence of an electricity (or energy) regulatory law is a key factor in determining the role of a regulatory agency; with such a law established, the agency can provide independent enforcement but otherwise will be seen as an arm of Government during the preparation of such regulation. Whether or not the regulator is an autonomous agency or the sector ministry will clearly have a direct bearing on its level of independence (practical and/or perceived) and hence its likely impact. The mode of financing the regulatory agency is also an important factor in determining its cost-effectiveness; a regulator that is funded by a licence fee obligation or a line item in customers’ electricity bills clearly has a different status to one that is supported with a budget allocated by Government. It is important however to accept that each institutional structure must take account of specific local conditions and must be viewed within this context.

National electricity utility – over recent years, there have been several examples of national utilities in developing countries adopting a new approach to their operations, mainly through division into different operational units, and/or through privatisation. These reforms have mainly involved the unbundling of vertically integrated government utilities into three separate segments for generation, transmission and distribution. The main drivers for such change have been to improve quality of service, improve connectivity, improve reliability, reduce losses, attract private capital investment into the sector, and so enhance overall sector efficiency. When considering the privatisation of one or more of the resulting units, it is important for the government to assess in advance the likely impact, and to determine the most relevant options for tariffs. Some of the key objectives for such reform will include making the sector financially viable and able to perform without subsidies; increasing efficiency; improving commercial performance; meeting the increasing demand for electricity and the broader area coverage; improving the reliability and quality of electricity supply; attracting private sector capital and entrepreneurs and taking advantage of export opportunities.

Internactions wiht other NAE Categories

	Technology	Institutional reform will have an impact on all approaches to electrification and the associated technology categories. For grid extension, existing institutions have extensive experience of practices that may no longer be most appropriate for electrification in more areas. New practices may be required to increase levels of efficiency in order to make further grid extension a viable option, new expertise and knowledge may be needed to support adoption of new forms of electricity provision, and cultural change may be needed to achieve increased focus on supplying new users alongside serving existing customers. Mini-grids, whether isolated or integrated with the grid, require different support structures to be effective, reliable and commercially viable. Stand-alone systems again offer a different approach to the aims of electrification, with the satisfaction of basic needs being the principle driver, rather than a full power service. This too requires a different institutional perspective, skills and understanding that can only be delivered through the reform of existing support structures.
	Delivery Models	The institutions originally established to deal with power generation and supply were almost exclusively public sector, centred upon the national electricity utility. With the increasing cost of reaching more remote areas, the need for upfront investment has become a serious constraint to network expansion. Rural electrification also raises new challenges regarding the need for more intensive community interaction and closer management of the local operations. Consequently, the resources that can more readily be offered by the private sector – including the scale of investment and commercial management in order to make sufficient returns – are increasingly required. There is a growing need for private models and public-private-partnerships, which face the barrier of public institutions that have experience of a single method of providing access to electricity. The reform of these institutions, taking account of private sector interests, can thereby create opportunities for partnerships that will bring mutual benefits to all involved.
	Legual Basis	Establishment of either or concessions or licenses for electricity provider implies a wish to bring in private or public-private electricity provision. Setting up these arrangements will require competent institutions with responsibility for managing them, and institutional restructuring is a likely response to this need and a first step in establishing new legal arrangements for electricity provision.
	Price/Tariff Regulation	Similarly any form of price/tariff regulation requires a regulator. A regulator independent from government and those with vested interests in the sector will carry greatest credibility with potential new electricity providers and investors. Subsequent changes and adjustments to regulatory frameworks will be the responsibility of the regulator.
	Finance	An institutional structure convincing to private sector businesses and investors is key to attracting private finance. It is also through this institutional structure that the interests of users are protected and the portion of funding provided by users set. The institutional structure also governs how any grant/subsidy, cross-subsidy, tax exemptions and guarantee arrangements are set up and implemented.
	Other Forms of Non-Financial Interventions	The institutions charged with managing the sector and delivering electricity access will also be responsible for designing and managing non-financial interventions. One key element of institutional change will be to match the capabilities of staff to new requirements. Training to familiarise staff with new approaches, and to transfer the new skills required to provide the associated support will be an important requirement for any lasting reform process (and, if fulfilled adequately, will also incur a significant cost due to the large size of the institutions involved and the broad range of their activities – this should be budgeted in advance to set clear expectations). A first step in this process will be to educate staff regarding the need for reform, to convince them of the benefits, and so secure ownership and commitment to the change process. In the case that existing staff are unable or unwilling to adapt their approach, or when new skills are required to support modern demands, then the recruitment of new staff should be considered to establish the target capacity). Having raised the awareness and understanding of staff, they will become more receptive to the transfer of skills, equipping the institution with sufficient capacity to move forward, with minimum disruption.

Advantages and Disadvantages

The main benefit from institutional reform is to improve the operation and therefore the efficiency of current organisations involved with the expansion of electrification and to align them with new models and approaches to electrification. The electricity industry has usually been centred upon a national power utility, whose focus has been exclusively on grid-extension. With the increasing cost of electrification to remote areas, alternatives to the central grid have become more relevant, but the utility is often not structured in a way that can consider and react to these alternatives. The reform of the utility, and related state structures, can increase the ability of the sector to consider and react more positively to new electrification approaches.

An immediate disadvantage from such reform is the impact of change. Such change is often disruptive and will initially require additional resources to introduce unfamiliar systems and there may be significant costs associated with new infrastructure and systems. There will also be the need to support capacity building for operators who have been involved with previous systems, and possibly the introduction of new staff to enable sustainable reform processes. Given these costs it is important to be sure that institutional restructuring is necessary and not just a distraction from the real challenges of extending electrification. However it is usually a one-off, upfront cost to put changes into effect; this can then be compensated over time from the improved efficiencies and more cost-effective output.

Further Information and Guidance

IADB (Balza, Jimenez, Mercado), Dec 2013, Privatization, Institutional Reform, and Performance in the Latin American Electricity Sector. https://publications.iadb.org/handle/11319/6016
The World Bank Group, (2012). Institutional Approaches to Electrification: The Experience of Rural Energy Agencies/ Rural Energy Funds in Sub-Saharan Africa. November 14–16, 2011 Dakar, Senegal https ://openknowledge.worldbank.org/bitstream/handle/10986/26073/763820WP0P11090s0to0Electrification.pdf?sequence =1&isAllowed=y

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Regulatory Reform

Definition

Reform of laws and regulations governing the generation, distribution and sale of electricity, and of related processes and procedures.

Because electricity is such an essential service, most countries have some regulation of who may provide and sell electricity, and on what terms, to protect both providers and users. Often these have in the past been based on the assumption that electricity will be provided through a national gridsystem. As new options for electricity provision emerge, regulatory reform may be needed to enable their implementation, to create incentives for private and public sector power utilities to provide electricity, both through the extension of electricity networks and decentralized power provision, and to protect users.

Internactions wiht other NAE Categories

	Technology	Regulation of the grid system is generally well established. Reform may be required in order to allow for privatisation and introduction of private finance, creation of grid connected distribution systems or introduction of grid connected mini-grids or Independent Power Plants. Regulatory reform may also be needed to allow and incentivize isolated mini-grids. Standalone systems have in the past generally been unregulated, but as these become a more significant element in electricity provision, reform may be undertaken to bring them under regulatory control and to create incentives for their supply. In particular it may be necessary in order to allow pay-as-you-go arrangements to be established.
	Delivery Model	Within a public delivery model, regulatory reform will generally be a matter of improving efficiency and transparency. Reform is likely, however, be fundamental to allowing private and public-private partnership models for electricity delivery. The regulatory structure which is the outcome of this reform will form the basis of the development of these models and how they deliver electricity access.
	Legual Basis	The current regulatory framework must be the stating point for any reform. In many cases this will be a monopoly (nation-wide concession) for the national utility. The fundamental requirement to allow private sector participation is to make it legal. This may achieved simply by change in the law allowing all to generate and sell electricity, but authorities generally wish to maintain some level of oversight, over larger mini-grids at least, and so require their operators to be licensed. Alternatively, concession areas may be established, creating local monopolies for which electricity businesses can compete, with the terms of the concession agreement setting out the concessionaires rights and obligations. Standalone system providers are not usually covered by any utility monopoly (since it is the means of accessing electricity rather than electricity itself which they are selling), but as they become a more significant element in electricity provision, and particularly to allow pay-as-you-go arrangements, their regulation may be appropriate. Regulatory reform will be required to introduce such regulatory approaches, or to transition between one approach and another according to experience under local conditions.
	Price/Tariff Regulation	Regulatory reform is also central to establishing regulation of prices and tariffs. Appropriate price/tariff regulation is important to to protect users and incentivize suppliers. To see further information on different forms of price/tariff regulation, please go to the Uniform Price/Tariff and Individual Price/Tariff category descriptions.
	Finance	The most usual motives for regulatory reform are to allow and encourage private, commercial, investment in electricity provision and to protect users and limit the requirement for user financethrough price/tariff regulation. Reform to financial and tax regulation may also be needed to allow pay-as-you-go arrangements and to establish any tax exemptions. While grants, subsidies and guarantees are less directly linked to regulatory reform, it is important that they be aligned with the regulatory framework established.
	Other Forms of Non-Financial Interventions	Institutional Restructuring frequently accompanies Regulatory Reform, particularly where restructuring is needed to manage the regulatory framework being established. Both the regulatory framework and the institutional structure should be aligned with government policy and targets. Capacity building or technical assistance may be needed where the key actors involved do not have the expertise needed to design the regulatory framework.

Advantages and Disadvantages

Regulatory reform is an essential pre-requisite to many National Electrification Approaches. Its main disadvantages are the costs and resources used in reform, and the risk that the regulatory system designed may not, in practice, support the intended objectives and that over-regulation may hamper rather than assist improvements in electricity access.

Further Information and Guidance

AFREPREN (Karekezi, Kimani) Status of Power Sector Reform in Africa: Impact on the Poor www.sciencedirect.com/science/article/pii/S0301421502000484
AIMS Energy (2015), Reforms for the expansion of electricity access and rural electrification in small island developing states http://www.aimspress.com/fileOther/PDF/energy/201503463.pdf
EUEI PDF (2014), Mini-grid Policy Toolkit: Policy and Business Frameworks for Successful Mini-grid Roll-outs http://www.euei-pdf.org/sites/default/files/field_publication_file/RECP_mini-grid_Policy_Toolkit_1pageview_(pdf,_17.6MB,_EN_0.pdf
IRENA (2016), Policies and regulations to support renewable energy mini-grid development through private sector
involvement http://www.irena.org/DocumentDownloads/Publications/IRENA_Policies_Regulations_mini-grids_2016.pdf
Senegal. Agence Senegalaise d’Electrification Rurale (2009), Concession d’Electrification Rurale au Senegal, The Africa Electrification Initiative (AEI) Workshop, Maputo, Mozambique 9-12 Juin 2009. http://siteresources.worldbank.org/EXTAFRREGTOPENERGY/Resources/717305-1264695610003/6743444-1268073657582/15.4.Senegal.pdf
Senegal. OBA (2007), OBA in Senegal – Designing Technology-Neutral Concessions for Rural Electrification https://openknowledge.worldbank.org/bitstream/handle /10986/11034/396090SN0OBApp1140Electric01PUBLIC1.pdf?sequence=1&isAllowed=y
World Bank, (2000), Regulatory Approaches to Rural Electrification and Renewable Energy: Case Studies from Six
Developing Countries http://www.martinot.info/Martinot_Reiche_WB.pdf

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Policy & Target Setting

Definition

Establishment of Government policy for the expansion of electrification and definition of targets for achievement of electricity access provision over a defined timeframe.

There is widespread experience across the world of the positive impact of relevant targets within a broader policy for access to electricity. Existence of a clear policy and targets provides a foundation for implementation, offering installers and financiers clear guidance on the government’s commitment to electrification and regarding the types of electricity provision required; this brings certainty to the market and hence encourages sustainable investment in this area. While policy sets out the overall direction of the national approach to electrification, targets provide clear and quantified objectives. Targets may be set in terms of capacity/volume of electricity supplied or of numbers of household, businesses and community facilities provided with electricity access and levels of electricity access provided. They may be blind to the means used for provision or relate to specific technologies or to renewable versus fossil-fuelled electricity. Any targets should include clear timescales to allow progress to be monitored.

Establishing targets in law is an important step in increasing their credibility and longevity. While most targets currently adopted around the world lack clear enforcement mechanisms or penalties, a number of countries are setting legally-binding targets. Making targets binding in law helps reassure investors in the expansion of electrification that a local market will continue to exist in the future. Furthermore, legally binding targets are harder to repeal and therefore may be less vulnerable to changes in the political climate. Overall, the track record for jurisdictions with aspirational targets is varied. In contrast, the track record for jurisdictions with binding targets is considerably stronger.

Internactions wiht other NAE Categories

	Technology	In the past targets have been set mainly in terms of generating capacity (MW), output (MWh) and numbers of (grid) connections. This approach is becoming increasingly outdated in a changing electricity landscape as it ignores off-grid forms of access and focusses on supply rather than the applications supported by electricity, with the ongoing development of low-energy appliances. Instead it is suggested that, in line with the SE4All Multi-Tier Tracking Framework, targets should be formulated in terms of numbers gaining electricity access and levels of access achieved. Governments increasingly recognise the benefits of adopting a portfolio approach to any renewable energy deployment, including the use of local renewable resources for electrification. Targets that are exclusive to selected technologies can be introduced to support their specific deployment, in particular when they are most suitable in terms of resource availability (e.g. solar electricity generation targets in Dubai). Such targets can also give investors confidence and catalyse development of the market for these selected technologies. In addition, technology-specific targets can support the diversification of the energy mix to increase energy security. As a result, technology-specific targets have significantly increased in recent years. By encouraging the simultaneous development of a range of different electrification options, policy makers are enabling more diversified electricity supply sectors to emerge and to grow.
	Delivery Model	Under a public delivery model, government policy and targets effectively act as instructions to those managing electricity provision. Under private or public-private partnerships targets may be made obligatory through concession and licensing arrangements, but care should be taken in establishing onerous business-specific obligatory targets since these may discourage investment, even while the government commitment to electrification embodied in policy and targets can encourage it.
	Legual Basis	Any targets established by Government authorities should be in line with other regulatory measures. Any provisions made to grant licences or concessions, or any framework in place for electrification through a monopoly provider, must be accounted for in order for electrification targets to be realistic within the constraints of agreements already reached. Licence holders and concessionaires often have clear limits specified for the number of increased connections that they are able to deliver. Any policy or targets must be aligned with such agreements, and include clear justification (including the source of any additional installation capacity) if targets are set above the limits already in place for suppliers engaged through existing regulation.
	Price/Tariff Regulation
	Finance	One of the main purposes for setting targets is to direct financial resources. At the same time, one of the factors to take into account when setting targets is the availability of finance – from the public purse, from users’ willingness-to-pay and from private investment. In order to have sufficient confidence for investment in any market, financiers will usually require some clear policy commitment. The definition of targets related to such electrification policy has great value since such quantification provides a much clearer definition of the size of the market and thereby the potential returns for investors. This level of clarity, with policy commitments backed up by target levels of electricity access, means greater certainty and therefore increased willingness to invest.
	Other Forms of Non-Financial Interventions	Any policy that includes a framework for expansion of electrification by specific means (whether grid, mini-grid or stand-alone systems) will provide a foundation for the increased involvement of installers and financiers. Potential end-users will also become aware of such commitments and policy and targets will thereby increase awareness of the opportunity for electrification. Targets and policy for greater access to electricity thus feed directly into provision of market information for businesses, awareness raising and demand promotion. Government policy also forms the starting point for any direct electricity provision and for institutional restructuring and regulatory reform through which the policy will be delivered. Technical assistance may be needed to support policy and target setting.

