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| = Overview = | | = Overview = |
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| There are different types of small scale biogas digesters. <u>Some of the biogas digesters are summarized below:</u> | | There are different types of small scale biogas digesters. <u>Some of the biogas digesters are summarized below:</u> |
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| *[[Fixed-dome_Biogas_Plants|Fixed-dome Plants]] | | *[[Fixed-dome_Biogas_Plants|Fixed-dome Plants]] |
| *[[Floating_Drum_Biogas_Plants|Floating-drum Plants]] | | *[[Floating_Drum_Biogas_Plants|Floating-drum Plants]] |
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− | | + | = Low-Cost Polyethylen Tube Digester<br/> = |
− | | + | In the case of the Low-Cost Polyethylene Tube Digester model which is applied in [[Low-Cost Polyethylene Tube Digesters in Bolivia|Bolivia]] (Peru, Ecuador, Colombia, Centro America and Mexico), the tubular polyethylene film (two coats of 300 microns) is bendedat each end around a 6 inch PVC drainpipe and is wound with rubber strap of recycled tire-tubes. With this system a hermetic isolated tank is obtained (figure td1 ). |
− | = Low-Cost <span data-scayt_word="Polyethylen" data-scaytid="146">Polyethylen</span> Tube Digester<br/> = | + | |
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− | == Digester ==
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− | In the case of the Low-Cost Polyethylene Tube Digester model which is applied in [[Low-Cost Polyethylene Tube Digesters in Bolivia|Bolivia]] (Peru, Ecuador, Colombia, Centro America and Mexico), the tubular polyethylene film (two coats of 300 microns) is <span data-scayt_word="bended" data-scaytid="147">bended</span> at each end around a 6 inch PVC drainpipe and is wound with rubber strap of recycled tire-tubes. With this system a hermetic isolated tank is obtained (figure <span data-scayt_word="td1" data-scaytid="148">td1</span>). | + | |
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| {| cellspacing="1" cellpadding="1" border="0" align="center" style="width: 500px" class="FCK__ShowTableBorders" | | {| cellspacing="1" cellpadding="1" border="0" align="center" style="width: 500px" class="FCK__ShowTableBorders" |
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| | style="width: 384px" | [[File:In Outlet winding Tube Digester.jpg|thumb|left|300px|Picture td2: Winding In-/Outlet Tube Digester]] | | | style="width: 384px" | [[File:In Outlet winding Tube Digester.jpg|thumb|left|300px|Picture td2: Winding In-/Outlet Tube Digester]] |
− | | style="width: 853px" colspan="2" | <br/>[[File:Low Cost Polyethylene Tube Digester Scheme.jpg|thumb|center|500px|Figure td1: Scheme of Low-cost Polyethylene Tube Digester.|alt=Low Cost Polyethylene Tube Digester Scheme.jpg]]One of the 6" PVC drainpipes serves as inlet and the other one as the outlet of the slurry. In the tube digester finally, a hydraulic level is set up by itself, so that as much quantity of added prime matter (the mix of dung and water) as quantity of fertilizer leave by the outlet.<br/>Because the tubular polyethylene is flexible, it is necessary to construct a "cradle" which will accommodate the reaction tank, so that a trench is excavated (picture <span data-scayt_word="td3" data-scaytid="153">td3</span>). | + | | style="width: 853px" colspan="2" | [[File:Low Cost Polyethylene Tube Digester Scheme.jpg|thumb|center|500px|Figure td1: Scheme of Low-cost Polyethylene Tube Digester.|alt=Low Cost Polyethylene Tube Digester Scheme.jpg]]One of the 6" PVC drainpipes serves as inlet and the other one as the outlet of the slurry. In the tube digester finally, a hydraulic level is set up by itself, so that as much quantity of added prime matter (the mix of dung and water) as quantity of fertilizer leave by the outlet.<br/>Because the tubular polyethylene is flexible, it is necessary to construct a "cradle" which will accommodate the reaction tank, so that a trench is excavated (picture td3). |
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| == Gasholder and Gas Storage Reservoir<br/> == | | == Gasholder and Gas Storage Reservoir<br/> == |
