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| | + | [[File:Banner- RedBiolac Conference.png|center|800px|alt=Banner- RedBiolac Conference.png|link=7th Annual RedBioLAC Conference Documentation]] |
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| − | = Introduction = | + | {| cellspacing="3" cellpadding="5" border="0" align="center" style="font-size: 14px; width: 805px" |
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| | + | | style="vertical-align: middle; width: 200px; background-color: rgb(234, 213,163); text-align: center" | '''[[#About|About]]''' |
| | + | | style="vertical-align: middle; width: 200px; background-color: rgb(234, 213,163); text-align: center" | '''[[#Documentation.2FPresentation|Documentation]]''' |
| | + | | style="vertical-align: middle; width: 200px; background-color: rgb(234, 213,163); text-align: center" | '''Imprint''' |
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| − | “Local grids” — microgrids and nanogrids — is a topic of increasing interest, but the core terms are usually used with ambiguous and conflicting definitions, or none at all. This lack of clarity impedes discussions and progress towards establishing good policy and creating needed technology, such as interoperability standards. Clarity and consistency in definitions can give insight to grid architectures, technology directions, and policies. This paper reviews key terms and definitions related to power distribution infrastructures in buildings (or campuses) that enables some local grid functionality; “local grid” is taken to be an infrastructure separate from that operated by electric utilities. The paper makes recommendations about which definitions are preferable. It also includes a discussion about the merits and limitations of existing and alternate definitions.
| + | = About = |
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| − | = Recommendations =
| + | The RedBioLAC Conference brings together practitioners in the domestic biogas sector and those interested in learning more about the technology for five days of learning, discussion and networking, with an introductory seminar, field visits, and the Latin American Biodigestion Congress.The 7th Annual RedBioLAC Conference brought together 120 participants from diverse background such as university, industry, research centers, ministries, public agencies and so on. The participants were not only from Chile but also from neighbourhood countries such as Argentina, Perú, Bolivia,and other Latin American countries such as:Ecuador, Brazil, Colombia, Costa Rica, Cuba, Spain and Nicaragua. |
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| − | The definitions below are recommended for use in discussions about local grids, and relationship of local grids to utility grids. Microgrid: “An electricity distribution system containing loads and distributed energy resources (such as generators, storage devices, or loads) that can be operated in a controlled, coordinated way while islanded from any utility grid, and is under the control of a single management entity.” (Adapted from CIGRÉ) Nanogrid: “A single domain of power; single physical layer of power distribution, reliability, quality, capacity, price, and administration.” (Nordman, 2013) Picogrid: “An individual device with its own internal battery for operation when external sources are not available or not preferred, and managed use of the battery.” (adapted from Ghai et al. 2013) The following terms are useful in discussions of local grids, but are not recommended for formal definition at this time, pending further consideration and discussion. Power distribution: Technology / infrastructure that moves electrons from devices where they are available to devices where they are wanted. Local grid: A microgrid, nanogrid, or picogrid. Milligrid: A portion of a utility’s infrastructure that can operate independently of the rest of the utility grid. Minigrid: A utility grid that is small in electrical capacity and geography.
| + | <span style="color: rgb(234,213,163); line-height: 21px">► [[:File:De residuos agrícolas a sólidos urbanos, el potencial de la biodigestión en la gestión sostenible y autoabastecimiento energético.pdf|Agenda]]</span> |
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| − | = Discussion =
| + | <br/> |
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| − | The remainder of this paper reviews existing relevant definitions for these terms and comments on their implications, merit, and application. With two exceptions, this paper covers only terms for systems that are internal to a single building or campus of adjacent buildings — a single “management entity.” This limitation in scope of geography and in management is encompassed by the general term of “local grid,” in contrast to “utility grid” with customers distinct from the entity that manages the grid, and usually involves regulation of rates, reliability, and access. Utility grids usually cover a wide geographical extent and multiple (usually very many) customers, but it is the customer relationship and usual presence of a regulatory context that is the defining characteristic. For most key terms, there is at least a rough consensus on definitions and applications (as indicated by usage in reports). The exception is nanogrid, for which there are several definitions in play; these indicate different technology directions and likely outcomes. Sources for terms are bolded.
| + | = Documentation/Presentation<br/> = |
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| − | = Power Distribution = | + | === Day 1: 9th November 2015 === |
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| − | A basic function of any grid is to balance supply and demand, and to move power among generation, storage, end-use devices, and exchange power with any connected adjacent grids. This has been defined as the “Technology / infrastructure that moves electrons from devices where they are available to devices where they are wanted” (Nordman, 2013). Power distribution technologies can include, or not include, communication about power. This term does not have divergent definitions (usually it is not defined at all), but as a core function of a grid it merits a more formal definition.
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| | + | 8:30-9:00 |
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| − | = Local Grid = | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | Registro de participantes |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
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| | + | 9:00-9:20 |
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| − | A local grid is a microgrid or nanogrid. This is not defined formally at present, but is a power distribution system of limited management scope (and so geography). For this reason, a “utility microgrid” is not a local grid, making the use of the word ‘microgrid’ in that term awkward an undesirable. A “utility grid” is inherently a local monopoly, so that the issue of management domains and regulation is fundamental to utility grids. That local grids are not encumbered by regulation or complications from multiple management domains is fundamental to what they are.