Advantages and Disadvantages

Targets can have a number of positive functions at different stages of the policy-making process (i.e. formulation, implementation, and monitoring and evaluation). They serve an important guiding and knowledge function at the policy formulation stage, where they can bring consistency across different policy spheres and reveal data requirements and discrepancies. They can also enhance the transparency of the policy-making process by providing a common information base to all stakeholders, thereby fostering public support. At the policy implementation stage, targets signal political commitment, indicate long-term investment and innovation trends, improve coordination and motivate stakeholders to take action. At the monitoring and evaluation stage, targets can help measure the effectiveness of various policies and measures, and provide an opportunity for review, adaptation and continuous improvement. One potential disadvantage is the cost in terms of staff time from the institution responsible for policy and target setting. This relates initially to determining an effective target level, which requires research into the costs and benefits of expanded electricity supplies as well as clear understanding of the local issues that will determine user demand, ownership and likely take-up. But also, having established the desired level for target-setting, the type of approach (from voluntary commitments to legal obligations) must be determined according to relevant policy frameworks. This may require further policy preparation or adaption and hence additional institutional resources. Finally, the enforcement of any targets will add to the capacity needs and may require the definition of a new function within an existing authority, or the establishment of a new body to perform this role. Whichever approach is adopted, there is a substantial capacity requirement.

Further Information and Guidance

Ecuador’s electrification master-plan: http://www.conelec.gob.ec/contenido.php?cd=10329&l=1
IRENA (2015) Target Setting Report http://www.irena.org/DocumentDownloads/Publications/IRENA_RE_Target_Setting_2015.pdf
Tanzania’s SREP Master Plan: https://www.climateinvestmentfunds.org/cif/sites/climateinvestmentfunds.org/files/SREP_Tanzania_Investment_ Plan_Design.pdf

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Quality & Technical Standards

Definition:

Rules or guidelines for suppliers and installers (of products and services related to electrification) that ensure safety, compatibility and that performance meets user expectations. Technical standards apply to the performance of equipment installed, while quality standards also relate to the overall customer service experience.

A common cause of the failure of rural electrification initiatives is sub-standard quality, whether of system components, project design or the management of installation. The rapid influx of low cost, sub-standard components is a major problem in many markets in developing countries, where lower quality rural electrification projects lead to a wide range of related concerns. These may include reduced system output, less reliable operation, greater need for maintenance and replacement parts, higher life-time system costs (which require higher prices or tariffs), and lower overall customer satisfaction. Without such standards user confidence may be eroded, with users being reluctant to purchase products or services when they are unsure of what performance they will provide.

Wherever possible technical standards should be based on international standards. It may seem attractive to set nationally-specific standards, but these will discourage private providers from entering the market and increase costs of equipment. The International Electrotechnical Commission (IEC) maintains and publishes guidelines for the development of national standards. In the future, these are expected to cover issues including system commissioning, maintenance and disposal, measurement of technical performance, new technology storage systems, and applications with special site conditions. For solar products, Lighting Africa provides the generally accepted standards and approves products. Government regulators in developing countries are increasingly aware of the need for such guidance, and are adopting international standards for a growing range of products for electrification.

Interaction with the likely users of standards during their preparation is important to gauge the real requirements and to judge the potential for practical implementation. If quality/technical standards are set at an unattainable level using the resources currently available, then suppliers are likely to group together to form a “black market” of sub-standard systems, protecting each other from any external investigation. For this reason, the standards authorities must understand the realistic customer expectations under local conditions and gear any standards preparation to ensuring that such levels are met or exceeded. Consultation with the range of stakeholders involved with the supply of the relevant systems – including producers, installers, service providers, and end-users – should be undertaken in the early stages of standards development to ensure that the local context is fully-accounted for.

The greatest challenge for the relevant authorities is not the preparation or even the adoption of standards by the related industry, but rather their enforcement. In broad terms, there are three main approaches to the enforcement of standards for electrification expansion, namely 1) permitting and certifying, 2) targeted inspections, and 3) sanctions and penalties. A combination of these approaches, based upon the local systems, culture and experience, will usually be required to ensure compliance.

Internactions wiht other NAE Categories

	Technology	For all forms of electricity, the first requirement is safety. For grid systems, and for any grid-connected distribution systems or mini-grids, this is followed closely by technical compatibility – a grid system can only operate if all parts of it are compatible with each other. Most grid systems are designed to give a high level of performance, but sadly many in developing countries are unreliable and provide poor quality electricity, with variations in voltage and frequency leading to damage to users’ equipment. Key questions for isolated mini-grids are whether they aim to provide a grid-equivalent electricity supply, or a lower level of service (eg to power lighting and a small number of low-powered appliances per user), and whether they should be technically compatible with the grid system (facilitating subsequent grid-connection). For standalone systems, standards relate to the level of electricity provided and also, particularly for solar-based systems, to duration (hours/day) and life (especially battery life). In relation to enforcement, a clear distinction can be made between different types of rural electrification (grid extension, mini-grids, and stand-alone systems). The process for enforcing standards for grid and mini-grid applications should be more straightforward since it can be done at the permitting stage, via tendering with clear technical specifications built into the tender documents; regular monitoring, and site inspections. The standard of service experienced by the users will, however, depend as much on subsequent operation and maintenance. For stand-alone systems, some form of partnership is required to help implement the required standards; for example, if donor or government funds are involved, then quality standards can be made a condition for the disbursement of funds (in this case, the standards for the systems can be developed by national regulators and stipulated clearly upfront).
	Delivery Models	Within a public delivery model, particularly where there is a single national utility, standards may be set relatively informally and be treated as internal documents. One of the challenges of bringing in other, private and public-private providers is the need to formalise and make widely available these standards.
	Legual Basis	Technical and Quality Standards may be imposed and enforced through the conditions set for concessions and licenses. Making standards part of regulation is the strictest imposition. In an unregulated context, general legislation must be used, or voluntary standards established through industry associations may be more appropriate. The cost implications of standards should be recognised when prices or tariffs are being set – and price/tariff regulation can be one mechanism for enforcement of standards, with discounts being required if agreed quality standards are nor achieved.
	Price/Tariff Regulation
	Finance	Standards have direct impact on costs, for instance allowing low-cost distribution systems or service drops can reduce the cost of grid extension and mini-grids, and this should be borne in mind when they are being set. At the same time standards can make users more willing to pay charges as they have greater confidence in receiving what they are paying for, and this in turn will strengthen private investors willingness to provide finance. If donor or government funds are involved (eg as grants, subsidies or tax exemptions), then quality standards can be made a condition for the disbursement of funds.
	Other Forms of Non-Financial Interventions	Regulatory reform can provide a practical mechanism for introducing appropriate quality/technical standards. Institutional reform and capacity building (including setting up test facilities and training standards officers) may well be needed to support establishment and enforcement of new standards and well-targeted technical assistance which draws on experience and lessons learned elsewhere may help with this process. Raising users’ awareness of standards is a further critical step in ensuring that standards are applied in practice and don’t just exist on paper. The use of appropriate new technology for remote electrification applications will be dependent upon technical standards. On the one hand out-dated or inappropriate standards may exclude adoption of new technologies which could provide electricity at lower cost. On the other, a lack of relevant standards may mean that market forces drive the implementation of the lowest cost versions of available technologies which, almost invariably, will be of lower quality than required to meet customer needs.

Advantages and Disadvantages

The great benefit of introducing quality/technical standards for electrification expansion is to ensure safety and that users receive services and systems that provide electricity at the expected level, consistency and duration. While capital costs may be higher, maintenance and replacement costs should be reduced. It will also enhance user confidence in the remote electrification services provided, and hence increase demand and so support investment and creation of a market that will become sustainable over a shorter space of time. The reduced rate of disposal of redundant systems also brings environmental benefits from a lower negative impact of waste goods and materials.

The counter-argument is that standards serve to exclude lower-cost products and that users should be given the choice – but this relies on a high level of user awareness and understanding of technical issues, and ability to value quality differences, which can only be expected in a mature and sophisticated market. On a more practical level, it is the cost and expertise needed to establish standards and the resources and expenditure to enforce them which pose the most significant barrier to their adoption and effective implementation.

Further Information and Guidance

AFSEC (2016), Guide on applying and harmonizing standards in rural electrification: http://www.afsec-africa.org/Portals/15/Documents/2016/ptb_AFSEC_Guide_Rural_Electrification_Africa_WEB.pdf
Couture, T (2016) “How to Maintain Quality Standards in Rural Electrification https://cleanenergysolutions.org/sites/default/files/documents/cesc-webinar_quality-standards-in-rural-elec_oct_2016.pdf
IRENA (2013), International Standardisation in the Field of Renewable Energy, in_the_Field_of_Renewable_Energy.pdf https://www.irena.org/DocumentDownloads/Publications/International_Standardisation_ in_the_Field_of_ Renewable_Energy.pdf

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Technical Assistance

Definition:

Advice and practical support on any aspect of electrification provided by external experts.

Technical assistance spans all aspects of electricity access provision, and may be used to support policy makers and regulators; those designing and implementing intervention programmes; and electricity access providers. The forms of technical assistance in greatest demand are usually advice on regulation and procurement of electricity provision, technical and engineering support; business and financial advice; legal and compliance advice; and market scoping, development and community engagement. Developers have indicated that such assistance can have great value by helping them to take projects through their development life cycle to reach financial closure.

Advisory services – these may come in the form of written instructions/guidance or direct intervention during practical application on the ground. Based upon the extensive experience of electrification elsewhere, experts in this field are in a good position to provide advice to project developers and implementers, government and financiers. The aim is to provide these local stakeholders with the results from experience – to ensure that they do not take routes that have been tried and failed elsewhere. Such support may be at a strategic level to determine the most relevant areas of priority in the target country, and/or at the practical level to ensure that experience from elsewhere is taken into full account, and positive results can be achieved more directly.

Target recipients – the target group for technical assistance often consists of project developers who are aiming to establish new electricity businesses. However, support is also required by other stakeholders who may otherwise be unfamiliar with the needs of electrification in remote areas. Such bodies include financiers (public and private), government, regulators and product/service providers who need to adapt to the local conditions, priorities and drivers in rural communities.

Community engagement – despite all of the knowledge and experience that can be provided through technical assistance, much of this will add little value if local conditions and context are not taken into account. Although much may be written about the situation in towns and villages in developing countries, one message is the most important, namely: everywhere is different. So the solution or approach that was successfully adopted elsewhere for the provision of electricity may not – or rather, probably will not – lead to the same results in a different community. For this reason, the practical technical assistance needs should be discussed with community members and leaders prior to specifying the format of such assistance. Only then can interventions with the highest value be determined.

Internactions wiht other NAE Categories

The nature of technical assistance means that it may be used to provide support in any area of the process to bring new power supplies to unserved communities – consequently it may interact with almost all of the other NEA categories. Thus it may be used to support provision based on any technology and using any delivery model and to assist with design and implementation of legal and regulatory structures of whatever basis. However, there are some areas where technical assistance will have particular significance:

Finance

Technical assistance is often provided as a form of aid given to developing countries by international organizations, individual governments, foundations, and philanthropic institutions, or sometimes as a form of support by government to electricity businesses and developers. As such it acts as a type of grant or subsidy

Other Non-Financial Interventions

Institutional restructuring – implies that current institutions and their responsibilities are not well aligned with the latest challenges of electricity provision, and therefore that technical assistance may be particularly beneficial.

Regulatory Reform – electrification has been predominantly based upon the central grid structures that are driven by the national electricity utility. Regulations have consequently been prepared to cater for this framework. Elsewhere in the world, this model has been replaced with a greater focus on decentralised solutions that can be more cost-effective, particularly when connecting remote areas. Using the experience gained from elsewhere, technical assistance can help to reform current regulations, enabling them to address a combination of remote grid-extension, mini-grids and stand-alone systems, thereby allowing more rapid progress to the use of modern technology options.

Policy/Target-Setting – the preparation of policy and defining relevant targets are important developments that will guide the nature of electrification expansion, determine the rate of appropriate new connections, and ultimately determine the success of related efforts. Such processes have been implemented for many years in countries and so there are many sources of international skills and experience that will assist countries to prepare effective policy and define relevant targets. The provision of technical assistance can achieve the transfer of this knowledge and so help achieve positive outcomes sooner.

Quality/Technical Standards – technical assistance can help to transfer the skills and experience from countries that have developed effective technology and service standards, bring to developing countries the approaches required to ensure the application of appropriate systems and technologies for electrification. Without such standards, suppliers are likely to install low-cost and inefficient systems, thereby undermining the creation of any sustainable market. Technical assistance can help countries to invest in the preparation of standards that will provide a solid foundation for the expansion of cost-effective power supply.

Capacity Building/Awareness-Raising – technical assistance differs from capacity building and awareness raising in that technical assistance involves directly undertaking activities on behalf of those being supported, whereas capacity building’s aim is to build the skills and understanding of stakeholders to enable them to undertake activities on their own behalf. There is clearly a high degree of commonality between the two approaches and they are often undertaken in concert.

Technology Development/Adoption – technologies that can meet the needs of local users, based on the supply of local resources, are needed to enable affordable access to electricity in remote areas. There is great experience of technology development internationally, and technical assistance to transfer appropriate technology can provide swift progress towards the best available systems for the needs of targeted communities. The efficient identification, development and implementation of appropriate electrification technologies is likely to be achieved much more quickly if relevant technical assistance can be provided.

Advantages and Disadvantages (Including Level of Electrification Provided)

The great benefit of carefully targeted technical assistance is that actors in the target countries are empowered to deliver and maintain electrification initiatives without having to experience the trial and error that is usually associated with any new venture. Such assistance can transfer the skills and experience from operators who have many years of experience with electrification programmes and can therefore help to direct the local players to achieve the most cost-effective results. Duplication of irrelevant or unsuccessful initiatives can be avoided, thereby reducing the costs to project implementers and increasing the likelihood of achieving successful results.

One potential disadvantage of (poor) technical assistance is that it could lead to adoption of standard solutions without adequate consideration of the specific context and circumstances . Another is that, unlike capacity building, technical assistance does not leave a legacy of expertise, so unless accompanied by capacity building is most suitable for one-off activities which are unlikely to be repeated. Finally there is the potential for technical assistance to be misdirected. Care must therefore be taken with the selection of experts to provide technical assistance in order to avoid recommendations to uninformed local stakeholders that will simply not achieve the required electrification results in an effective or efficient manner. Any such external experts must therefore be required to identify and engage with the key local stakeholders in order to understand the current situation, the interests and expectations of the target local community(ies), and the values that they associate with different types of service. Only once the desired outcomes are clearly understood can any technical assistance provide substantive and value with lasting results.

Further Information and Guidance

Barnes, D (2005), Meeting the Challenge of Rural Electrification in Developing Nations: The Experience of Successful Programs, https://static.globalinnovationexchange.org

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Capacity Building & Awareness Raising

Definition:

Capacity building refers to increasing the knowledge, skills and understanding of stakeholders involved in electrification, often through training. Awareness raising, as part of capacity building, refers to educating stakeholders about opportunities, benefits and issues related to increased electrification.

Extending electricity provision in any developing country will involve a wide range of actors, including power generators and distributors, standalone system providers, policy-makers, regulators, installers, financiers and users. All of these groups require sufficient capacity in terms of skills and understanding to enable the process of electrification to be fulfilled successfully. Building this capacity is therefore a key requirement. A donor-funded project can bring the immediate benefits of electricity to a remote community, but without the training to equip local people with the capability to operate, service, and maintain the systems installed, the initially positive results from such an intervention will be short-lived. This is equally true for the processes and systems around electricity provision – without sufficient knowledge of the options policy makers are unlikely to be able to design effective regulatory structures and intervention programmes; without technical and business skills electricity providers will not deliver quality, cost-effective, sustainable electricity access; without awareness of electricity options and their uses and limitations, users will not be able to effectively secure its benefits, and will not create the political will to drive electrification. Training and awareness raising are therefore key to lasting positive impact.

Increased awareness – a starting point for building capacity is to increase the knowledge of those involved regarding the issues relevant to their role in the electrification process. This includes providing examples from international experience, including the potential benefits to users (e.g. improved quality of life, income-generating opportunities), the policy frameworks and regulations in place to govern electricity provision (for grid, mini-grids and stand-alone systems), the business case for investors (market scale, risks and potential returns) and cost-effective supply chain models for installers (from the production and delivery of infrastructure to the receipt of electricity
by the user). The limited experience of successful electrification expansion in many developing countries means that input from international sources, appropriately modified to account for the national context, can have great value in raising the awareness of stakeholders, learning the lessons from elsewhere, avoiding mistakes and thereby facilitating a cost-effective electrification process.