− | | + | The capacity of the gasholder corresponds to 1/4 of the total capacity of the reaction tube (figure td1). To overcome the problem of low gas flow rates, two 200 microns tubular polyethylene reservoirs are installed close to the kitchen, which gives a 1,3 m³ additional gas storage (picture td4).<br/> |
− | The capacity of the gasholder corresponds to 1/4 of the total capacity of the reaction tube (figure <span data-scayt_word="td1" data-scaytid="155">td1</span>). To overcome the problem of low gas flow rates, two 200 microns tubular polyethylene reservoirs are installed close to the kitchen, which gives a 1,3 m³ additional gas storage (picture <span data-scayt_word="td4" data-scaytid="157">td4</span>).<br/> | + | |
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| {| cellspacing="1" cellpadding="1" border="0" style="width: 100%" | | {| cellspacing="1" cellpadding="1" border="0" style="width: 100%" |
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− | To contrast these simple <span data-scayt_word="biogas" data-scaytid="351">biogas</span> plants, figure 2 gives an impression about dimensions of industrial plants which are, for example, built in Europe. | + | To contrast these simple biogas plants, figure 2 gives an impression about dimensions of industrial plants which are, for example, built in Europe. |
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− | [[File:Indplant.gif|thumb|left|300px|Fig. 2: Industrial plant with utilization of domestic organic wastes]]<br/><br/>, <div style="clear: both"></div> | + | [[File:Indplant.gif|thumb|left|300px|Fig. 2: Industrial plant with utilization of domestic organic wastes]] <div style="clear: both"></div> |
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| [[Fixed-dome_Biogas_Plants#toc|►Go to Top]]<br/> | | [[Fixed-dome_Biogas_Plants#toc|►Go to Top]]<br/> |
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− | | + | = Installation Manual for Low Cost Polyethylene Biogas Digester = |
− | == Experience with <span data-scayt_word="Plythylene" data-scaytid="356">Plythylene</span> <span data-scayt_word="Biogas" data-scaytid="354">Biogas</span> Digester (<span data-scayt_word="PBD" data-scaytid="358">PBD</span>)<br/> == | + | [[File:Low cost polyethylene tube installation.pdf| border]] |
− | | + | == Experience with Polythylene Biogas Digester (PBD) == |
| *[[Experience with Polyethylene Biogas Digester (PBD)|Experience with Polyethylene Biogas Digester (PBD) from some countries]] | | *[[Experience with Polyethylene Biogas Digester (PBD)|Experience with Polyethylene Biogas Digester (PBD) from some countries]] |
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− | == Variation <span data-scayt_word="Tyre" data-scaytid="363">Tyre</span> Tube Household Digester<br/> == | + | == Variation Tyre Tube Household Digester<br/> == |
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| *[[TyreTube Biogas Plant|Biogas Plant Variation tyre tube household digester]] | | *[[TyreTube Biogas Plant|Biogas Plant Variation tyre tube household digester]] |
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| [[Fixed-dome_Biogas_Plants#toc|►Go to Top]]<br/> | | [[Fixed-dome_Biogas_Plants#toc|►Go to Top]]<br/> |
There are different types of small scale biogas digesters. Some of the biogas digesters are summarized below:
In the case of the Low-Cost Polyethylene Tube Digester model which is applied in Bolivia (Peru, Ecuador, Colombia, Centro America and Mexico), the tubular polyethylene film (two coats of 300 microns) is bendedat each end around a 6 inch PVC drainpipe and is wound with rubber strap of recycled tire-tubes. With this system a hermetic isolated tank is obtained (figure td1 ).
The capacity of the gasholder corresponds to 1/4 of the total capacity of the reaction tube (figure td1). To overcome the problem of low gas flow rates, two 200 microns tubular polyethylene reservoirs are installed close to the kitchen, which gives a 1,3 m³ additional gas storage (picture td4).
To contrast these simple biogas plants, figure 2 gives an impression about dimensions of industrial plants which are, for example, built in Europe.