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Apertura y bienvenida a los participantes<br/>RedBioLAC |
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| − | = Microgrid = | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(139, 45, 45); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:20-10:30 |
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| − | “A microgrid is a group of interconnected loads and distributed energy resources within clearly defined electrical boundaries that acts as a single controllable entity with respect to the grid. A microgrid can connect and disconnect from the grid to enable it to operate in both grid-connected or island-mode.” (Department of Energy (DOE) Microgrid Exchange Group ) “Microgrids are electricity distribution systems containing loads and DER, (such as distributed generators, storage devices, or controllable loads) that can be operated in a controlled, coordinated way either while connected to the main power network or while islanded.” (CIGRÉ C6.22 Working Group)
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Introducción a los biodigestores.pdf|Introducción a la digestión anaeróbica: qué es, qué soluciona? Y qué nos ofrece? Condiciones necesarias, sustratos, pre-tratamientos, manejos operacionales, etc.|Introducción a la digestión anaeróbica: qué es, qué soluciona? Y qué nos ofrece? Condiciones necesarias, sustratos, pre-tratamientos, manejos operacionales, etc.]]<br/>Joaquin Viquez, Viogaz Costa Rica |
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| − | <br/>Both of these definitions — from the U.S. Department of Energy (DOE) and the International Council of Large Electric Systems (CIGRÉ) — focus on the ability to island from a utility grid (operate independently). For the most part these definitions are not substantively different, and quite unfortunately both definitions seem to exclude systems that never connect to a utility grid (though the DOE definition is more clear on this point). As there is no compelling reason to exclude systems that are always off-grid, a new definition is needed. A notable feature of both definitions is that no minimum or maximum electrical capacity is specified. Thus, a simple notebook computer with a battery would be a microgrid, and certainly a house would qualify if it can operate on its own. Nevertheless, common understanding of microgrids is centered on larger buildings or campuses, as that is where they are most commonly found today. While not part of either definition, microgrids generally cover infrastructure from only one management entity; this aspect is also needed.
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| | + | 10:30-11:00<br/> |
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| − | <br/>Thus, the CIGRÉ definition could be adapted with these considerations in mind as below. Added text is bolded and indications are given where text is deleted. The definition was also made singular (from plural) to match the others.
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| | + | Coffee Break |
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| − | <br/>“A microgrid is an electricity distribution system containing loads and distributed energy resources […] (such as […] generators, storage devices, or […] loads) that can be operated in a controlled, coordinated way while […] islanded […] from any utility grid, and is under the control of a single management entity.” This does bring up the issue of what a multi-tenant building is that can operate independently from a standard utility grid. If each tenant can operate independently as well, then it is a network of microgrids. If tenants cannot operate independently, then it may best be considered a mini-grid (see below). The key attribute of a microgrid is a capability.
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| | + | 11:00-12:00 |
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| − | == Picogrid == | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Introducción a los biodigestores de pequeña y mediana escala, contexto rural doméstico (purines), habitacional (aguas negras/servidas), urbano (mercados municipales)<br/> Jaime Martí, INER-CIMNE España |
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| − | In parts of the world where utility grid power is much less reliable than in the U.S. and Europe, more attention is given to reliability at all scales. This led to the development of a definition for a picogrid, in which a single device can be independent for power, at least for a time. A definition of this can be: “An individual device with its own internal battery for operation when external sources are not available or not preferred, and managed use of the battery” (adapted from Ghai et al. 2013). Picogrids are in widespread today, as with notebook PCs, phones, and most wireless speakers. This definition seems uncontroversial, and is a suitable and welcome complement to microgrid and nanogrid. The key attribute of a picogrid is singularity.
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| | + | 12:00-13:25 |
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| − | == Nanogrid == | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Almuerzo |
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| − | The need for a term such as nanogrid became clear because it was useful for describing an electrical infrastructure with less extent than the term “microgrid” implies. While ‘extent’ is commonly assumed to be electrical capacity, it can refer to other aspects, such as reduced capability or complexity from what a microgrid can imply. The term is often used without reference to a particular definition, with the general intent to refer to a “small microgrid,” possibly using DC. In addition, there are at least four distinct approaches to defining a nanogrid, as follows. The recommended definition is from the concept of Local Power Distribution (LPD; Nordman and Christensen, 2015a,b): A single domain of power; single voltage, frequency (if AC), reliability, quality, capacity (power), price, and administration. Storage is internal to a nanogrid. Generation forms its own nanogrid. This should be simplified and clarified (for reasons noted below) as: A single domain of power; single physical layer of power distribution, reliability, quality, capacity, price, and administration. The key attribute of a nanogrid is simplicity The LPD definition emphasizes simplicity, and introduces the idea of a local price (paraphrased from Nordman, 2012; concept dates to 2010). It is part of the broader concept of Local Power Distribution, which covers networks of nanogrids connecting end-use devices, local generation, with a microgrid controller at any utility grid interface. Because a circuit breaker introduces a capacity constraint and reliability control, in principle each circuit is a separate nanogrid, as is anything downstream of a transformer. These distinctions are true but often not that useful to make. Nanogrids are more useful in the context of DC power