Training – the most common route for transferring skills to build capacity of relevant stakeholders is through engagement with experts who can explain and demonstrate the details of the actions required. Such training is often undertaken with groups of individuals who have similar roles, perspectives and needs. This allows one trainer to reach several recipients, but also enables interaction between participants, which can raise new perspectives and issues to resolve. To be effective, such training must have a clear goal with measurable outputs so that the participants can assess their comprehension of the issues and their ability to implement the new skills. With respect to electrification expansion, the requirements of the target groups must be clearly determined in advance and the relevant training components and structure designed accordingly.

Practical application – capacity building is unlikely to be successful if new principles and processes are learned about through knowledge transfer and classroom instruction alone. Whilst this can lead to greater understanding of the issues in the short-term, such information is unlikely to be retained without application in a work context. There is need for the recipients to use their newly acquired skills under the observation of experts/instructors, to gauge their effectiveness and to adjust their approach as necessary. Any efforts to increase the capabilities of key actors for electrification expansion should therefore anticipate a sufficient timeframe to ensure that such skills are fully integrated into the outlooks and performance of stakeholders concerned.

Internactions wiht other NAE Categories

Since capacity building can be applied in all areas of activity related to national electrification activities, each of the other NEA categories can be impacted to some degree. However, there are some categories where capacity building may have a significant effect, such as those indicated below.

	Technology	one of the most frequently identified constraints on mini-grid and standalone system businesses is the lack of staff with the technical skills to install, operate and maintain the equipment. As these businesses start up and enter new markets it is impractical for them to train the staff they need themselves, and a government-led programme of training in coordination with industry associations, academic and technical institutions can give a significant boost to off-grid elements of electrification.
	Delivery Models	Where there is a move from a purely public to private or public-private models, it will be necessary to grow the rather different skills needed in this context. For public-private partnerships in particular, there is often initially a significant difference in perspectives, interests and desired outcomes. For this reason, it is important to build capacity and understanding on both sides of the different views and approaches in order to establish reach agreement on the best approach to increased electrification.
	Legual Basis	For a regulatory structure to work smoothly, both the regulators implementing it and the electricity providers governed by it must understand it well. It is therefore important when developing a regulatory structure to ensure that staff a trained in both the principles underlying it and its practical application, and that information on it is made readily available to electricity providers.
	Price/Tariff Regulation
	Finance	In order to attract private finance electricity will need staff with business skills to develop business models and plans setting out forecast costs, revenues, risks and how they will be managed. Equally for electricity businesses to be cost-effective and sustainable calls for financial management skills. As new businesses enter the sector they will need to access these skills and a government-led programme of business skills training focussed on electricity can be a major benefit to electrification efforts. The appropriate structuring of prices or tariffs is a particular issue that requires a clear understanding of the issues, experiences and results elsewhere, and the preferences of the local stakeholders. Building capacity to understand how prices or tariffs can be structured to cross-subsidise electrification while balancing the needs and interests of different users is critical to establishing a financially viable electrification programme. Local financiers also often lack awareness of the electricity sector and the opportunity it offers them, making them reluctant to lend to both electricity businesses and users, and to place a high price on lending into an area where they feel uncertain of the risks. Capacity building and awareness raising in the financial sector can do much to lower this barrier.
	Other Forms of Non-Financial Interventions	Institutional Restructuring – to accommodate the increasing move from centralised grid extension to decentralised electricity connections, institutions dealing with electricity supply, transmission and distribution have been reformed over several years. This experience, including the lessons learned and subsequent measures taken, will be relevant to developing countries that are currently undergoing a similar transition. This aspect of capacity building will be important to build the capabilities amongst officials that will take responsibility for such restructuring measures. Regulatory Reform – in the same way that institutions must adapt to the new environment for electrification, existing regulations must also be reformed. Regulators are likely to have experience of the conditions necessary for centralised grid expansion, but will be much less familiar with the regulations that are most appropriate for e.g. mini-grids and stand-alone systems in remote areas. Building the capacity of regulators, and the associated government officials in this respect will be essential for effective development of this market. Quality/Technical Standards – although the standards set in any country for power supply must reflect the national perspective, there is extensive international experience with the application of standards. National and international standards bodies have been established to address this issue. Raising awareness of such international experience, and transferring skills and understanding regarding the factors to take into account when setting quality/technical standards for electrification, can have great value. Technical Assistance – technical assistance differs from capacity building and awareness raising in that technical assistance involves directly undertaking activities on behalf of those being supported, whereas capacity building’s aim is to build the skills and understanding of stakeholders to enable them to undertake activities on their own behalf. There is clearly a high degree of commonality between the two approaches and they are often undertaken in concert. Awareness-raising, training and associated measures will often be resisted due to a lack of local resources. International development institutions or national governments can address this constraint by including provision for appropriate capacity building within technical assistance programmes.

Advantages and Disadvantages

The advantages of well-targeted capacity building, including raised awareness, is that previously-constrained operators in the electrification sector can be equipped with new skills that enhance their performance and so achieve more successful results. If executed efficiently, any training processes can ensure that recipients are aware of the most recent experience and approaches regarding electrification, and have the capability to apply these measures in their own local context. This will usually lead to increased efficiency of operations in terms of cost-effectiveness, greater impact, reduced timeframes and successful outcomes. A lack of such capacity can limit the potential benefits from intended access to electricity in remote areas.

The only disadvantage related to capacity building is the cost and the time required to complete the relevant transfer of skills and experience. Often this will rely on international sources of expertise, which will be associated with significant charges for the transport of relevant experts to recipient countries, and for their time involved with the instruction of target recipients. Other negative impacts can result from the selection of inappropriate trainers to deliver relevant courses – a mismatch between the skills/experience of the trainer and the needs/expectations of the participants can lead to little value from such interaction. Trainers must also be made clearly aware in advance of the local conditions, customs and approaches in order to make any international capacity-building process worthwhile.

Further Information and Guidance

IRENA (2012), Capacity Needs Assessments for Rural Electrification, http://www.irena.org/menu/index.aspx?mnu=Subcat&PriMenuID=30&CatID=79&SubcatID=260

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Market Information

Definition:

Making available information useful to a business that is considering entering an electricity market.

This may include information on government policies and targets, the regulatory framework, institutional stakeholders, energy resources available for electricity production, demand and willingness to pay for electricity access, current levels of access (including extent of the grid system and plans for its extension) and electricity providers already active in the market. With this information an electricity provider can judge the prospects of building a sustainable, profitable business. Making the information openly available will lower the transaction costs of market entry for new electricity businesses, since it removes the need for each to go through the process of gathering the information for themselves, and thus make the market more attractive.

Breadth of Information – the energy source and the physical potential for electricity generation are rarely the deciding factors in investment decisions aimed at new connections. Instead, the most relevant considerations for practitioners are national policies, regulations and market size. Most practitioners consider a combination of physical and non-physical factors, but give more weight to policy and regulatory factors and to the ability to develop local marketing networks. This is due to the higher perceived project risk from factors such as access to target communities (is grid extension or decentralised generation most cost-effective?) than from, for example, the levelised cost of solar radiation. Therefore, an opportunity assessment focused only on the availability of energy resources will not meet the needs of potential operators. This must include consideration of broader market issues to be of any value.

Format of market information– the level of detail (granularity) of the information provided is important, since if this is inadequate it will be of little use. It is also vital that information is made available in one place (eg a single on-line portal), and that it is consistent and can be linked together - so that, for instance, the proximity of generating resources and demand centres can be determined. It has also been found that raw data is much more useful to potential project implementers than is processed data. Developers often see only marginal benefits in outputs from processed data (such as maps of target locations) since they have concern over the assumptions and specifications used in creating such outputs. These criteria are unlikely to be fully-aligned with a developer’s findings from a specific location. Consequently, practitioners generally prefer using their own assumptions, value choices, and scenarios within any opportunity assessment – only then can they fully trust the outputs of any model that makes use of the data. Market information should therefore focus on the provision of basic details that reflect the conditions, rather than including any estimates based on this data.

Currency– regular updating of market information is critical to its continued relevance, particularly for the entry of potential private sector operators into a new market. Details of policies and regulations may need to be updated even more regularly than physical factors, since there is an expectation of regular changes in the priorities and targets of government and related institutions. To provide such market information will require a dedicated organisation or a dedicated platform hosted by a relevant organisation that provides links to the most up-to-date sources. This should enable the close monitoring of relevant physical and non-physical factors, including policies and regulations that can become quickly outdated quickly. Maintaining up-to-date information sources will be crucial to stimulate stakeholder uptakes of any market details made available.

Internactions wiht other NAE Categories

	Technology	The information needed will depend on the form of technology. In making information available, the focus should therefore be on those technologies expected to play a significant part in national electrification. Information on the current and planned extent of the grid system (and the intended timing of extension) will be particularly important for other electricity providers.
	Delivery Models	Provision of market information is most valuable for private delivery models, and may be relevant in a public-private context.
	Legual Basis	Under a concession arrangement, relevant information may be provided through a concession bidding process, and open access information is therefore most likely to be valuable in a licensed or unregulated market context. Information on the regulatory system is an important element of market information provision.
	Price/Tariff Regulation
	Finance	For the private sector to consider any form of investment in electrification, they will need to have access to market information that provides a sufficiently confident assessment of the potential for returns on investment in this market. This includes the potential demand for electricity from newly-connected users, any constraints to operations (such as policy obligations for suppliers, regulations, limited access to energy resources) and any financial charges – or other related costs - that will be applied to electricity supply services. The development of a business plan, which will provide the foundation for any private sector involvement in the electrification market of a country, will only be possible if the private operator has sufficient access to market information – the capacity to generate such information is therefore critical to the cost-effective expansion of electrification.
	Other Forms of Non-Financial Interventions	Regulatory reform – reform of regulations (or the introduction of new, additional laws that require compliance and potentially cause increased costs to any suppliers) must be carefully monitored by any business that is already providing electricity services, or is planning to do so. The availability of relevant market information regarding the status of current regulation and any reforms that are planned or are likely during the term of any envisaged business investment, is a critical factor for any potential investor in the expansion of electricity supply. Quality/Technical Standards – the existing or planned standards that apply to a market will determine the ultimate cost of the products and/or services supplied. New standards are increasingly under consideration to improve the reliability of systems involved with electricity connections. This will have a direct bearing on the costs to suppliers, who will be obliged to increase the quality of their products, and potentially source components from greater distances. Such increased cost of supply is likely to impact the level of returns that a business can expect from the market for new electricity connections, and thereby cast doubts over the commercial viability. Clear details of any enforced standards related to electrification in the country concerned are therefore needed by suppliers – both before and during their operations on the ground. This market information will provide a valuable input for such businesses and help to determine the prospects for increased investment. National Energy Planning – There is considerable overlap between the information needed for national energy planning and that required by potential electricity providers. The plan itself may provide on source of market information, but as discussed above the raw data behind it will be more useful to prospective electricity providers, and this information will need to be updated to maintain its accuracy and relevance.

Advantages and Disadvantages

The great advantage of having reliable market information is that any business can plan accurately, responding directly to user needs and providing a return on investment that will be sufficient to secure continued, and ideally expanded, operations. For increased electrification into rural areas, such information is an essential part of attracting suppliers and financiers. Without sufficient details of the target market, the uncertainties involved in such intervention are simply too great, leading to a risk profile that is untenable for any potential investors. The advantage of providing this information centrally is that it avoids the costs to businesses considering entering the market of each gathering it separately – a cost which may well be so great that it prevents businesses from entering the market at all.

The main disadvantage is the costs and resources needed to collate the information and maintain it. If information is not sufficiently accurate, detailed and reliable to meet businesses’ needs, it will be of no use to them and this expenditure will have been wasted. There is also the danger than details available for one location may be inappropriately extrapolated to other user-groups, thereby providing a misleading impression of the business constraints and potential. Market information may also be skewed by the perspective and/or interpretation of the information provider, or the information may be incomplete, lacking essential details that will be critical for accurate business development decisions. Therefore, any market information related to electrification demand in remote areas must to be viewed within the context that it is prepared and supplied.

Further Information and Guidance

Sampablo, M (2017) Green Mini Grids Market Development Programme - Market Intelligence business line https://www.se4all-africa.org/fileadmin/uploads/se4all/Documents/Abidjan_Workshop_2017/Panel_monitoring_-_SE4A_Presentation_-_GMG_-_Carbon_Trust_-_29032017.pdf
RECP, https://www.africa-eu-renewables.org/market-information/

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Rwanda, Sector-Wide Approach to Planning

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Demand Promotion

Definition:

Promotional and support measures implemented to encourage the demand-side opportunities that are enabled by electricity access, and so stimulate increased power consumption.

It includes, for example, enabling access to finance to allow users to complete the final steps for connection, such as internal wiring, and for the effective use of their new power supply, as well as support for income-generating uses of the electricity that has become available. Even after the extension of electrification to more remote areas, the opportunity for electricity use will be unfamiliar to potential users, whether households or businesses. Support is often required to encourage this target user group to make use of the new power supply that is now available. This will include raising awareness and educating potential users about the benefits of electricity access, and about the most effective means to make use of this new source of energy. However, additional measures are required to ensure that the potential demand for increased electricity use is fully realised. Building demand is important both to increase the social and livelihood benefits of electricity access, and to assist electricity businesses to become economically sustainable. Demand promotion may be undertaken by the electricity provider, or as a support activity by government or other electrification programme implementers

Demand-side costs of electrification – after grid extension, or the installation of a decentralised mini-grid, or the purchase of a stand-alone system, the end-user is still faced with the need to make a final connection from the source of power to the point of use. This will mean that the user must make arrangements for wiring and sometimes the installation of controls or switches within the dwelling or business concerned. The user will also need to know about the range of relevant electrical appliances that are available, and particularly the power demand associated with each of them. These demand-side issues all have cost implications that may present a barrier to electricity access. Government funding and/or private sector financing mechanisms should therefore be considered to facilitate this final connection process and purchase of appliances and hence support the required increase in electricity demand.

Beyond increased awareness – there is certainly a need to inform the user of a range of issues that relate to new electricity access. This includes education related to the safe and cost-effective use of electricity for personal lifestyle improvements, the costs involved for supply and maintenance, and the opportunities presented by access to electricity. But the demand promotion goes beyond simply raising user awareness. Building upon an increased understanding of electricity supply as a foundation, the user must be given support to maximise the advantages associated with electricity access. This involves providing the resources necessary to grow the market for activities based upon electricity use, with lasting benefit for the communities involved.

Opportunities for productive use – in addition to the personal benefits associated with e.g. improved lighting, television/radio and charging of mobile phones, the new access to energy could have potential for productive use that can generate additional income. Users need to be informed about such opportunities, starting with simple applications such as the refrigeration of drinks for sale, the use of a sewing machine, or a hair-cutter, which can all form the basis of early stage economic activity. Wide uptake of such opportunities within a community can lead to significant economic development, with a resulting increase in purchasing power, and growth of electricity demand. Support for the development of such productive activities, in the form of access to finance and/or technical assistance may be required to maximise the potential for productive use.

Internactions wiht other NAE Categories

Demand promotion can support electrification across Technologies, Delivery Models and Legal Basis and Price/Tariff Regulation approaches. However, there are some categories where capacity building interact most closely.

Finance

Demand growth is important to achieve economic sustainability for electricity businesses, and demand promotion programmes will thus support private finance of electrification. For users, availability of finance will often be a major constraint. There may be costs to the user that are associated with the final technical arrangements for distribution of power within the recipient household, office or operation. Appliances to enable electricity consumption will also be needed. This presents a market opportunity for the private sector, which can offer financial loans with appropriate payback arrangements that increase the affordability of the additional purchases required by new users. Grants or subsidies may be justified to support demand-side measures that will provide electricity access, and the associated basic services, for the target users. Different forms of grants and/or subsidies should be considered to help overcome the financial barriers on the demand-side, in order to facilitate the supply of electricity at a level that will reflect user needs, and help to bring the related social and economic benefits to the target communities.

Other Forms of Non-Financial Interventions

Technical Assistance – for businesses that now have access to electricity, technical assistance will be extremely useful to help the growth of income-generating activities. The conversion of business operations from dependence upon traditional fuel sources to the use of newly available power, and the addition of processes that were previously unviable without access to electricity can now be implemented. External advice regarding these new measures will help businesses to maximise the efficiency and opportunity for the productive use of electricity. This form of demand promotion will bring direct economic development.