in which the defining factors are usually much different from any AC system they are connected to. A shortcoming of this definition is that it doesn’t take into account technologies that allow the negotiation of different voltages between a supplying and consuming device (examples include USB and UPAMD). Thus, voltage and frequency could be more usefully characterized as a single physical layer of power distribution, as defined by some technology standard. A notebook PC is a clear example of a nanogrid, in that it can distribute power to attached USB devices. Other Nanogrid Definitions (references at end) Bryan et al. A small isolated DC power system that uses distributed renewable energy sources in conjunction with storage to supply continuous power to small local loads. The Bryan definition (Bryan et al, 2002) is narrow in prescribing size, only using DC, and never grid-connected. Isolated DC systems are common, as in all cars and trucks. Specifying “small” without a numeric limit is awkward since small in one context is large in another. It seems unnecessary to limit nanogrids to being only DC, never grid connected, and only using renewable generation. These seem more about how the grid architecture is used in particular contexts, not what the architecture fundamentally is. Navigant A small electrical domain
| + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
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| | + | 13:30-15:15 |
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| − | *connected to the grid of no greater than 100 kW and limited to a single building structure or primary load or
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| − | *a network of off-grid loads not exceeding 5 kW;
| + | [[:File:Diagnostico, diseño, instalación, operación y mantenimiento de sistemas productivos.pdf|Diagnóstico, diseño, instalación, operación y mantenimiento de sistemas productivos (lagunas cubiertas, tubulares y UASB)]]<br/>Joaquin Viquez, Viogaz Costa Rica |
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| − | both categories representing devices capable of islanding and/or energy self-sufficiency through some level of intelligent DER management or controls Navigant Consulting (2013; formatting added) defines a nanogrid with respect to electrical capacity and spatial extent or being never utility-grid connected. This is the only nanogrid definition with an explicit electrical capacity constraint. It is awkward to cover two mutually exclusive categories of electrical system within the same domain; having a single term for each of these would be better. Also difficult is including “single building” which doesn’t have a clear application to many circumstances. Houseman et al. A single building housing a single family or business that has some load and some generation capability with or without storage, that can adjust the load to some extent to deal with the available local supply and can in an emergency sustain some generation to support critical loads. This last definition of the term means essentially a small microgrid, though what “small” means is not specified. The limitations on building type and size seem unnecessary, and the additional capabilities that are required or prohibited are ambiguous. Nevertheless, this text (from Doug Houseman of EnerNex) reflects contemporary usage by a number of people and was not intended to be a formal definition as-is. Comparison among Nanogrid Definitions The definitions of nanogrid above embody a variety of characteristics, as shown in Table 1. Only one characteristic (presence of electricity storage) is covered by all definitions. No definition covers all characteristics explicitly. All definitions except LPD apply a scale limitation that is absent in the associated definitions of microgrid and picogrid.
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| | + | 15:00-16:00 |
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| − | <br/>Nanogrids in context of Local Power Distribution This paper recommends an adaptation of the LPD definition (since that was developed by the author of this paper, this not surprising). The LPD nanogrid definition is unique among the four in that it is not a stand-alone concept, but is part of a larger system, which within it has a generic wiring topology, as shown in Figure 1. None of the other definitions is specific enough to lead to any conclusion about implications for wiring topologies. Some further details of LPD Nanogrid are that they:
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:CURSO INTRODUCTORIO Biogás y Biodigestores de pequeña y mediana escala.pdf|Monitoreo y análisis instrumental/laboratorio para evaluar la biodigestión anaeróbica]]<br/>Maria Teresa Varnero, U de Chile |
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| − | *Are the smallest unit of power distribution (not divisible)
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| − | *Encompass a single physical layer (voltage; usually DC)
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| − | *Are a single domain: administration, reliability, quality, and price
| + | 16:00-16:30 |
| − | *Can interoperate with other local grids through gateways
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| − | *Generation forms own nanogrid
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| − | *In a fully-functioning nanogrid, all links include communications
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| − | *Could cover a wide range in technology, capability, and capacity
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| − | *Enable a network model of power – “Local Power Distribution”
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| − | The expected LPD deployment pattern is for an individual building to contain a few to many nanogrids, which may be composed of different physical layers (e.g. some AC and some DC; some USB, some Ethernet; etc.), and which are networked to each other.
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Coffee break<br/> |
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| − | == Utility microgrid == | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
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| | + | 16:30-17:15 |
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| − | A “utility microgrid” generally refers to a portion of a utility infrastructure that can operate independently of the rest of the utility grid, with the scale usually a few, to a few hundred, buildings. Some local generation (or at least local storage) is required as part of the utility infrastructure. This is also called a “milligrid,” “Utility Distribution Microgrid,” or “Community Microgrid” (Marnay et al., 2011 and 2012). As noted above, it is awkward to use the word “microgrid” as part of this term as that refers to infrastructure that is all part of a single management domain, and hence not covering utility infrastructure. For this reason, the term “milligrid” is preferred. This paper does not offer a formal definition.