Capacity Building/Awareness Raising - there is certainly an overlap between demand promotion and awareness raising, though awareness raising is not limited to demand promotion since it can also be applied to policy makers, or raising potential energy providers’ awareness of the market, or making finance providers aware of associated lending opportunities. At the same time demand promotion extends beyond building increased awareness amongst users to include taking additional action and providing support to facilitate the growth of electricity use.

Advantages and Disadvantages

The main advantage of demand promotion activities is that they increase the use of electricity for positive results, maximising the potential benefit to users from their new access to electricity, while also increasing the economic viability of electricity provision. Users are made familiar with the range of opportunities related to electricity access, and are equipped with the skills and resources required to reap the consumer benefits, as well as to develop income-generating activity that can allow broader economic development. The disadvantage of demand promotion is that it will incur a cost to the public sector, or a risk for private financiers, without certainty of the ultimate impact. Inappropriate demand promotion can encourage electricity use for applications that are not the most appropriate for new users. This presents a difficult position for public and private sector financiers to provide justification of their efforts, though the benefits should become more evident over time with the increased rate of economic development in the target community(ies).

Further Information and Guidance

Cernuschi & Platz (2006), Financing basic utilities for all - a survey of issues, http://www.fes-globalization.org/publicationsNY/Financing_basic_utilties_background_paper.pdf
EUEI PDF (2011), Productive Use of Energy – PRODUSE: A Manual for Electrification Practitioners https://www.giz.de/fachexpertise/downloads/giz-eueipdf-en-productive-use-manual.pdf
Zomers, A N (2001) Rural electrification: utilities' chafe or challenge? http://doc.utwente.nl/38683/1/t0000008.pdf

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Technology Development & Adoption

Definition:

The process of engineering, demonstrating, and bringing into use a new means of electricity provision, or adoption of a technology in use elsewhere and its adaptation to local conditions.

Technology match – for successful investment into expanded electrification, the key risks must be addressed. Financial and political risks will be key concerns, and the technology risk must also be considered. This does not necessarily relate to the correct operation of the technology, since most electricity generation, transmission and distribution systems to be used will already be well tried and tested elsewhere. However, there is a risk associated with matching the availability of local energy resources to the technology introduced. For distributed electrification systems, whether mini-grids or stand-alone, renewable energy resources will often be the principle fuel source though hybrid systems may also require diesel fuel. Careful assessment of resource availability is therefore required in advance of any technology selection. This will relate to the natural conditions (such as solar radiation intensity, wind speeds, and water flow rates) but also supply chains associated with biofuels and with any diesel fuel needed for hybrids or back-up systems.

Technology transfer – there have been, and continue to be, many programmes driven by industrialised countries that aim to use in developing countries those technologies that have been effectively demonstrated. This brings the advantage of reducing the risk for of trying to implement technologies for electrification that will not function in a way to achieve cost-effective power supplies to remote areas. The transfer of familiar technologies from an industrialised country may also bring the benefit of reduced costs for the recipient country since the provider can generate a new demand for technology that has saturated the market in its country of origin, and thereby justify reduced prices. However, this process of technology transfer can bring longer-term disadvantages to the developing country involved since any replacement of parts, maintenance or operations management may have to be sourced from the country of origin, which will lead to significant costs. For this reason, policy makers should consider the longer-term impact of technology transfer before accepting any systems for electrification that cannot be supported locally.

Capital vs operational costs – the choice of technology to be developed for remote electrification (whether grid extension, mini-grids or stand-alone systems) must take account of the quality of service, the social and environmental impact, but most importantly the cost implications for users. One fundamental issue is the choice of renewable energy technology or systems using fossil fuels (such as diesel or coal). The capital costs associated with renewable energy technologies can often present a critical barrier to potential users. This is despite the fact that the running costs will be minimal since the energy source is often freely available. Users often do not bear the upfront investment costs of electricity generation from fossil fuels, but may underestimate the longer-term financial obligation that is involved. Independent authorities, including the government, should seek to inform users and investors of the cost implications of technology development, and the likely affordability to the target customers. Introducing innovative financing mechanisms to offset the upfront costs of renewable energy technologies over a period of time is likely to bring great long-term benefit for end-users, as well as for the environment.

Appropriate technology – for technology to be appropriate, it must correspond to local needs. One of the key issues to address regarding any technology introduced for new electricity connections in developing countries is its affordability. Priority must be given to technology that can be built, operated and maintained by the local people with very limited outside assistance (technical, material, or financial) if it is to be sustainable. In many cases, the most advanced technology is inappropriate for the local needs and alternative approaches should be introduced, based upon the use of locally-available renewable resources, while promoting self-reliance. For successful electrification expansion, national and local governments, as well as private companies, must find technology options for new electricity connections that are both efficient and fit within fiscal limitations. Another key criterion for the adoption of appropriate technology is the “image of modernity”. It has been found that people in many developing countries (in the same way as people of many industrialized countries) want to perceive themselves as modern and progressive, at least within their personal
context. Most people, wherever they live, want to feel significant and to be perceived as worthwhile. It follows, therefore, that an image of being modern is important to the success of any technology for electrification. People must believe that a technological device brings with it a degree of sophistication which can elevate the user’s social status as well as meet a basic human need. Any technologies introduced to bring electricity to previously unserved communities must take account of this fact if they are to achieve local acceptance.

Internactions wiht other NAE Categories

	Technology	New technologies may sit within a technology category (eg grid extension, mini-grid or standalone) or may span more than one category (eg an advance in electricity storage which could benefit both isolated mini-grids and standalone systems).
	Delivery Models	The private sector will often bring forward new technologies, but they may be reluctant to implement them at scale because of the inherent risk. Private-public partnerships may provide a vehicle to bring in new technology, with the private sector providing the technology know-how while the public sector bears the additional technology risk. Adoption of technologies already demonstrated elsewhere and their adaptation for local use may be undertaken by the public or private sector alone.
	Legual Basis	One reason for offering a concession is to support new technology development. In general, however, there is no particular association between new technology and any particular regulatory structure.
	Price/Tariff Regulation	One of the main purposes in the medium term of adopting new technology is to drive down prices or tariffs, but initial demonstration projects may require a higher return on investment and (in the absence of specific grants or subsidies) this should be recognised in agreed prices/tariffs.
	Finance	Private financiers are in principle interested in investing in new technologies, but may require higher rates of return and/or grants and subsidies to do so. In the medium term new technology should reduce electricity costs and hence user finance.
	Non-Financial Interventions	Quality/Technical Standards – technology development must take account of all the relevant standards that are enforced in the country of implementation. However, such standards should take account of the differing needs of target customers for the expansion of electrification. Such users, often living in remote areas and having a low power demand, will not have the same technology needs as customers who need much greater electricity loads to be provided for. The application of the same technical standards may impose additional costs on remote users that mean the electricity supply will become unaffordable. Whilst the safety of supply must be maintained in all cases, other standards (such as the availability of electricity 24/7, or the complexity of control systems) may not be required and could thereby help to reduce electricity cost, hence increasing the level of access to remote areas. Direct Energy Access Provision – the focus for technology development, and in particular the financial implications, will have direct impact on the provision of energy access for remote communities. Appropriate technologies are required to meet the energy needs of target customers, at a price that is affordable. Only with knowledge of acceptable pricing will technology developers be able to introduce the systems that can provide increased energy access on a sustainable basis for the communities concerned.

Advantages and Disadvantages

The advantages of appropriate technology development are widespread, with the main result being the application of affordable systems that meet the needs of the target users. This will require an approach that maximises the use of local resources, including labour, thereby increasing local economic value and income generation opportunities for local people. The implementation of appropriate technology will satisfy the current customer demands and generate increasing interest in the supply of more power to fuel growing numbers of applications and associated job-creation. Technology development that is effectively targeted at local needs can therefore motivate local economic development and lead to a sustainable market for a growing range of electricity supply systems.

Disadvantages from technology development for electrification occur if the introduction of new systems is misaligned to the interests and profile of the target customers. In this case, technologies may at one extreme be considered as second-rate solutions for access to electricity and so generate little demand. At the other extreme, systems may be introduced that are too advanced for local needs and unaffordable for the target market. Alternatively they may, in practice, fail to deliver the performance they were planned to achieve, resulting in electricity which is both unreliable and uneconomic. In either case, this will bring frustration to the local communities and possible the rejection of any attempts to provide access to electricity. To avoid this new technologies should always be demonstrated at pilot scale in the local context before being implemented at scale.

Further Information and Guidance

Wicklein, RC (Date Unknown) Design Criteria for Sustainable Development in Appropriate Technology https://www.iteea.org/File.aspx?id=86706&v=eeddb061
EUEI PDF (2015), Low Cost Grid Electrification Technologies A Handbook for Electrification Practitioners. Eschborn. http://www.euei-pdf.org/sites/default/files/field_publication_file/150907_euei_low-cost-manual_en_rz_07_web.pdf

Relevante Case Studies

Tunisia, Low Cost Distribution Technology

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National Energy Planning

Definition:

Bringing together information on costs and performance of electricity technologies with data on energy access needs, preferences and willingness to pay and the availability of energy resources for electricity generation, on a geospatial basis to determine how needs can best be met.

Internactions wiht other NAE Categories

	Technology	The purpose of national energy planning is to compare the viability and costs of building and operating new, centralised electricity generation and extending the existing grid, with those of local generation and a mini-grid distribution system, or of standalone systems. Which of these is more appropriate in each location depends on a complex relationship between levels of demand, costs of electricity transmission and distribution, availability of energy resources and the capital and operating costs of different forms and scales of electricity generation. National Energy Planning allows the optimum mix of technologies to be established, and hence identifies those technologies which should be the focus of any NEA and on which resources should be concentrated.
	Delivery Models	National Energy Planning helps to establish the technologies most suitable for electricity provision but establishing the most appropriate delivery model is then a further exercise.
	Legual Basis	Once National Energy Planning has allowed the intended mix of technologies to be decided, the legal basis and regulatory framework within which these are to be delivered can be determined
	Price/Tariff Regulation
	Finance	National Energy Planning enables policy makers to assess the overall funding needed for electrification and where this will most effectively be directed. It also provides information on users’ willingness to pay and hence allows the mix of private finance, grants and subsidies and other public funding and user finance needed to be estimated, and so provides valuable information to support design of financial interventions. If the resulting Plan, and the data on which it is based is made available, it can support private investment by acting as a source of market information.
	Other Forms of Non-Financial Interventions	National energy planning can act as the basis for policy and target setting and provide a source of market information. The data and analysis needed to support national energy planning is complex and capacity building or technical assistance may therefore be needed to support the planning process. Because demand forecasting is a key element of energy planning, it will be important to incorporate the impact of any demand promotion initiatives into national energy plans.

Advantages and Disadvantages

National energy planning provides assessments of the optimum technology mix needed to meet national electricity access needs and the funding needed to deliver it. It supports development of policies and targets and design of NEAs, and provides a source of market information to bring in private investment. Its main disadvantage is the level of detailed (locationally granular) information and the complexity of the analysis needed.

Further Information and Guidance

Club ER (2010) Planning tools and methodologies for rural electrification http://www.club-er.org/images/slideHomePage/Vert OutilPlanif_GB_BD.pdf
Practical Action (2016) Poor people’s energy outlook 2016: National Energy Access Planning from the Bottom Up, Rugby, UK: Practical Action Publishing https://policy.practicalaction.org/policy-themes/energy/poor-peoples-energy-outlook/poor-people-s-energy-outlook-2016
Rwanda. Eng. Yussuf Uwamahoro (Year Unknown), Rwanda Electricity Access Scale Up Program and Swap Development http://siteresources.worldbank.org/EXTAFRREGTOPENERGY/Resources/717305-1264695610003/6743444-1268073536147/7.3.Rwanda_sector-wide_approach.pdf
SEI (2013): Mainstreaming Sustainable Energy Access into National Development Planning: the Case of Ethiopia www.SEI-WP-2013-09-Ethiopia-energy-access.pdf

Relevante Case Studies

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References

Authors

Authors: Mary Willcox, Dean Cooper

Acknowledgements

The Review was prepared by Mary Willcox and Dean Cooper of Practical Action Consulting working with Hadley Taylor, Silvia Cabriolu-Poddu and Christina Stuart of the EU Energy Initiative Partnership Dialogue Facility (EUEIPDF) and Michael Koeberlein and Caspar Priesemann of the Energising Development Programme (EnDev). It is based on a literature review, stakeholder consultations. The categorization framework in the review tool is based on the EUEI/PDF / Practical Action publication "Building Energy Access Markets - A Value Chain Analysis of Key Energy Market Systems".

A wider range of stakeholders were consulted during its preparation and we would particularly like to thank the following for their valuable contributions and insights: - Jeff Felten, AfDB - Marcus Wiemann and other members, ARE - Guilherme Collares Pereira, EdP - David Otieno Ochieng, EUEI-PDF - Silvia Luisa Escudero Santos Ascarza, EUEI-PDF - Nico Peterschmidt, Inensus - John Tkacik, REEEP - Khorommbi Bongwe, South Africa: Department of Energy - Rashid Ali Abdallah, African Union Commission - Nicola Bugatti, ECREEE - Getahun Moges Kifle, Ethiopian Energy Authority - Mario Merchan Andres, EUEI-PDF - Tatjana Walter-Breidenstein, EUEI-PDF - Rebecca Symington, Mlinda Foundation - Marcel Raats, RVO.NL - Nico Tyabji, Sunfunder -

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Any feedback would be very welcome. If you have any comments or enquires please contact: mary.willcox@practicalaction.org.uk, benjamin.attigah@euei-pdf.org, or caspar.priesemann@giz.de.

Download the Tool as a Power Point: https://energypedia.info/images/a/aa/National_Approaches_to_Electrification_-_Review_of_Options.pptx