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Usos del biogás e impactos sociales & medioambientales.pdf|Usos del biogas e impactos sociales & medioambientales]]<br/>Lylian Rodriguez, Fundación UTA Colombia y RedBioCOL |
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| − | == Minigrid == | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
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| | + | 17:15-18:00 |
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| − | The topic of “energy access” covers how to provide adequate electricity services to people who today have little or no electricity. The largest number of such people is in Africa, India, and other parts of Asia (particularly island communities as in the Philippines and Indonesia). Energy access spans the range from bringing traditional utility grid technology to households and businesses that lack it today, to stand-alone devices or single-building systems. In between lies the notion of a “minigrid” (often hyphenated ), which is like a traditional utility grid but with limited scope of geography and capacity. Unfortunately, the term is almost never defined. People generally agree on what is in or out of the “minigrids” category, but as their range in electrical capacity, geographical extent, or number of customers expands in both directions, it will be necessary to establish a formal definition. This discussion is particularly informed by how it is used by the UNEP (United Nations Environment Program, Dean Cooper, 2015). As used here, a minigrid is a utility grid; it is an electricity distribution system with one entity that provides power, to customers that purchase it. The direct utility link reflects the fact that one potential outcome of (AC) mini-grid operation is the attraction of greater customer numbers and ultimate connection to the existing national grid structure. The following additional characteristics generally apply to what is, or is not, a minigrid.
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:BioDigestato, BiolCaracterísticas y empleo.pdf|Uso del biol (digestato) como abono en la agricultura tradicional]]<br/>Lucas Gallo, INTA Argentina |
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| − | *There may be a minimum and/or maximum number of customers.
| + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;background-color: rgb(224, 224, 224);" |
| − | *There may be a minimum and/or maximum peak electrical capacity.
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| − | *There may be a maximum geographical extent.
| + | 17:15-18:00 |
| − | *Providing power should be a primary or significant activity of the providing entity.
| + | |
| − | *While power flow from customers to the mini-grid may occur, flow from the mini-grid to customers should be significantly greater.
| + | |
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| − | Additional notes on minigrids are as follows:
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid; background-color: rgb(224, 224, 224);" rowspan="1" colspan="2" | |
| | + | [[:File:Potencial producción biogás con diversos sustratos software de uso público.pdf|Estimación potencial producción biogas diversos sustratos, con software de uso público.]]<br/>Jean Velázquez, Universidade Federal de Itajubá, Brasil |
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| − | *Exchange of power among adjacent buildings without a clear central entity would not constitute a minigrid. This would be a network of nanogrids or microgrids.
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| − | *A minigrid might be all AC, all DC, or a combination of the two.
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| − | *There should be no requirements or limits on voltages, though with an upper bound on electrical capacity, there are limits to the voltages that might ever make sense.
| + | 18:30 |
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| − | Other Sources and Terms smart grid or intelligent grid IEC Electropedia (IEC, 2015) electric power system that utilizes information exchange and control technologies, distributed computing and associated sensors and actuators, for purposes such as: – to integrate the behaviour and actions of the network users and other stakeholders, – to efficiently deliver sustainable, economic and secure electricity supplies Any micro- or nanogrid could meet this definition if it includes communication. island (in an electric power system) IEC Electropedia (IEC, 2015) part of an electric power system, that is disconnected from the remainder of the interconnected system, but remains energized Note – An island can be either the result of the action of automatic protections or the result of a deliberate action. This implies that an island must be sometimes connected to a larger system. Such a requirement is not desirable. small scale embedded generator or micro-generator or SSEG (abbreviation) IEC Electropedia (IEC, 2015) source of electric energy and all associated interface equipment able to be connected to a regular electric circuit in a low-voltage electrical installation and designed to operate in parallel with a public low-voltage distribution network Note – Typically, a SSEG is connected at low voltage and rated up to and including 16 A per phase. The IEC Electropedia does not define microgrid or the other terms used in this paper. The IEEE Dictionary (IEEE, 2000) defines grid, from a hydroelectric standard, as “Network, usually of a power company, for transmitting and distributing electrical power”. The dictionary does not define microgrid, and only mentions power distribution in the specific context of underground cables. The term “low voltage” has a variety of very different meanings depending on context, from less than 60 V to well over 1,000 V. This brings up the undesirability of using terms like this (e.g., “small”) in definitions because they lack a clear quantitative meaning. Implications for Technology and Policy Local grids can and do exist as individual entities (connected to a utility grid or not), but are even more useful when connected (networked) to each other. Microgrids in adjacent buildings could have the ability to be connected to each other separately from how they might be on a common section of a utility grid, in order to exchange power over the direct path when the utility grid is operating or not (this known as the “over-the-fence” rule ). Similarly, nanogrids can be networked to each other, and always need to be, as the LPD definition specifies that local generation forms its own nanogrid, so would be networked to at least one additional nanogrid that has end-use devices (and likely storage internal to the controller). The selection of particular definitions is entangled with a set of questions about how local grids relate to the utility grid (if present), and utility meter.
| + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Fin del primer día<br/> |
| | | | |
| − | *Should a microgrid operate internally only when islanded from a utility grid, and otherwise have the building be a typical part of the utility grid? Or should microgrid operations be continuous, managing supply and demand, and actively managing the exchange of power with a utility grid?
| + | |} |
| − | *Should a utility grid have visibility to inside the microgrid, and interact with component devices directly, or only interface with a single device, the microgrid controller?
| + | |
| − | *Under what circumstances should adjacent grids be tightly coupled to each other? (alternative is to be only loosely coupled; AC systems generally are tightly coupled, while DC systems, particularly when they incorporate batteries, are often loosely coupled.)
| + | |
| | | | |
| − | Summary The definitions recommended here, particularly the identified definition of nanogrid, and adapted definition of microgrid, should be used in grid discussions. Some standards organization should take on the topic of grid definitions, for the goal of fostering clarity of communication. The key defining aspect of a microgrid is capability; for a picogrid it is singularity; for a nanogrid, simplicity. These three definitions are all compatible and complementary; they do not exist on a scale of differential sizes as the metric prefixes suggest .