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@@ Line 24: / Line 24: @@
 <span>This may include providing:</span><br/>
-*all, or multiple, steps along the supply chain - for instance development, construction and operation of isolated mini-grids and sale of electricity to users;
+*all, or multiple, steps along the supply chain - for instance development, construction and operation of isolated [[Portal:Mini-grid|mini-grids]]&nbsp;and sale of electricity to users;
-*<span>one link along the supply chain, such as bulk purchase of solar home systems which are then purchased by retailers to be distributed and sold to users&nbsp; &nbsp; &nbsp; &nbsp; &nbsp;&nbsp;</span><br/>
+*<span>one link along the supply chain, such as bulk purchase of [[Solar_Home_Systems_(SHS)|solar home systems]] which are then purchased by retailers to be distributed and sold to users&nbsp; &nbsp; &nbsp; &nbsp; &nbsp;&nbsp;</span><br/>
 |}
@@ Line 40: / Line 40: @@
 | style="width: 616px;" |
-<span style="color:#FFFFFF;"></span>Grid extension is often directly provided, but direct provision may also be used for mini-grids and standalone systems.&nbsp;
+<span style="color:#FFFFFF;"></span>[[Portal:Grid|Grid]]&nbsp;extension is often directly provided, but direct provision may also be used for [[Portal:Mini-grid|mini-grids]]&nbsp;and standalone systems.&nbsp;
 |-
@@ Line 72: / Line 72: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-<span style="font-size: 13.6px;">Private finance is unlikely to be used to fund direct provision, though it will probably be used in the private elements of a public-private partnership arrangement including direct provision (and could be leveraged by the direct provision elements).</span><br/>
+<span style="font-size: 13.6px;">Private [[Portal:Financing_and_Funding|finance]]&nbsp;is unlikely to be used to fund direct provision, though it will probably be used in the private elements of a public-private partnership arrangement including direct provision (and could be leveraged by the direct provision elements).</span><br/>
 <span style="font-size: 13.6px;"></span><span style="font-size: 13.6px;">Some form of public funding is very likely to be involved in direct provision, though since this may be within the public sector it may be implicit rather than through explicit grants or subsidies. Direct provision may also draw on cross-subsidies and hence on charges on existing users to subsidise provision to new users.&nbsp;&nbsp;</span>
@@ Line 164: / Line 164: @@
 | style="width: 616px;" |
-<span style="color:#FFFFFF;"></span>Institutional reform will have an impact on all approaches to electrification and the associated technology categories.&nbsp; For grid extension, existing institutions have extensive experience of practices that may no longer be most appropriate for electrification in more areas.&nbsp; New practices may be required to increase levels of efficiency in order to make further grid extension a viable option, new expertise and knowledge may be needed to support adoption of new forms of electricity provision, and cultural change may be needed to achieve increased focus on supplying new users alongside serving existing customers.&nbsp; mini-grids, whether isolated or integrated with the grid, require different support structures to be effective, reliable and commercially viable.&nbsp; Stand-alone systems again offer a different approach to the aims of electrification, with the satisfaction of basic needs being the principle driver, rather than a full power service.&nbsp; This too requires a different institutional perspective, skills and understanding that can only be delivered through the reform of existing support structures.
+<span style="color:#FFFFFF;"></span>Institutional reform will have an impact on all approaches to electrification and the associated technology categories.&nbsp; For [[Portal:Grid|grid]]&nbsp;extension, existing institutions have extensive experience of practices that may no longer be most appropriate for electrification in more areas.&nbsp; New practices may be required to increase levels of efficiency in order to make further grid extension a viable option, new expertise and knowledge may be needed to support adoption of new forms of electricity provision, and cultural change may be needed to achieve increased focus on supplying new users alongside serving existing customers.&nbsp; [[Portal:Mini-grid|Mini-grids]], whether isolated or integrated with the grid, require different support structures to be effective, reliable and commercially viable.&nbsp; Stand-alone systems again offer a different approach to the aims of electrification, with the satisfaction of basic needs being the principle driver, rather than a full power service.&nbsp; This too requires a different institutional perspective, skills and understanding that can only be delivered through the reform of existing support structures.
 |-
@@ Line 204: / Line 204: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-<span style="font-size: 13.6px;">An institutional structure convincing to private sector businesses and investors is key to attracting private finance. It is also through this institutional structure that the interests of users are protected and the portion of funding provided by users set. The institutional structure also governs how any grant/subsidy, cross-subsidy, tax exemptions and guarantee arrangements are set up and implemented.</span>
+<span style="font-size: 13.6px;">An institutional structure convincing to private sector businesses and investors is key to attracting private [[Portal:Financing_and_Funding|finance]]. It is also through this institutional structure that the interests of users are protected and the portion of funding provided by users set. The institutional structure also governs how any grant/subsidy, cross-subsidy, tax exemptions and guarantee arrangements are set up and implemented.</span>
 |-
@@ Line 226: / Line 226: @@
 | style="width: 10px; background-color: rgb(0, 144, 124);" | <br/>
 |
-The main benefit from institutional reform is to improve the operation and therefore the efficiency of current organisations involved with the expansion of electrification and to align them with new models and approaches to electrification.&nbsp; The electricity industry has usually been centred upon a national power utility, whose focus has been exclusively on grid-extension.&nbsp; With the increasing cost of electrification to remote areas, alternatives to the central grid have become more relevant, but the utility is often not structured in a way that can consider and react to these alternatives.&nbsp; The reform of the utility, and related state structures, can increase the ability of the sector to consider and react more positively to new electrification approaches.<br/>
+The main benefit from institutional reform is to improve the operation and therefore the efficiency of current organisations involved with the expansion of electrification and to align them with new models and approaches to electrification.&nbsp; The electricity industry has usually been centred upon a national power utility, whose focus has been exclusively on grid-extension.&nbsp; With the increasing cost of electrification to remote areas, alternatives to the central [[Portal:Grid|grid]]&nbsp;have become more relevant, but the utility is often not structured in a way that can consider and react to these alternatives.&nbsp; The reform of the utility, and related state structures, can increase the ability of the sector to consider and react more positively to new electrification approaches.<br/>
 <span style="font-size: 13.6px;">An immediate disadvantage from such reform is the impact of change.&nbsp; Such change is often disruptive and will initially require additional resources to introduce unfamiliar systems and there may be significant costs associated with new infrastructure and systems.&nbsp; There will also be the need to support capacity building for operators who have been involved with previous systems, and possibly the introduction of new staff to enable sustainable reform processes.&nbsp; Given these costs it is important to be sure that institutional restructuring is necessary and not just a distraction from the real challenges of extending electrification. However it is usually a one-off, upfront cost to put changes into effect; this can then be compensated over time from the improved efficiencies and more cost-effective output.</span>
@@ Line 278: / Line 278: @@
 '''<span></span><span></span><span></span><span></span><span>Reform of laws and regulations governing the generation, distribution and sale of electricity, and of related processes and procedures.</span><span></span><span></span><span></span><span></span>'''
-<span>Because electricity is such an essential service, most countries have some regulation of who may provide and sell electricity, and on what terms, to protect both providers and users.&nbsp; Often these have in the past been based on the assumption that electricity will be provided through a national grid system. As new options for electricity provision emerge, regulatory reform may be needed to enable their implementation, to create incentives for private and public sector power utilities to provide electricity, both through the extension of electricity networks and decentralized power provision, and to protect users.</span><br/>
+<span>Because electricity is such an essential service, most countries have some regulation of who may provide and sell electricity, and on what terms, to protect both providers and users.&nbsp; Often these have in the past been based on the assumption that electricity will be provided through a national [[Portal:Grid|grid]]system. As new options for electricity provision emerge, regulatory reform may be needed to enable their implementation, to create incentives for private and public sector power utilities to provide electricity, both through the extension of electricity networks and decentralized power provision, and to protect users.</span><br/>
 |}
@@ Line 295: / Line 295: @@
 | style="width: 616px;" |
-<span style="color:#FFFFFF;"></span>Regulation of the grid system is generally well established. Reform may be required in order to allow for privatisation and introduction of private finance, creation of grid connected distribution systems or introduction of grid connected mini-grids or Independent Power Plants. Regulatory reform may also be needed to allow and incentivize isolated mini-grids. Standalone systems have in the past generally been unregulated, but as these become a more significant element in electricity provision, reform may be undertaken to bring them under regulatory control and to create incentives for their supply. In particular it may be necessary in order to allow pay-as-you-go&nbsp; arrangements to be established.
+<span style="color:#FFFFFF;"></span>Regulation of the [[Portal:Grid|grid]]&nbsp;system is generally well established. Reform may be required in order to allow for privatisation and introduction of private [[Portal:Financing_and_Funding|finance]], creation of grid connected distribution systems or introduction of grid connected mini-grids or Independent Power Plants. Regulatory reform may also be needed to allow and incentivize isolated [[Portal:Mini-grid|mini-grids]]. Standalone systems have in the past generally been unregulated, but as these become a more significant element in electricity provision, reform may be undertaken to bring them under regulatory control and to create incentives for their supply. In particular it may be necessary in order to allow pay-as-you-go&nbsp; arrangements to be established.
 |-
@@ Line 315: / Line 315: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-The current regulatory framework must be the stating point for any reform. In many cases this will be a monopoly (nation-wide concession) for the national utility. The fundamental requirement to allow private sector participation is to make it legal. This may achieved simply by change in the law allowing all to generate and sell electricity, but authorities generally wish to maintain some level of oversight, over larger mini-grids at least, and so require their operators to be licensed. Alternatively, concession areas may be established, creating local monopolies for which electricity businesses can compete, with the terms of the concession agreement setting out the concessionaires rights and obligations. Standalone system providers are not usually covered by any utility monopoly (since it is the means of accessing electricity rather than electricity itself which they are selling), but as they become a more significant element in electricity provision, and particularly to allow pay-as-you-go arrangements, their regulation may be appropriate. Regulatory reform will be required to introduce such regulatory approaches, or to transition between one approach and another according to experience under local conditions.<br/>
+The current regulatory framework must be the stating point for any reform. In many cases this will be a monopoly (nation-wide concession) for the national utility. The fundamental requirement to allow private sector participation is to make it legal. This may achieved simply by change in the law allowing all to generate and sell electricity, but authorities generally wish to maintain some level of oversight, over larger [[Portal:Mini-grid|mini-grids]] at least, and so require their operators to be licensed. Alternatively, concession areas may be established, creating local monopolies for which electricity businesses can compete, with the terms of the concession agreement setting out the concessionaires rights and obligations. Standalone system providers are not usually covered by any utility monopoly (since it is the means of accessing electricity rather than electricity itself which they are selling), but as they become a more significant element in electricity provision, and particularly to allow pay-as-you-go arrangements, their regulation may be appropriate. Regulatory reform will be required to introduce such regulatory approaches, or to transition between one approach and another according to experience under local conditions.<br/>
 |-
@@ Line 335: / Line 335: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-<span style="font-size: 13.6px;">The most usual motives for regulatory reform are to allow and encourage private, commercial, investment in electricity provision and to protect users and limit the requirement for user finance through price/tariff regulation. Reform to financial and tax regulation may also be needed to allow pay-as-you-go arrangements and to establish any tax exemptions.&nbsp; While grants, subsidies and guarantees are less directly linked to regulatory reform, it is important that they be aligned with the regulatory framework established.</span>
+<span style="font-size: 13.6px;">The most usual motives for regulatory reform are to allow and encourage private, commercial, investment in electricity provision and to protect users and limit the requirement for user [[Portal:Financing_and_Funding|finance]]through price/tariff regulation. Reform to financial and tax regulation may also be needed to allow pay-as-you-go arrangements and to establish any tax exemptions.&nbsp; While grants, subsidies and guarantees are less directly linked to regulatory reform, it is important that they be aligned with the regulatory framework established.</span>
 |-
@@ Line 433: / Line 433: @@
 | style="width: 616px;" |
-<span style="color:#FFFFFF;"></span>In the past targets have been set mainly in terms of generating capacity (MW), output (MWh) and numbers&nbsp;&nbsp;of (grid) connections. This approach is becoming increasingly outdated in a changing electricity landscape as it ignores off-grid forms of access and focusses on supply rather than the applications supported by electricity, with the ongoing development of low-energy appliances. Instead it is suggested that, in line with the SE4All Multi-Tier Tracking Framework, targets should be formulated in terms of numbers gaining electricity access and levels of access achieved.
+<span style="color:#FFFFFF;"></span>In the past targets have been set mainly in terms of generating capacity (MW), output (MWh) and numbers&nbsp;&nbsp;of ([[Portal:Grid|grid]]) connections. This approach is becoming increasingly outdated in a changing electricity landscape as it ignores off-grid forms of access and focusses on supply rather than the applications supported by electricity, with the ongoing development of low-energy appliances. Instead it is suggested that, in line with the SE4All Multi-Tier Tracking Framework, targets should be formulated in terms of numbers gaining electricity access and levels of access achieved.
-Governments increasingly recognise the benefits of adopting a portfolio approach to any renewable energy deployment, including the use of local renewable resources for electrification. Targets that are exclusive to selected technologies can be introduced to support their specific deployment, in particular when they are most suitable in terms of resource availability (e.g. solar electricity generation targets in Dubai). Such targets can also give investors confidence and catalyse development of the market for these selected technologies. In addition, technology-specific targets can support the diversification of the energy mix to increase energy security. As a result, technology-specific targets have significantly increased in recent years. By encouraging the simultaneous development of a range of different electrification options, policy makers are enabling more diversified electricity supply sectors to emerge and to grow.<br/>
+Governments increasingly recognise the benefits of adopting a portfolio approach to any renewable energy deployment, including the use of local renewable resources for electrification. Targets that are exclusive to selected technologies can be introduced to support their specific deployment, in particular when they are most suitable in terms of resource availability (e.g. [[Portal:Solar|solar]]&nbsp;electricity generation targets in Dubai). Such targets can also give investors confidence and catalyse development of the market for these selected technologies. In addition, technology-specific targets can support the diversification of the energy mix to increase energy security. As a result, technology-specific targets have significantly increased in recent years. By encouraging the simultaneous development of a range of different electrification options, policy makers are enabling more diversified electricity supply sectors to emerge and to grow.<br/>
 |-
@@ Line 467: / Line 467: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-<span style="font-size: 13.6px;">One of the main purposes for setting targets is to direct financial resources.&nbsp; At the same time, one of the factors to take into account when setting targets is the availability of finance – from the public purse, from users’ willingness-to-pay and from private investment. In order to have sufficient confidence for investment in any market, financiers will usually require some clear policy commitment.&nbsp; The definition of targets related to such electrification policy has great value since such quantification provides a much clearer definition of the size of the market and thereby the potential returns for investors.&nbsp; This level of clarity, with policy commitments backed up by target levels of electricity access, means greater certainty and therefore increased willingness to invest.&nbsp;</span>
+<span style="font-size: 13.6px;">One of the main purposes for setting targets is to direct financial resources.&nbsp; At the same time, one of the factors to take into account when setting targets is the availability of [[Portal:Financing_and_Funding|finance]]&nbsp;– from the public purse, from users’ willingness-to-pay and from private investment. In order to have sufficient confidence for investment in any market, financiers will usually require some clear policy commitment.&nbsp; The definition of targets related to such electrification policy has great value since such quantification provides a much clearer definition of the size of the market and thereby the potential returns for investors.&nbsp; This level of clarity, with policy commitments backed up by target levels of electricity access, means greater certainty and therefore increased willingness to invest.&nbsp;</span>
 |-
@@ Line 477: / Line 477: @@
 | style="width: 616px;" |
-Any policy that includes a framework for expansion of electrification by specific means (whether grid, mini-grid or stand-alone systems) will provide a foundation for the increased involvement of installers and financiers. Potential end-users will also become aware of such commitments and policy and targets will thereby increase awareness of the opportunity for electrification. Targets and policy for greater access to electricity thus feed directly into provision of market information for businesses, awareness raising and demand promotion. Government policy also forms the starting point for any direct electricity provision and for institutional restructuring and regulatory reform through which the policy will be delivered. Technical assistance may be needed to support policy and target setting.<span style="font-size: 13.6px;"></span>
+Any policy that includes a framework for expansion of electrification by specific means (whether [[Portal:Grid|grid]], [[Portal:Mini-grid|mini-grid]] or stand-alone systems) will provide a foundation for the increased involvement of installers and financiers. Potential end-users will also become aware of such commitments and policy and targets will thereby increase awareness of the opportunity for electrification. Targets and policy for greater access to electricity thus feed directly into provision of market information for businesses, awareness raising and demand promotion. Government policy also forms the starting point for any direct electricity provision and for institutional restructuring and regulatory reform through which the policy will be delivered. Technical assistance may be needed to support policy and target setting.<span style="font-size: 13.6px;"></span>
 |}
@@ Line 546: / Line 546: @@
 '''<span></span><span></span><span></span><span></span><span>Rules or guidelines for suppliers and installers (of products and services related to electrification) that ensure safety, compatibility and that performance meets user expectations.&nbsp; Technical standards apply to the performance of equipment installed, while quality standards also relate to the overall customer service experience.</span><span></span><span></span><span></span><span></span>'''