| + | [[#About|►Go to Top]]<br/> |
| | | | |
| − | = Acknowledgments = | + | == Day 2: 10th November 2015 == |
| | | | |
| − | Many thanks to Chris Marnay for his inspiration and assistance. Also helpful have been Ken Christensen, David Katz, Dane Christensen, Ken Wacks, Dean Cooper, and others. Acknowledgments Many thanks to Chris Marnay for his inspiration and assistance. Also helpful have been Ken Christensen, David Katz, Dane Christensen, Ken Wacks, Dean Cooper, and others.
| + | {| class="zebra" style="margin: 0px 0px 20px; padding: 0px; width: 800px; clear: both; font-family: verdana, tahoma, arial, helvetica, sans-serif; font-size: 11px; border-collapse: collapse; table-layout: auto; caption-side: top; border-spacing: 0px; empty-cells: show;" |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:00-8:30 |
| | | | |
| − | = References = | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Registro de participantes |
| | | | |
| − | Asmus, Peter, Navigant Consulting, personal communication, 2014. Bryan, J. R. Duke, and S. Round, Decentralised Control Of A Nanogrid, Technical Report, Department of Electrical and Computer Engineering, University of Canterbury, 2002. Cooper, Dean, United Nations Environment Program (UNEP), personal communication, 2015. Ghai, S., Z. Charbiwala, S. Mylavarapu, D. P. Seetharam, and R. Kunnath, “DC Picogrids: A Case for Local Energy Storage for Uninterrupted Power to DC Appliances,” Proceedings of ACM e-Energy, pp.27-34, 2013. Houseman, Doug, personal communication, 2015. Institute of Electrical and Electronic Engineers, IEEE 100: The Authoritative Dictionary of IEEE Standards Terms, Seventh Edition, 2000. International Electrotechnical Commission, IEC Electropedia, [http://www.electropedia.org/ http://www.electropedia.org/], accessed April 2015.
| + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:30-9:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Remoción de H2S en el biogás.pdf|Remoción de sulfuro de hidrógeno]]<br/>Joaquin Viquez, Viogaz, Costa Rica <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(139, 45, 45); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:30-10:25 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:file:Empleo de Biogás Adaptacion.pdf|Paso a paso, adaptación de aparatos convencionales para su uso con biogas (refrigerador, motogeneradores, cocinillas)]]<br/>Lucas Gallo, INTA Argentina |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 10:25-10:35<br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Energypedia -connecting knowledge -.pdf|Presentación de Energypedia y su biblioteca online sobre biogas ---CONFERENCIA VIRTUAL---]]<br/>Héctor Alfaro, Energypedia, Alemania |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 11:00-12:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Dimensionamiento, diseño, instalación y operación de sistemas de tratamientos de aguas servidas habitacionales: casos comunitarios<br/>Víctor Cantarero, AITA, Nicaragua<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 12:00-13:25 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Almuerzo |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 13:30-14:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Dimensionamiento, diseño, instalación y operación de sistemas de tratamientos de aguas servidas habitacionales: casos comunitarios<br/>Víctor Cantarero, AITA, Nicaragua |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 14:00-15:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Reglamento de seguridad para proyectos de biogás en Chile<br/>Karin von Osten, Ministerio de Energía, Chile<br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 15:30-16:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Coffee break<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 16:00-18:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Desarrollos locales (30 minutos c/u) |
| | + | |
| | + | *La experiencia de un autodidacta |
| | + | *[[:File:La experiencia desde el eco-diseño.pdf|La experiencia desde el diseño]] |
| | + | *[[:File:BiodigestoresAnaeróbicos Fabricados en Fibra de Vidrio Reforzada Metalglass,.pdf|La experiencia de mujeres empoderadas]] |
| | + | *La experiencia sureña |
| | + | |
| | + | David Perez, Independiente, Coltauco, Cecilia Mujica, Paola Arévalo, Ecodiseño, Catalina Gutierrez, Bioconstructora de Mujeres, George Martinez Metalglass, Patricio Castro, Gobernación Provincial de Valdivia <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 18:00-18:45 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Entrega de diplomas & foto grupal <br/>Avisos coordinación salida a terreno día miércoles<br/>Coordinadores |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | <br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Fin del segundo día<br/> |
| | + | |
| | + | |} |
| | + | |
| | + | [[#About|►Go to Top]]<br/> |
| | + | |
| | + | == Day 3: 11th November 2015 == |
| | + | |
| | + | {| class="zebra" style="margin: 0px 0px 20px; padding: 0px; width: 800px; clear: both; font-family: verdana, tahoma, arial, helvetica, sans-serif; font-size: 11px; border-collapse: collapse; table-layout: auto; caption-side: top; border-spacing: 0px; empty-cells: show;" |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Llegada de participantes y distribución en buses<br/>Punto de encuentro: Facultad de Ciencias <br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:30 PUNTUAL |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Salida hacia Casablanca <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(139, 45, 45); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:30-12:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Visita biodigestor 28 m3 alimentado con purines ganaderos<br/>Ecodiseño<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 12:30<br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Salida a almorzar |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 13:00-14:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Almuerzo en Valle de Casablanca- Visita Viñedo <br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 14:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Salida hacia Rungue |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 15:30-18:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Visita biodigestor 900 m3 alimentado con residuos industria alimenticia<br/>SERVINOR<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 18:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Salida de regreso a Santiago, hacia Facultad de Ciencias <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 20:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Llegada facultad de ciencias<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid; width: 48px;" | |