-<span>A common cause of the failure of rural electrification initiatives is sub-standard quality, whether of system components, project design or the management of installation.&nbsp; The rapid influx of low cost, sub-standard components is a major problem in many markets in developing countries, where lower quality rural electrification projects lead to a wide range of related concerns.&nbsp; These may include reduced system output, less reliable operation, greater need for maintenance and replacement parts, higher life-time system costs (which require higher prices or tariffs), and lower overall customer satisfaction.&nbsp; Without such standards user confidence may be eroded, with users being reluctant to purchase products or services when they are unsure of what performance they will provide.&nbsp;&nbsp;<br/><br/>Wherever possible technical standards should be based on international standards. It may seem attractive to set nationally-specific standards, but these will discourage private providers from entering the market and increase costs of equipment. The International Electrotechnical Commission (IEC) maintains and publishes guidelines for the development of national standards. In the future, these are expected to cover issues including system commissioning, maintenance and disposal, measurement of technical performance, new technology storage systems, and applications with special site conditions.&nbsp; For solar products, Lighting Africa provides the generally accepted standards and approves products. Government regulators in developing countries are increasingly aware of the need for such guidance, and are adopting international standards for a growing range of products for electrification.<br/><br/>Interaction with the likely users of standards during their preparation is important to gauge the real requirements and to judge the potential for practical implementation.&nbsp; If quality/technical standards are set at an unattainable level using the resources currently available, then suppliers are likely to group together to form a “black market” of sub-standard systems, protecting each other from any external investigation.&nbsp; For this reason, the standards authorities must understand the realistic customer expectations under local conditions and gear any standards preparation to ensuring that such levels are met or exceeded.&nbsp; Consultation with the range of stakeholders involved with the supply of the relevant systems – including producers, installers, service providers, and end-users – should be undertaken in the early stages of standards development to ensure that the local context is fully-accounted for.</span><br/>
+<span>A common cause of the failure of rural electrification initiatives is sub-standard quality, whether of system components, project design or the management of installation.&nbsp; The rapid influx of low cost, sub-standard components is a major problem in many markets in developing countries, where lower quality rural electrification projects lead to a wide range of related concerns.&nbsp; These may include reduced system output, less reliable operation, greater need for maintenance and replacement parts, higher life-time system costs (which require higher prices or tariffs), and lower overall customer satisfaction.&nbsp; Without such standards user confidence may be eroded, with users being reluctant to purchase products or services when they are unsure of what performance they will provide.&nbsp;&nbsp;<br/><br/>Wherever possible technical standards should be based on international standards. It may seem attractive to set nationally-specific standards, but these will discourage private providers from entering the market and increase costs of equipment. The International Electrotechnical Commission (IEC) maintains and publishes guidelines for the development of national standards. In the future, these are expected to cover issues including system commissioning, maintenance and disposal, measurement of technical performance, new technology storage systems, and applications with special site conditions.&nbsp; For [[Portal:Solar|solar]]&nbsp;products, Lighting Africa provides the generally accepted standards and approves products. Government regulators in developing countries are increasingly aware of the need for such guidance, and are adopting international standards for a growing range of products for electrification.</span>
+<span>Interaction with the likely users of standards during their preparation is important to gauge the real requirements and to judge the potential for practical implementation.&nbsp; If quality/technical standards are set at an unattainable level using the resources currently available, then suppliers are likely to group together to form a “black market” of sub-standard systems, protecting each other from any external investigation.&nbsp; For this reason, the standards authorities must understand the realistic customer expectations under local conditions and gear any standards preparation to ensuring that such levels are met or exceeded.&nbsp; Consultation with the range of stakeholders involved with the supply of the relevant systems – including producers, installers, service providers, and end-users – should be undertaken in the early stages of standards development to ensure that the local context is fully-accounted for.</span><br/>
 The greatest challenge for the relevant authorities is not the preparation or even the adoption of standards by the related industry, but rather their enforcement. In broad terms, there are three main approaches to the enforcement of standards for electrification expansion, namely 1) permitting and certifying, 2) targeted inspections, and 3) sanctions and penalties.&nbsp; A combination of these approaches, based upon the local systems, culture and experience, will usually be required to ensure compliance.<br/>
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-<span style="color:#FFFFFF;"></span>For all forms of electricity, the first requirement is safety. For grid systems, and for any grid-connected distribution systems or mini-grids, this is followed closely by technical compatibility – a grid system can only operate if all parts of it are compatible with each other. Most grid systems are designed to give a high level of performance, but sadly many in developing countries are unreliable and provide poor quality electricity, with variations in voltage and frequency leading to damage to users’ equipment. Key questions for isolated mini-grids are whether they aim to provide a grid-equivalent electricity supply, or a lower level of service (eg to power lighting and a small number of low-powered appliances per user), and whether they should be technically compatible with the grid system (facilitating subsequent grid-connection). For standalone systems, standards relate to the level of&nbsp; electricity provided and also, particularly for solar-based systems, to duration (hours/day) and life (especially battery life).&nbsp;&nbsp;&nbsp;&nbsp;<br/><br/>In relation to enforcement, a clear distinction can be made between different types of rural electrification (grid extension, mini-grids, and stand-alone systems). The process for enforcing standards for grid and mini-grid applications should be more straightforward since it can be done at the permitting stage, via tendering with clear technical specifications built into the tender documents; regular monitoring, and site inspections. The standard of service experienced by the users will, however, depend as much on subsequent operation and maintenance. For stand-alone systems, some form of partnership is required to help implement the required standards; for example, if donor or government funds are involved, then quality standards can be made a condition for the disbursement of funds (in this case, the standards for the systems can be developed<br/>by national regulators and stipulated clearly upfront).
+<span style="color:#FFFFFF;"></span>For all forms of electricity, the first requirement is safety. For [[Portal:Grid|grid]]&nbsp;systems, and for any grid-connected distribution systems or [[Portal:Mini-grid|mini-grids]], this is followed closely by technical compatibility – a grid system can only operate if all parts of it are compatible with each other. Most grid systems are designed to give a high level of performance, but sadly many in developing countries are unreliable and provide poor quality electricity, with variations in voltage and frequency leading to damage to users’ equipment. Key questions for isolated mini-grids are whether they aim to provide a grid-equivalent electricity supply, or a lower level of service (eg to power lighting and a small number of low-powered appliances per user), and whether they should be technically compatible with the grid system (facilitating subsequent grid-connection). For standalone systems, standards relate to the level of&nbsp; electricity provided and also, particularly for solar-based systems, to duration (hours/day) and life (especially battery life).&nbsp;&nbsp;&nbsp;&nbsp;<br/><br/>In relation to enforcement, a clear distinction can be made between different types of rural electrification (grid extension, mini-grids, and stand-alone systems). The process for enforcing standards for grid and mini-grid applications should be more straightforward since it can be done at the permitting stage, via tendering with clear technical specifications built into the tender documents; regular monitoring, and site inspections. The standard of service experienced by the users will, however, depend as much on subsequent operation and maintenance. For stand-alone systems, some form of partnership is required to help implement the required standards; for example, if donor or government funds are involved, then quality standards can be made a condition for the disbursement of funds (in this case, the standards for the systems can be developed<br/>by national regulators and stipulated clearly upfront).
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-<span style="font-size: 13.6px;">Standards have direct impact on costs, for instance allowing low-cost distribution systems or service drops can reduce the cost of grid extension and mini-grids, and this should be borne in mind when they are being set. At the same time standards can make users more willing to pay charges as they have greater confidence in receiving what they are paying for, and this in turn will strengthen private investors willingness to provide finance. If donor or government funds are involved (eg as grants, subsidies or tax exemptions), then quality standards can be made a condition for the disbursement of funds.</span>
+<span style="font-size: 13.6px;">Standards have direct impact on costs, for instance allowing low-cost distribution systems or service drops can reduce the cost of [[Portal:Grid|grid]]&nbsp;extension and [[Portal:Mini-grid|mini-grids]], and this should be borne in mind when they are being set. At the same time standards can make users more willing to pay charges as they have greater confidence in receiving what they are paying for, and this in turn will strengthen private investors willingness to provide [[Portal:Financing_and_Funding|finance]]. If donor or government funds are involved (eg as grants, subsidies or tax exemptions), then quality standards can be made a condition for the disbursement of funds.</span>
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 '''<span></span><span></span><span></span><span></span><span>Advice and practical support on any aspect of electrification provided by external experts.</span><span></span><span></span><span></span><span></span>'''
-<span>Technical assistance spans all aspects of electricity access provision, and may be used to support policy makers and regulators; those designing and implementing intervention programmes; and electricity access providers. The forms of technical assistance in greatest demand are usually advice on regulation and procurement of electricity provision, technical and engineering support; business and financial advice; legal and compliance advice; and market scoping, development and community engagement. Developers have indicated that such assistance can have great value by helping them to take projects through their development life cycle to reach financial closure.<br/>&nbsp;<br/>'''''Advisory services''''' – these may come in the form of written instructions/guidance or direct intervention during practical application on the ground.&nbsp; Based upon the extensive experience of electrification elsewhere, experts in this field are in a good position to provide advice to project developers and implementers, government and financiers. The aim is to provide these local stakeholders with the results from experience – to ensure that they do not take routes that have been tried and failed elsewhere.&nbsp; Such support may be at a strategic level to determine the most relevant areas of priority in the target country, and/or at the practical level to ensure that experience from elsewhere is taken into full account, and positive results can be achieved more directly.<br/><br/>'''''Target recipients''''' – the target group for technical assistance often consists of project developers who are aiming to establish new electricity businesses.&nbsp; However, support is also required by other stakeholders who may otherwise be unfamiliar with the needs of electrification in remote areas.&nbsp; Such bodies include financiers (public and private), government, regulators and product/service providers who need to adapt to the local conditions, priorities and drivers in rural communities.<br/><br/>'''''Community engagement''''' – despite all of the knowledge and experience that can be provided through technical assistance, much of this will add little value if local conditions and context are not taken into account.&nbsp; Although much may be written about the situation in towns and villages in developing countries, one message is the most important, namely: everywhere is different.&nbsp; So the solution or approach that was successfully adopted elsewhere for the provision of electricity may not – or rather, probably will not – lead to the same results in a different community.&nbsp; For this reason, the practical technical assistance needs should be discussed with community members and leaders prior to specifying the format of such assistance.&nbsp; Only then can interventions with the highest value be determined.</span><br/>
+<span>Technical assistance spans all aspects of electricity access provision, and may be used to support policy makers and regulators; those designing and implementing intervention programmes; and electricity access providers. The forms of technical assistance in greatest demand are usually advice on regulation and procurement of electricity provision, technical and engineering support; business and [[Portal:Financing_and_Funding|financial]]&nbsp;advice; legal and compliance advice; and market scoping, development and community engagement. Developers have indicated that such assistance can have great value by helping them to take projects through their development life cycle to reach financial closure.<br/>&nbsp;<br/>'''''Advisory services''''' – these may come in the form of written instructions/guidance or direct intervention during practical application on the ground.&nbsp; Based upon the extensive experience of electrification elsewhere, experts in this field are in a good position to provide advice to project developers and implementers, government and financiers. The aim is to provide these local stakeholders with the results from experience – to ensure that they do not take routes that have been tried and failed elsewhere.&nbsp; Such support may be at a strategic level to determine the most relevant areas of priority in the target country, and/or at the practical level to ensure that experience from elsewhere is taken into full account, and positive results can be achieved more directly.<br/><br/>'''''Target recipients''''' – the target group for technical assistance often consists of project developers who are aiming to establish new electricity businesses.&nbsp; However, support is also required by other stakeholders who may otherwise be unfamiliar with the needs of electrification in remote areas.&nbsp; Such bodies include financiers (public and private), government, regulators and product/service providers who need to adapt to the local conditions, priorities and drivers in rural communities.<br/><br/>'''''Community engagement''''' – despite all of the knowledge and experience that can be provided through technical assistance, much of this will add little value if local conditions and context are not taken into account.&nbsp; Although much may be written about the situation in towns and villages in developing countries, one message is the most important, namely: everywhere is different.&nbsp; So the solution or approach that was successfully adopted elsewhere for the provision of electricity may not – or rather, probably will not – lead to the same results in a different community.&nbsp; For this reason, the practical technical assistance needs should be discussed with community members and leaders prior to specifying the format of such assistance.&nbsp; Only then can interventions with the highest value be determined.</span><br/>
 |}
@@ Line 703: / Line 705: @@
 Institutional restructuring – implies that current institutions and their responsibilities are not well aligned with the latest challenges of electricity provision, and therefore that technical assistance may be particularly beneficial.<br/>
-'''''[[National Approaches to Electrification – Non-Financial Interventions#Regulatory Reform|Regulatory Reform]]''''' – electrification has been predominantly based upon the central grid structures that are driven by the national electricity utility.&nbsp; Regulations have consequently been prepared to cater for this framework.&nbsp; Elsewhere in the world, this model has been replaced with a greater focus on decentralised solutions that can be more cost-effective, particularly when connecting remote areas.&nbsp; Using the experience gained from elsewhere, technical assistance can help to reform current regulations, enabling them to address a combination of remote grid-extension, mini-grids and stand-alone systems, thereby allowing more rapid progress to the use of modern technology options.<br/>
+'''''[[National Approaches to Electrification – Non-Financial Interventions#Regulatory Reform|Regulatory Reform]]''''' – electrification has been predominantly based upon the central [[Portal:Grid|grid]]&nbsp;structures that are driven by the national electricity utility.&nbsp; Regulations have consequently been prepared to cater for this framework.&nbsp; Elsewhere in the world, this model has been replaced with a greater focus on decentralised solutions that can be more cost-effective, particularly when connecting remote areas.&nbsp; Using the experience gained from elsewhere, technical assistance can help to reform current regulations, enabling them to address a combination of remote grid-extension, [[Portal:Mini-grid|mini-grids]] and stand-alone systems, thereby allowing more rapid progress to the use of modern technology options.<br/>
 '''''[[National Approaches to Electrification – Non-Financial Interventions#Policy .26 Target Setting|Policy/Target-Setting]]''''' – the preparation of policy and defining relevant targets are important developments that will guide the nature of electrification expansion, determine the rate of appropriate new connections, and ultimately determine the success of related efforts.&nbsp; Such processes have been implemented for many years in countries and so there are many sources of international skills and experience that will assist countries to prepare effective policy and define relevant targets.&nbsp; The provision of technical assistance can achieve the transfer of this knowledge and so help achieve positive outcomes sooner.
@@ Line 774: / Line 776: @@
 '''<span></span><span></span><span></span><span></span><span>Capacity building refers to increasing the knowledge, skills and understanding of stakeholders involved in electrification, often through training.&nbsp; Awareness raising, as part of capacity building, refers to educating stakeholders about opportunities, benefits and issues related to increased electrification.</span><span></span><span></span><span></span><span></span>'''
-<span>Extending electricity provision in any developing country will involve a wide range of actors, including power generators and distributors, standalone system providers, policy-makers, regulators, installers, financiers and users.&nbsp; All of these groups require sufficient capacity in terms of skills and understanding to enable the process of electrification to be fulfilled successfully.&nbsp; Building this capacity is therefore a key requirement.&nbsp; A donor-funded project can bring the immediate benefits of electricity to a remote community, but without the training to equip local people with the capability to operate, service, and maintain the systems installed, the initially positive results from such an intervention will be short-lived. This is equally true for the processes and systems around electricity provision – without sufficient knowledge of the options policy makers are unlikely to be able to design effective regulatory structures and intervention programmes; without technical and business skills electricity providers will not deliver quality, cost-effective, sustainable electricity access; without awareness of electricity options and their uses and limitations, users will not be able to effectively secure its benefits, and will not create the political will to drive electrification. Training and awareness raising are therefore key to lasting positive impact.<br/><br/>Increased awareness – a starting point for building capacity is to increase the knowledge of those involved regarding the issues relevant to their role in the electrification process.&nbsp; This includes providing examples from international experience, including the potential benefits to users (e.g. improved quality of life, income-generating opportunities), the policy frameworks and regulations in place to govern electricity provision (for grid, mini-grids and stand-alone systems), the business case for investors (market scale, risks and potential returns) and cost-effective supply chain models for installers (from the production and delivery of infrastructure to the receipt of electricity<br/>by the user).&nbsp; The limited experience of successful electrification expansion in many developing countries means that input from international sources, appropriately modified to account for the national context, can have great value in raising the awareness of stakeholders, learning the lessons from elsewhere, avoiding mistakes and thereby facilitating a cost-effective electrification process.</span><br/>
+<span>Extending electricity provision in any developing country will involve a wide range of actors, including power generators and distributors, standalone system providers, policy-makers, regulators, installers, financiers and users.&nbsp; All of these groups require sufficient capacity in terms of skills and understanding to enable the process of electrification to be fulfilled successfully.&nbsp; Building this capacity is therefore a key requirement.&nbsp; A donor-funded project can bring the immediate benefits of electricity to a remote community, but without the training to equip local people with the capability to operate, service, and maintain the systems installed, the initially positive results from such an intervention will be short-lived. This is equally true for the processes and systems around electricity provision – without sufficient knowledge of the options policy makers are unlikely to be able to design effective regulatory structures and intervention programmes; without technical and business skills electricity providers will not deliver quality, cost-effective, sustainable electricity access; without awareness of electricity options and their uses and limitations, users will not be able to effectively secure its benefits, and will not create the political will to drive electrification. Training and awareness raising are therefore key to lasting positive impact.<br/><br/>Increased awareness – a starting point for building capacity is to increase the knowledge of those involved regarding the issues relevant to their role in the electrification process.&nbsp; This includes providing examples from international experience, including the potential benefits to users (e.g. improved quality of life, income-generating opportunities), the policy frameworks and regulations in place to govern electricity provision (for [[Portal:Grid|grid]], [[Portal:Mini-grid|mini-grids]] and stand-alone systems), the business case for investors (market scale, risks and potential returns) and cost-effective supply chain models for installers (from the production and delivery of infrastructure to the receipt of electricity<br/>by the user).&nbsp; The limited experience of successful electrification expansion in many developing countries means that input from international sources, appropriately modified to account for the national context, can have great value in raising the awareness of stakeholders, learning the lessons from elsewhere, avoiding mistakes and thereby facilitating a cost-effective electrification process.</span><br/>
 Training – the most common route for transferring skills to build capacity of relevant stakeholders is through engagement with experts who can explain and demonstrate the details of the actions required.&nbsp; Such training is often undertaken with groups of individuals who have similar roles, perspectives and needs.&nbsp; This allows one trainer to reach several recipients, but also enables interaction between participants, which can raise new perspectives and issues to resolve.&nbsp; To be effective, such training must have a clear goal with measurable outputs so that the participants can assess their comprehension of the issues and their ability to implement the new skills.&nbsp; With respect to electrification expansion, the requirements of the target groups must be clearly determined in advance and the relevant training components and structure designed accordingly.<br/>
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-<span style="color:#FFFFFF;"></span>one of the most frequently identified constraints on mini-grid and standalone system businesses is the lack of staff with the technical skills to install, operate and maintain the equipment. As these businesses start up and enter new markets it is impractical for them to train the staff they need themselves, and a government-led programme of training in coordination with industry associations, academic and technical institutions can give a significant boost to off-grid elements of electrification.
+<span style="color:#FFFFFF;"></span>one of the most frequently identified constraints on [[Portal:Mini-grid|mini-grid]] and standalone system businesses is the lack of staff with the technical skills to install, operate and maintain the equipment. As these businesses start up and enter new markets it is impractical for them to train the staff they need themselves, and a government-led programme of training in coordination with industry associations, academic and technical institutions can give a significant boost to off-grid elements of electrification.
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-In order to attract private finance electricity will need staff with business skills to develop business models and plans setting out forecast costs, revenues, risks and how they will be managed. Equally for electricity businesses to be cost-effective and sustainable calls for financial management skills. As new businesses enter the sector they will need to access these skills and a government-led programme<br/>of business skills training focussed on electricity can be a major benefit to electrification efforts.&nbsp; The appropriate structuring of prices or tariffs is a particular issue that requires a clear understanding of the issues, experiences and results elsewhere, and the preferences of the local stakeholders.&nbsp; Building capacity to understand how prices or tariffs can be structured to cross-subsidise electrification while balancing the needs and interests of different users is critical to establishing a financially viable electrification programme. Local financiers also often lack awareness of the electricity sector and the opportunity it offers them, making them reluctant to lend to both electricity businesses and&nbsp;<span style="font-size: 13.6px;">users, and to place a high price on lending into an area where they feel uncertain of the risks. Capacity building and&nbsp;</span><span style="font-size: 13.6px;">awareness raising in the financial sector can do much to lower this barrier.</span>
+In order to attract private [[Portal:Financing_and_Funding|finance]]&nbsp;electricity will need staff with business skills to develop business models and plans setting out forecast costs, revenues, risks and how they will be managed. Equally for electricity businesses to be cost-effective and sustainable calls for financial management skills. As new businesses enter the sector they will need to access these skills and a government-led programme<br/>of business skills training focussed on electricity can be a major benefit to electrification efforts.&nbsp; The appropriate structuring of prices or tariffs is a particular issue that requires a clear understanding of the issues, experiences and results elsewhere, and the preferences of the local stakeholders.&nbsp; Building capacity to understand how prices or tariffs can be structured to cross-subsidise electrification while balancing the needs and interests of different users is critical to establishing a financially viable electrification programme. Local financiers also often lack awareness of the electricity sector and the opportunity it offers them, making them reluctant to lend to both electricity businesses and&nbsp;<span style="font-size: 13.6px;">users, and to place a high price on lending into an area where they feel uncertain of the risks. Capacity building and&nbsp;</span><span style="font-size: 13.6px;">awareness raising in the financial sector can do much to lower this barrier.</span>
 |-
@@ Line 839: / Line 841: @@
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-'''''[[National Approaches to Electrification – Non-Financial Interventions#Institutional Restructuring|Institutional Restructuring]]''''' – to accommodate the increasing move from centralised grid extension to decentralised electricity connections, institutions dealing with electricity supply, transmission and distribution have been reformed over several years.&nbsp; This experience, including the lessons learned and subsequent measures taken, will be relevant to developing countries that are currently undergoing a similar transition.&nbsp; This aspect of capacity building will be important to build the capabilities amongst officials that will take responsibility for such restructuring measures.
+'''''[[National Approaches to Electrification – Non-Financial Interventions#Institutional Restructuring|Institutional Restructuring]]''''' – to accommodate the increasing move from centralised [[Portal:Grid|grid]]&nbsp;extension to decentralised electricity connections, institutions dealing with electricity supply, transmission and distribution have been reformed over several years.&nbsp; This experience, including the lessons learned and subsequent measures taken, will be relevant to developing countries that are currently undergoing a similar transition.&nbsp; This aspect of capacity building will be important to build the capabilities amongst officials that will take responsibility for such restructuring measures.
 '''''[[National Approaches to Electrification – Non-Financial Interventions#Regulatory Reform|Regulatory Reform]]''''' – in the same way that institutions must adapt to the new environment for electrification, existing regulations must also be reformed.&nbsp; Regulators&nbsp; are likely to have experience of the conditions necessary for centralised grid expansion, but will be much less familiar with the regulations that are most appropriate for e.g. mini-grids and stand-alone systems in remote areas.&nbsp; Building the capacity of regulators, and the associated government officials in this respect will be essential for effective development of this market.
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 '''<span></span><span></span><span></span><span></span><span>Making available information useful to a business that is considering entering an electricity market.</span><span></span><span></span><span></span><span></span>'''
-<span>This may include information on government policies and targets, the regulatory framework, institutional stakeholders, energy resources available for electricity production, demand and willingness to pay for electricity access, current levels of access (including extent of the grid system and plans for its extension) and electricity providers already active in the market.&nbsp; With this information an electricity provider can judge the prospects of building a sustainable, profitable business. Making the information openly available will lower the transaction costs of market entry for new electricity businesses, since it removes the need for each to go through the process of gathering the information for themselves, and thus make the market more attractive.</span><br/>
+<span>This may include information on government policies and targets, the regulatory framework, institutional stakeholders, energy resources available for electricity production, demand and willingness to pay for electricity access, current levels of access (including extent of the [[Portal:Grid|grid]]&nbsp;system and plans for its extension) and electricity providers already active in the market.&nbsp; With this information an electricity provider can judge the prospects of building a sustainable, profitable business. Making the information openly available will lower the transaction costs of market entry for new electricity businesses, since it removes the need for each to go through the process of gathering the information for themselves, and thus make the market more attractive.</span><br/>
-<span>'''''Breadth of Information''''' – the energy source and the physical potential for electricity generation are rarely the deciding factors in investment decisions aimed at new connections.&nbsp; Instead, the most relevant considerations for practitioners are national policies, regulations and market size. Most practitioners consider a combination of physical and non-physical factors, but give more weight to policy and regulatory factors and to the ability to develop local marketing networks.&nbsp; This is due to the higher perceived project risk from factors such as access to target communities (is grid extension or decentralised generation most cost-effective?) than from, for example, the levelised cost of solar radiation.&nbsp; Therefore, an opportunity assessment focused only on the availability of energy resources will not meet the needs of potential operators.&nbsp; This must include consideration of broader market issues to be of any value.</span><br/>
+<span>'''''Breadth of Information''''' – the energy source and the physical potential for electricity generation are rarely the deciding factors in investment decisions aimed at new connections.&nbsp; Instead, the most relevant considerations for practitioners are national policies, regulations and market size. Most practitioners consider a combination of physical and non-physical factors, but give more weight to policy and regulatory factors and to the ability to develop local marketing networks.&nbsp; This is due to the higher perceived project risk from factors such as access to target communities (is grid extension or decentralised generation most cost-effective?) than from, for example, the levelised cost of [[Portal:Solar|solar]]&nbsp;radiation.&nbsp; Therefore, an opportunity assessment focused only on the availability of energy resources will not meet the needs of potential operators.&nbsp; This must include consideration of broader market issues to be of any value.</span><br/>
 <span>'''''Format of market information'''''– the level of detail (granularity) of the information provided is important, since if this is inadequate it will be of little use. It is also vital that information is made available in one place (eg a single on-line portal), and that it is consistent and can be linked together - so that, for instance, the proximity of generating resources and demand centres can be determined. It has also been found that raw data is much more useful to potential project implementers than is processed data. Developers often see only marginal benefits in outputs from processed data (such as maps of target locations) since they have concern over the assumptions and specifications used in creating such outputs.&nbsp; These criteria are unlikely to be fully-aligned with a developer’s findings from a specific location.&nbsp; Consequently, practitioners generally prefer using their own assumptions, value choices, and scenarios within any opportunity assessment – only then can they fully trust the outputs of any model that makes use of the data.&nbsp;Market information should therefore focus on the provision of basic details that reflect the conditions, rather than including any estimates based on this data.</span><br/>
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-<span style="color:#FFFFFF;"></span>The information needed will depend on the form of technology. In making information available, the focus should therefore be on those technologies expected to play a significant part in national electrification. Information on the current and planned extent of the grid system (and the intended timing of extension) will be particularly important for other electricity providers.&nbsp;&nbsp;
+<span style="color:#FFFFFF;"></span>The information needed will depend on the form of technology. In making information available, the focus should therefore be on those technologies expected to play a significant part in national electrification. Information on the current and planned extent of the [[Portal:Grid|grid]]&nbsp;system (and the intended timing of extension) will be particularly important for other electricity providers.&nbsp;&nbsp;
 |-
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-<span style="font-size: 13.6px;">For the private sector to consider any form of investment in electrification, they will need to have access to market information that provides a sufficiently confident assessment of the potential for returns on investment in this market.&nbsp; This includes the potential demand for electricity from newly-connected users, any constraints to operations (such as policy obligations for suppliers, regulations, limited access to energy resources) and any financial charges – or other related costs - that will be applied to electricity supply services.&nbsp; The development of a business plan, which will provide the foundation for any private sector involvement in the electrification market of a country, will only be possible if the private operator has sufficient access to market information – the capacity to generate such information is therefore critical to the cost-effective expansion of electrification.</span>
+<span style="font-size: 13.6px;">For the private sector to consider any form of investment in electrification, they will need to have access to market information that provides a sufficiently confident assessment of the potential for returns on investment in this market.&nbsp; This includes the potential demand for electricity from newly-connected users, any constraints to operations (such as policy obligations for suppliers, regulations, limited access to energy resources) and any [[Portal:Financing_and_Funding|financial]]&nbsp;charges – or other related costs - that will be applied to electricity supply services.&nbsp; The development of a business plan, which will provide the foundation for any private sector involvement in the electrification market of a country, will only be possible if the private operator has sufficient access to market information – the capacity to generate such information is therefore critical to the cost-effective expansion of electrification.</span>
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@@ Line 1,032: / Line 1,034: @@
 '''<span></span><span></span><span></span><span></span><span>Promotional and support measures implemented to encourage the demand-side opportunities that are enabled by electricity access, and so stimulate increased power consumption.&nbsp;</span><span></span><span></span><span></span><span></span>'''
-<span>It includes, for example, enabling access to finance to allow users to complete the final steps for connection, such as internal wiring, and for the effective use of their new power supply, as well as support for income-generating uses of the electricity that has become available. Even after the extension of electrification to more remote areas, the opportunity for electricity use will be unfamiliar to potential users, whether households or businesses.&nbsp; Support is often required to encourage this target user group to make use of the new power supply that is now available.&nbsp; This will include raising awareness and educating potential users about the benefits of electricity access, and about the most effective means to make use of this new source of energy.&nbsp; However, additional measures are required to ensure that the potential demand for increased electricity use is fully realised. Building demand is important both to increase the social and livelihood benefits of electricity access, and to assist electricity businesses to become economically sustainable. Demand promotion may be undertaken by the electricity provider, or as a support activity by government or other electrification programme implementers<br/><br/>'''''Demand-side costs of electrification''''' – after grid extension, or the installation of a decentralised mini-grid, or the purchase of a stand-alone system, the end-user is still faced with the need to make a final connection from the source of power to the point of use.&nbsp; This will mean that the user must make arrangements for wiring and sometimes the installation of controls or switches within the dwelling or business concerned.&nbsp; The user will also need to know about the range of relevant electrical appliances that are available, and particularly the power demand associated with each of them.&nbsp; These demand-side issues all have cost implications that may present a barrier to electricity access. Government funding and/or private sector financing mechanisms should therefore be considered to facilitate this final connection process and purchase of appliances and hence support the required increase in electricity demand.<br/><br/>'''''Beyond increased awareness''''' – there is certainly a need to inform the user of a range of issues that relate to new electricity access.&nbsp; This includes education related to the safe and cost-effective use of electricity for personal lifestyle improvements, the costs involved for supply and maintenance, and the opportunities presented by access to electricity.&nbsp; But the demand promotion goes beyond simply raising user awareness.&nbsp; Building upon an increased understanding of electricity supply as a foundation, the user must be given support to maximise the advantages associated with electricity access.&nbsp; This involves providing the resources necessary to grow the market for activities based upon electricity use, with lasting benefit for the communities involved.</span><br/>
+<span>It includes, for example, enabling access to [[Portal:Financing_and_Funding|finance]]&nbsp;to allow users to complete the final steps for connection, such as internal wiring, and for the effective use of their new power supply, as well as support for income-generating uses of the electricity that has become available. Even after the extension of electrification to more remote areas, the opportunity for electricity use will be unfamiliar to potential users, whether households or businesses.&nbsp; Support is often required to encourage this target user group to make use of the new power supply that is now available.&nbsp; This will include raising awareness and educating potential users about the benefits of electricity access, and about the most effective means to make use of this new source of energy.&nbsp; However, additional measures are required to ensure that the potential demand for increased electricity use is fully realised. Building demand is important both to increase the social and livelihood benefits of electricity access, and to assist electricity businesses to become economically sustainable. Demand promotion may be undertaken by the electricity provider, or as a support activity by government or other electrification programme implementers<br/><br/>'''''Demand-side costs of electrification''''' – after [[Portal:Grid|grid]]&nbsp;extension, or the installation of a decentralised [[Portal:Mini-grid|mini-grid]], or the purchase of a stand-alone system, the end-user is still faced with the need to make a final connection from the source of power to the point of use.&nbsp; This will mean that the user must make arrangements for wiring and sometimes the installation of controls or switches within the dwelling or business concerned.&nbsp; The user will also need to know about the range of relevant electrical appliances that are available, and particularly the power demand associated with each of them.&nbsp; These demand-side issues all have cost implications that may present a barrier to electricity access. Government funding and/or private sector financing mechanisms should therefore be considered to facilitate this final connection process and purchase of appliances and hence support the required increase in electricity demand.<br/><br/>'''''Beyond increased awareness''''' – there is certainly a need to inform the user of a range of issues that relate to new electricity access.&nbsp; This includes education related to the safe and cost-effective use of electricity for personal lifestyle improvements, the costs involved for supply and maintenance, and the opportunities presented by access to electricity.&nbsp; But the demand promotion goes beyond simply raising user awareness.&nbsp; Building upon an increased understanding of electricity supply as a foundation, the user must be given support to maximise the advantages associated with electricity access.&nbsp; This involves providing the resources necessary to grow the market for activities based upon electricity use, with lasting benefit for the communities involved.</span><br/>