| | + | <br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | <br/> |
| | + | |} |
| | + | |
| | + | <br/> |
| | + | |
| | + | [[#About|►Go to Top]]<br/> |
| | + | |
| | + | <br/> |
| | + | |
| | + | == Day 4: 12th November 2015 == |
| | + | |
| | + | {| class="zebra" style="margin: 0px 0px 20px; padding: 0px; width: 800px; clear: both; font-family: verdana, tahoma, arial, helvetica, sans-serif; font-size: 11px; border-collapse: collapse; table-layout: auto; caption-side: top; border-spacing: 0px; empty-cells: show;" |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:00-8:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | '''Registro de participantes ''' |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:30-8:45 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Bienvenida RedBioLAC<br/>Coordinadora y junta directiva de la red<br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(139, 45, 45); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:45-9:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Saludo de bienvenida Green Empowerment<br/>Caitlyn Peake y Sam Schlesinger<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:00-9:20<br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:BiodigestoresAnaeróbicos Fabricados en Fibra de Vidrio Reforzada Metalglass,.pdf|Saludo de bienvenida WISIONS (Wuppertal Institute) -Lanzamiento de convocatoria SEPS (Sustainable Energy Project Support)]]<br/>Carmen Dienst y Willington Ortiz |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:20-9:40<br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | <span style="line-height: 16.5px;">[[:File:Asociación Costarricense de Biogás.pdf|Anuncio de la recién creada Asociación Costarricense de Biogas]]</span><br/><span style="line-height: 16.5px;"> Joaquín Viquez, presidente ACB, Costa rica</span><br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:40-10:00 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Avances de la Red Colombiana de Energía de la Biomasa -RedBioCOL.pdf|Avances de la Red Colombiana de Energía de la Biomasa]]<br/>Lylian Rodriguez, Fundación UTA Colombia y RedBioCOL<br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 10:00-10:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | - Basura Cero en las ciudades de América Latina y la biodigestión como alternativa efectiva al manejo de la fracción de residuos orgánicos <br/>-[[:File:¡EncuentroRedBioLAC2015 en Chile!.pdf|Alianza Residuo Cero Brasil y la implementación Política Nacional de Residuos Sólidos]] <br/>Magdalena Donoso, GAIA-no burn, Chile Clauber Leite, Universidad de Sao Paulo, Brasil <br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 10:30-10:55 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Coffee break <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 10:55-11:25 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Reglamento de seguridad para proyectos de biogás en Chile <br/>Karin von Osten, Ministerio de Energía, Chile <br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 11:25-11:50 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Actualización sobre el desarrollo de la normativa para la definición y uso del digestato cómo abono agrícola <br/>Por definir <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 11:50-12:15 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:PROGRAMADEFOMENTOALBIOGÁS..pdf|Programa de fomento al biogás. Una oportunidad para la gestión de residuos en el sector lechero]]<br/>Christian Malebrán, CIFES, Chile <br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 12:15-13:25 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Almuerzo<br/> |
| | + | |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 13:30-13:55 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | Biodigestores domésticos de campana flotante, alcanzando mayores eficiencias con plástico reforzado de fibra de vidrio. <br/>Víctor Cantarero, AITA, Nicaragua<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 13:55-14:30 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid; background-color: rgb(234, 234, 234);" colspan="2" | Innovadores prácticas de negocio para llegar a los pequeños ganaderos del altiplano con biogas y bioabono <br/>Froilan Quino, HIVOS, Bolivia <br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 14:30-14:50 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | [[:File:Experiencias delProyectoInternacionalBIOMAS-CUBA..pdf|Biodigestores de domo fijo, la experiencia Cubana]] <br/>Luis Álvarez, Indio Hatuey, Cuba<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 14:50-15:15 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | [[:File:Análises de Ciclo de Vida del uso de biodigestores domésticos rurales.pdf|Análisis de Ciclo de Vida del uso de biodigestores domésticos rurales, comparación de biodigestores de geomembrana y CAMARTEC en condiciones de selva amazónica y montaña]] <br/>Jean Velázquez, Universidad Federal de Itajubá, Brasil <br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 15:15-15:40 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | Análisis socioeconómico de la instalación de biodigestores tipo chino en clima templado entre 1.400 y 1.800 msnm. <br/>Luis Cáceres, Colombia<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 15:40-16:00 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | Eficiencia e Innovación en Biodigestores Ecodiseñados para climas fríos <br/>Alejandro Chacón, Ecodiseño, Chile<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 16:00-16:25 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | Coffee break |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 16:25-16:50 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | [[:File:CONGRESO 16 Leidiane Mariani Centro Internacional de Energías Renovables.pdf|Producción de electricidad y otros usos del biogas producido a partir de los desechos de la ganadería