 '''''Opportunities for productive use''''' – in addition to the personal benefits associated with e.g. improved lighting, television/radio and charging of mobile phones, the new access to energy could have potential for productive use that can generate additional income.&nbsp; Users need to be informed about such opportunities, starting with simple applications such as the refrigeration of drinks for sale, the use of a sewing machine, or a hair-cutter, which can all form the basis of early stage economic activity.&nbsp; Wide uptake of such opportunities within a community can lead to significant economic development, with a resulting increase in purchasing power, and growth of electricity demand.&nbsp; Support for the development of such productive activities, in the form of access to finance and/or technical assistance may be required to maximise the potential for productive use.<br/>
@@ Line 1,053: / Line 1,055: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-<span style="font-size: 13.6px;">Demand growth is important to achieve economic sustainability for electricity businesses, and demand promotion programmes will thus support private finance of electrification. For users, availability of finance will often be a major constraint.&nbsp; There may be costs to the user that are associated with the final technical arrangements for distribution of power within the recipient household, office or operation.&nbsp; Appliances to enable electricity consumption will also be needed.&nbsp; This presents a market opportunity for the private sector, which can offer financial loans with appropriate payback arrangements that increase the affordability of the additional purchases required by new users. Grants or subsidies may be justified to support demand-side measures that will provide electricity access, and the associated basic services, for the target users.&nbsp; Different forms of grants and/or subsidies should be considered to help overcome the financial barriers on the demand-side, in order to facilitate the supply of electricity at a level that will reflect user needs, and help to bring the related social and economic benefits to the target communities.&nbsp;</span>
+<span style="font-size: 13.6px;">Demand growth is important to achieve economic sustainability for electricity businesses, and demand promotion programmes will thus support private [[Portal:Financing_and_Funding|finance]]&nbsp;of electrification. For users, availability of finance will often be a major constraint.&nbsp; There may be costs to the user that are associated with the final technical arrangements for distribution of power within the recipient household, office or operation.&nbsp; Appliances to enable electricity consumption will also be needed.&nbsp; This presents a market opportunity for the private sector, which can offer financial loans with appropriate payback arrangements that increase the affordability of the additional purchases required by new users. Grants or subsidies may be justified to support demand-side measures that will provide electricity access, and the associated basic services, for the target users.&nbsp; Different forms of grants and/or subsidies should be considered to help overcome the financial barriers on the demand-side, in order to facilitate the supply of electricity at a level that will reflect user needs, and help to bring the related social and economic benefits to the target communities.&nbsp;</span>
 |-
@@ Line 1,065: / Line 1,067: @@
 '''''[[National Approaches to Electrification – Non-Financial Interventions#Technical Assistance|Technical Assistance]]''''' – for businesses that now have access to electricity, technical assistance will be extremely useful to help the growth of income-generating activities.&nbsp; The conversion of business operations from dependence upon traditional fuel sources to the use of newly available power, and the addition of processes that were previously unviable without access to electricity can now be implemented.&nbsp; External advice regarding these new measures will help businesses to maximise the efficiency and opportunity for the productive use of electricity.&nbsp; This form of demand promotion will bring direct economic development.
-'''''[[National Approaches to Electrification – Non-Financial Interventions#Capacity Building.2FAwarness Raising|Capacity Building/Awareness Raising]]''''' - there is certainly an overlap between demand promotion and awareness raising, though awareness raising is not limited to demand promotion since it can also be applied to&nbsp; policy makers, or raising potential energy providers’ awareness of the market, or making finance providers aware of associated lending opportunities.&nbsp; At the same time demand promotion extends beyond building increased awareness amongst users to include taking additional action and providing support to facilitate the growth of electricity use.<br/>
+'''''[[National Approaches to Electrification – Non-Financial Interventions#Capacity Building.2FAwarness Raising|Capacity Building/Awareness Raising]]''''' - there is certainly an overlap between demand promotion and awareness raising, though awareness raising is not limited to demand promotion since it can also be applied to&nbsp; policy makers, or raising potential energy providers’ awareness of the market, or making [[Portal:Financing_and_Funding|finance]]&nbsp;providers aware of associated lending opportunities.&nbsp; At the same time demand promotion extends beyond building increased awareness amongst users to include taking additional action and providing support to facilitate the growth of electricity use.<br/>
 |}
@@ Line 1,124: / Line 1,126: @@
 '''<span></span><span></span><span></span><span></span><span>The process of engineering, demonstrating, and bringing into use a new means of electricity provision, or adoption of a technology in use elsewhere and its adaptation to local conditions.</span><span></span><span></span><span></span><span></span>'''
-<span>'''''Technology match''''' – for successful investment into expanded electrification, the key risks must be addressed.&nbsp; Financial and political risks will be key concerns, and the technology risk must also be considered.&nbsp; This does not necessarily relate to the correct operation of the technology, since most electricity generation, transmission and distribution systems to be used will already be well tried and tested elsewhere.&nbsp; However, there is a risk associated with matching the availability of local energy resources to the technology introduced.&nbsp; For distributed electrification systems, whether mini-grids or stand-alone, renewable energy resources will often be the principle fuel source though hybrid systems may also require diesel fuel.&nbsp; Careful assessment of resource availability is therefore required in advance of any technology selection.&nbsp; This will relate to the natural conditions (such as solar radiation intensity, wind speeds, and water flow rates) but also supply chains associated with biofuels and with any diesel fuel needed for hybrids or back-up systems.<br/><br/>'''''Technology transfer''''' – there have been, and continue to be, many programmes driven by industrialised countries that aim to use in developing countries those technologies that have been effectively demonstrated.&nbsp; This brings the advantage of reducing the risk for of trying to implement technologies for electrification that will not function in a way to achieve cost-effective power supplies to remote areas.&nbsp; The transfer of familiar technologies from an industrialised country may also bring the benefit of reduced costs for the recipient country since the provider can generate a new demand for technology that has saturated the market in its country of origin, and thereby justify reduced prices.&nbsp; However, this process of technology transfer can bring longer-term disadvantages to the developing country involved since any replacement of parts, maintenance or operations management may have to be sourced from the country of origin, which will lead to significant costs.&nbsp; For this reason, policy makers should consider the longer-term impact of technology transfer before accepting any systems for electrification that cannot be supported locally.</span><br/>
+<span>'''''Technology match''''' – for successful investment into expanded electrification, the key risks must be addressed.&nbsp; [[Portal:Financing_and_Funding|Financial]]&nbsp;and political risks will be key concerns, and the technology risk must also be considered.&nbsp; This does not necessarily relate to the correct operation of the technology, since most electricity generation, transmission and distribution systems to be used will already be well tried and tested elsewhere.&nbsp; However, there is a risk associated with matching the availability of local energy resources to the technology introduced.&nbsp; For distributed electrification systems, whether [[Portal:Mini-grid|mini-grids]] or stand-alone, renewable energy resources will often be the principle fuel source though hybrid systems may also require diesel fuel.&nbsp; Careful assessment of resource availability is therefore required in advance of any technology selection.&nbsp; This will relate to the natural conditions (such as solar radiation intensity, [[Portal:Wind|wind]]&nbsp;speeds, and water flow rates) but also supply chains associated with [[Portal:Biofuel|biofuels]]&nbsp;and with any diesel fuel needed for hybrids or back-up systems.<br/><br/>'''''Technology transfer''''' – there have been, and continue to be, many programmes driven by industrialised countries that aim to use in developing countries those technologies that have been effectively demonstrated.&nbsp; This brings the advantage of reducing the risk for of trying to implement technologies for electrification that will not function in a way to achieve cost-effective power supplies to remote areas.&nbsp; The transfer of familiar technologies from an industrialised country may also bring the benefit of reduced costs for the recipient country since the provider can generate a new demand for technology that has saturated the market in its country of origin, and thereby justify reduced prices.&nbsp; However, this process of technology transfer can bring longer-term disadvantages to the developing country involved since any replacement of parts, maintenance or operations management may have to be sourced from the country of origin, which will lead to significant costs.&nbsp; For this reason, policy makers should consider the longer-term impact of technology transfer before accepting any systems for electrification that cannot be supported locally.</span><br/>
-'''''Capital vs operational costs''''' – the choice of technology to be developed for remote electrification (whether grid extension, mini-grids or stand-alone systems) must take account of the quality of service, the social and environmental impact, but most importantly the cost implications for users.&nbsp; One fundamental issue is the choice of renewable energy technology or systems using fossil fuels (such as diesel or coal). The capital costs associated with renewable energy technologies can often present a critical barrier to potential users. This is despite the fact that the running costs will be minimal since the energy source is often freely available.&nbsp; Users often do not bear the upfront investment costs of electricity generation from fossil fuels, but may underestimate the longer-term financial obligation that is involved.&nbsp; Independent authorities, including the government, should seek to inform users and investors of the cost implications of technology development, and the likely affordability to the target customers.&nbsp; Introducing innovative financing mechanisms to offset the upfront costs of renewable energy technologies over a period of time is likely to bring great long-term benefit for end-users, as well as for the environment.<br/><br/>'''''Appropriate technology''''' – for technology to be appropriate, it must correspond to local needs.&nbsp; One of the key issues to address regarding any technology introduced for new electricity connections in developing countries is its affordability.&nbsp; Priority must be given to technology that can be built, operated and maintained by the local people with very limited outside assistance (technical, material, or financial) if it is to be sustainable.&nbsp; In many cases, the most advanced technology is inappropriate for the local needs and alternative approaches should be introduced, based upon the use of locally-available renewable resources, while promoting self-reliance.&nbsp; For successful electrification expansion, national and local governments, as well as private companies, must find technology options for new electricity connections that are both efficient and fit within fiscal limitations.&nbsp; Another key criterion for the adoption of appropriate technology is the “image of modernity”.&nbsp; It has been found that people in many developing countries (in the same way as people of many industrialized countries) want to perceive themselves as modern and progressive, at least within their personal<br/>context. Most people, wherever they live, want to feel significant and to be perceived as worthwhile. It follows, therefore, that an image of being modern is important to the success of any technology for electrification. People must believe that a technological device brings with it a degree of sophistication which can elevate the user’s social status as well as meet a basic human need.&nbsp; Any technologies introduced to bring electricity to previously unserved&nbsp;communities must take account of this fact if they are to achieve local acceptance.<br/>
+'''''Capital vs operational costs''''' – the choice of technology to be developed for remote electrification (whether [[Portal:Grid|grid]]&nbsp;extension, [[Portal:Mini-grid|mini-grids]] or stand-alone systems) must take account of the quality of service, the social and environmental impact, but most importantly the cost implications for users.&nbsp; One fundamental issue is the choice of renewable energy technology or systems using fossil fuels (such as diesel or coal). The capital costs associated with renewable energy technologies can often present a critical barrier to potential users. This is despite the fact that the running costs will be minimal since the energy source is often freely available.&nbsp; Users often do not bear the upfront investment costs of electricity generation from fossil fuels, but may underestimate the longer-term financial obligation that is involved.&nbsp; Independent authorities, including the government, should seek to inform users and investors of the cost implications of technology development, and the likely affordability to the target customers.&nbsp; Introducing innovative financing mechanisms to offset the upfront costs of renewable energy technologies over a period of time is likely to bring great long-term benefit for end-users, as well as for the environment.<br/><br/>'''''Appropriate technology''''' – for technology to be appropriate, it must correspond to local needs.&nbsp; One of the key issues to address regarding any technology introduced for new electricity connections in developing countries is its affordability.&nbsp; Priority must be given to technology that can be built, operated and maintained by the local people with very limited outside assistance (technical, material, or financial) if it is to be sustainable.&nbsp; In many cases, the most advanced technology is inappropriate for the local needs and alternative approaches should be introduced, based upon the use of locally-available renewable resources, while promoting self-reliance.&nbsp; For successful electrification expansion, national and local governments, as well as private companies, must find technology options for new electricity connections that are both efficient and fit within fiscal limitations.&nbsp; Another key criterion for the adoption of appropriate technology is the “image of modernity”.&nbsp; It has been found that people in many developing countries (in the same way as people of many industrialized countries) want to perceive themselves as modern and progressive, at least within their personal<br/>context. Most people, wherever they live, want to feel significant and to be perceived as worthwhile. It follows, therefore, that an image of being modern is important to the success of any technology for electrification. People must believe that a technological device brings with it a degree of sophistication which can elevate the user’s social status as well as meet a basic human need.&nbsp; Any technologies introduced to bring electricity to previously unserved&nbsp;communities must take account of this fact if they are to achieve local acceptance.<br/>
 |}
@@ Line 1,143: / Line 1,145: @@
 | style="width: 616px;" |
-<span style="color:#FFFFFF;"></span>New technologies may sit within a technology category (eg grid extension, mini-grid or standalone) or may span more than one category (eg an advance in electricity storage which could benefit both isolated mini-grids and standalone systems).
+<span style="color:#FFFFFF;"></span>New technologies may sit within a technology category (eg [[Portal:Grid|grid]]&nbsp;extension, [[Portal:Mini-grid|mini-grid]] or standalone) or may span more than one category (eg an advance in electricity storage which could benefit both isolated mini-grids and standalone systems).
 |-
@@ Line 1,181: / Line 1,183: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-<span style="font-size: 13.6px;">Private financiers are in principle interested in investing in new technologies, but may require higher rates of return and/or grants and subsidies to do so. In the medium term new technology should reduce electricity costs and hence user finance.</span>
+<span style="font-size: 13.6px;">Private financiers are in principle interested in investing in new technologies, but may require higher rates of return and/or grants and subsidies to do so. In the medium term new technology should reduce electricity costs and hence user [[Portal:Financing_and_Funding|finance]].</span>
 |-
@@ Line 1,267: / Line 1,269: @@
 | style="width: 616px;" |
-<span style="color:#FFFFFF;"></span>The purpose of national energy planning is to compare the viability and costs of building and operating new, centralised electricity generation and extending the existing grid, with those of local generation and a mini-grid distribution system, or of standalone systems. Which of these is more appropriate in each location depends on a complex relationship between levels of demand, costs of electricity transmission and distribution, availability of energy resources and the capital and operating costs of different forms and scales of electricity generation. National Energy Planning allows the optimum mix of technologies to be established, and hence identifies those technologies which should be the focus of any NEA and on which resources should be concentrated.
+<span style="color:#FFFFFF;"></span>The purpose of national energy planning is to compare the viability and costs of building and operating new, centralised electricity generation and extending the existing [[Portal:Grid|grid]], with those of local generation and a [[Portal:Mini-grid|mini-grid]] distribution system, or of standalone systems. Which of these is more appropriate in each location depends on a complex relationship between levels of demand, costs of electricity transmission and distribution, availability of energy resources and the capital and operating costs of different forms and scales of electricity generation. National Energy Planning allows the optimum mix of technologies to be established, and hence identifies those technologies which should be the focus of any NEA and on which resources should be concentrated.
 |-
@@ Line 1,297: / Line 1,299: @@
 | style="width: 616px;" | <span style="color:#FFFFFF;"></span>
-<span style="font-size: 13.6px;">National Energy Planning enables policy makers to assess the overall funding needed for electrification and where this will most effectively be directed. It also provides information on users’ willingness to pay and hence allows the mix of private finance, grants and subsidies and other public funding and user finance needed to be estimated, and so provides valuable information to support design of financial interventions. If the resulting Plan, and the data on which it is based is made available, it can support private investment by acting as a source of market information.</span><br/>
+<span style="font-size: 13.6px;">National Energy Planning enables policy makers to assess the overall funding needed for electrification and where this will most effectively be directed. It also provides information on users’ willingness to pay and hence allows the mix of private [[Portal:Financing_and_Funding|finance]], grants and subsidies and other public funding and user finance needed to be estimated, and so provides valuable information to support design of financial interventions. If the resulting Plan, and the data on which it is based is made available, it can support private investment by acting as a source of market information.</span><br/>
 |-
@@ Line 1,363: / Line 1,365: @@
 [[Category:NAE]]
+[[Category:Energy_Access]]
+[[Category:Policies_and_Regulations]]
+[[Category:Quality_Assurance]]
+[[Category:Capacity_Development]]
+[[Category:Awareness_Raising]]
+[[Category:Grid]]
+[[Category:Mini-grid]]
+[[Category:Off-grid]]

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National Approaches to Electrification – Non-Financial Interventions

Revision as of 20:23, 17 July 2018

Contents

Direct Energy Access Provision

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Institutional Restructuring

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Regulatory Reform

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Policy & Target Setting

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Quality & Technical Standards

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Technical Assistance

Internactions wiht other NAE Categories

Advantages and Disadvantages (Including Level of Electrification Provided)

Further Information and Guidance

Relevante Case Studies

Capacity Building & Awareness Raising

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Market Information

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Demand Promotion

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

Technology Development & Adoption

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

National Energy Planning

Internactions wiht other NAE Categories

Advantages and Disadvantages

Further Information and Guidance

Relevante Case Studies

References

Authors

Acknowledgements