lechera en el sur de Uruguay]]<br/>Leidiane Mariani, Centro Internacional de Energías Renovables Biogás, Brasil <br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 16:50-17:15 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | [[:file:Digestión Anaeróbica de Escala Productiva.pdf|Uso productivo de digestión anaeróbica para la producción de energía eléctrica y la mitigación de GEI]] <br/>Alex Eaton, Sistema Biobolsa, México <br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 17:15-17:40 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | [[:File:Hormigón pre moldeado en biodigestores de gran escala para el tratamiento de residuos de detambo y la FORSU.pdf|Hormigón premoldeado para biodigestores de gran escala para el tratamiento de residuos de mataderos y la fracción sólida de residuos sólidos urbanos]]<br/>Nicolas Baima, MEYCO, Argentina <br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 17:40-18:00 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | [[:File:Asistenciaa Proyectosde Biogas.pdf|Avances del sistema de cálculo de pre factibilidad de proyectos]]<br/>Víctor Goicoa INTI, Argentina<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid; background-color: rgb(234, 234, 234);" | 18:00-18:30 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid; background-color: rgb(234, 234, 234);" colspan="2" | Reactores de flujo horizontal de película adherida para el tratamiento de aguas residuales domésticas <br/>Víctor Cantarero, AITA, Nicaragua <br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 18:30-19:00 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | Guía para la formulación de propuestas para la convocatoria SEPS <br/>Junta directiva RedBioLAC<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 19:00-20:30 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid; background-color: rgb(234, 234, 234);" colspan="2" | Foto grupal, sorpresa musical y coctel<br/> |
| | + | |} |
| | + | |
| | + | [[#About|►Go to Top]]<br/> |
| | + | |
| | + | == Day 5: 13th November 2015 == |
| | + | |
| | + | {| class="zebra" style="margin: 0px 0px 20px; padding: 0px; width: 800px; clear: both; font-family: verdana, tahoma, arial, helvetica, sans-serif; font-size: 11px; border-collapse: collapse; table-layout: auto; caption-side: top; border-spacing: 0px; empty-cells: show;" |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:00-8:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | '''Registro de participantes ''' |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 8:30-9:05 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Presentación del software para la estimación de productividad y uso del biogas & beneficios ambientales asociados a la mitigación de GEI.pdf|Presentación del software para la estimación de productividad y uso del biogas & beneficios ambientales asociados a la mitigación de GEI]] <br/>Joao Wagner, CETESB, Brasil <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(139, 45, 45); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:05-9:20 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Desarrollo del “Bionutrator”, una herramienta que calcula mezclas óptimas de substrato para mejorar la eficiencia y estabilidad de biodigestores.pdf|Desarrollo del “Bionutrator”, una herramienta “on-line” que calcula mezclas óptimas de substrato para mejorar la eficiencia y estabilidad de biodigestores]]<br/>Limbania Aliaga, Ruhr-Universität Bochum, Alemania <br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(234, 234, 234);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:20-9:45<br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Calefacción de lechones con biogás.pdf|Calefacción de lechones con biogas, cálculos y dimensionamiento]]<br/>Joaquin Viquez, Viogaz, Costa Rica<br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 9:45-10:05<br/> |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | <span style="line-height: 16.5px;">[[:File:Análisis del balance energético de una finca donde se realiza conversión a biogás de un motor a gasolina en la utilización de ensiladora..pdf|Análisis del balance energético de una finca donde se realiza conversión a biogas de un motor a gasolina en la utilización de ensiladora.]] <br/>Franklin Patiño, Universidad Pontificia Bolivariana, Colombia</span><br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 10:05-10:30 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Gasógenos de presión estabilizable.pdf|Gasógenos flexibles de presión estable]] <br/>Lucas Gallo, INTA Argentina<br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 10:30-10:55 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Coffee Break<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 10:55-11:15 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:El Biol,el Maíz yel Frío.pdf|Aplicaciones de biol en maíz comercial, efectos e impacto en su productividad]] <br/>Lucas Gallo, INTA Argentina<br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 11:15-11:35 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:DIGESTATO, Acelerador biológico como alternativa a la quema del rastrojo.pdf|Digestato, acelerador biológico cómo alternativa a la quema del rastrojo]]. <br/>María Teresa Varnero, Universidad de Chile<br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 11:35-11:55 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:ENSAYO A CAMPO DE BIODIGESTIÓN CON LOS RESIDUOS DE UN FEEDLOT GANADERO EN EL NORESTE DE ARGENTINA Y BIOFERTILIZACIÓN SOBRE MAÍZ Y CULTIVO DE MICROALGAS.pdf|Biofertilización sobre maíz y cultivo de microalgas a partir de residuos ganadería]] <br/>Guido Casanovas, Grupo IFES, Argentina <br/> |
| | + | |
| | + | |- class="tr-even" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid;" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 11:55-12:15 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | [[:File:Uso del bioly su efecto en los cultivos y cierre de ciclos, la experiencia en Tosoly, Santander.pdf|Uso del biol y su efecto en los cultivos y cierre de ciclos, la experiencia en Tosoli, Santander]] <br/>Lylian Rodriguez, Fundación UTA Colombia y RedBioCOL <br/> |
| | + | |
| | + | |- class="tr-odd" style="margin: 0px auto; padding: 0px; border-bottom-color: rgb(234,213,163); border-bottom-width: 1px; border-bottom-style: solid; background-color: rgb(224, 224, 224);" |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | |
| | + | 12:15-13:25 |
| | + | |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" rowspan="1" colspan="2" | |
| | + | Almuerzo<br/> |
| | + | |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 13:30-13:50 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | [[:File:GENERACIÓN DE BIOENERGÍA Y BIOFERTILIZANTES CON FORSU (FRACCIÓN ORGÁNICA DE RESIDUOS SÓLIDOS URBANOS), RESIDUOS PECUARIOS Y DEL MERCADO FRUTI-HORTÍCOLA EN HUINCA RENANCÓ.pdf|Generación energía y fertilizantes a partir de la fracción orgánica de residuos sólidos urbanos (FORSU), residuos pecuarios y del mercado fruti-hortícola de Huinca Renancó]] <br/>Guido Casanovas, Grupo IFES, Argentina<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 13:50-14:10 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid; background-color: rgb(234, 234, 234);" colspan="2" | [[:File:VALORIZACIÓN ENERGÉTICA DE BIORRESIDUOS DE ORIGEN MUNICIPAL MEDIANTE LA CO-DIGESTIÓN ANAEROBIA CON RESIDUOS PORCÍCOLAS.pdf|Valorización energética de biorresiduos de origen municipal mediante la codigestión anaerobia con residuos porcícolas]] <br/>Lina Cárdenas, Universidad del Valle, Colombia<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 14:10-14:30 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | [[:File:“Pre-Evaluación de Factibilidad Técnica Económica de un Biodigestor con Purines, Remanentes orgánicos de la industria alimenticia y basura municipal”.pdf|Evaluación de pre-factibilidad técnica-económica de un biodigestor con purines y remanentes orgánicos de la industria alimenticia y de residuos urbanos]]<br/>Gloria Castillo y Fernando Marquez R., Universidad de Concepción, Chile<br/> |
| | + | |- |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 14:30-14:50 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | [[:File:ESTIMACIÓN EN LABORATORIO DEL POTENCIAL DE LA FRACCIÓN ORGÁNICA DE RESIDUOS SÓLIDOS MUNICIPALES PARA LA PRODUCCIÓN DE ENERGÍA RENOVABLE Y EL CONTROL DE LA CONTAMINACIÓN.pdf|Estimación en laboratorio del potencial de la fracción orgánica de residuos sólidos municipales para la producción de energía renovable y el control de la contaminación]] <br/>Brayan Parra, Universidad del Valle, Colombia <br/> |
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| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 14:50-15:10 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | [[:File:Ensayo de laboratorio para evaluar el potencial de la codigestión de estiércol vacuno más residuos de mercados hortofrutícolas.pdf|Ensayo de laboratorio para evaluar el potencial de la codigestión de estiércol vacuno más residuos de mercados hortofrutícolas]] <div>Fabiana Mendoza, Universidad Nacional de Cuyo, Argentina </div> |
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| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 15:10-15:35 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | [[:File:Conference Presentation.pdf|Digestión seca de basuras: un año de monitoreo con mínima tecnología]] <br/>Jaime Martí Herrero<br/> |
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| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 15:35-16:00 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | [[:File:La biodigestiónde “micro escala” en Europa, la nueva tendencia en respuesta a la polémica por la competencia entre producción de comida y combustibles de los digestores de gran escala inicialmente promovidos y subsidiados.pdf|Small scale digesting technology in Europe: a new trend to address the food vs fuel production and public opinion issues of large scale digestion plants (La biodigestión de “micro escala” en Europa, la nueva tendencia que responde a la polémica por la competencia entre producción de comida y combustibles de la gran escala de digestores inicialmente promovidos y subsidiados, Power point será en Español)]]<br/>Michael Köttner, IBBK, Alemania <br/> |
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| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 16:00-16:30 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | Coffee Break |
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| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 16:30-18:30 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | Metodología en desarrollo<br/>Productos esperados: identificación y mapeo de miembros y participantes, formulación de objetivos y actividades según competencias, creación de grupos de trabajo, investigación, etc.<br/>Junta directiva RedBioLAC, Green Empowerment |
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| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" | 17:15-17:40 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;background-color: rgb(234, 234, 234);" colspan="2" | [[:File:Hormigón pre moldeado en biodigestores de gran escala para el tratamiento de residuos de detambo y la FORSU.pdf|Hormigón premoldeado para biodigestores de gran escala para el tratamiento de residuos de mataderos y la fracción sólida de residuos sólidos urbanos]]<br/>Nicolas Baima, MEYCO, Argentina <br/> |
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| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" | 18:30-19:00 |
| | + | | style="margin: 0px auto; padding: 5px 10px; border-bottom-color: rgb(234,213,163); border-bottom-style: solid;" colspan="2" | Clausura del Encuentro & foto grupal Fin del Encuentro<br/> |
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| | + | [[#About|►Go to Top]]<br/> |
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| | + | __NOTOC__<br/>__NOAUTHORLIST__ |
The RedBioLAC Conference brings together practitioners in the domestic biogas sector and those interested in learning more about the technology for five days of learning, discussion and networking, with an introductory seminar, field visits, and the Latin American Biodigestion Congress.The 7th Annual RedBioLAC Conference brought together 120 participants from diverse background such as university, industry, research centers, ministries, public agencies and so on. The participants were not only from Chile but also from neighbourhood countries such as Argentina, Perú, Bolivia,and other Latin American countries such as:Ecuador, Brazil, Colombia, Costa Rica, Cuba, Spain and Nicaragua.
