Difference between revisions of "Solar Home System (SHS) - Climate Protection"
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*<span>"</span><span>During a previous analysis of 8 case studies, it was found roughly '''0.25 tons of CO2''' per average system of 44 Wp per year would represent a conservative but reasonable global value. […] 70% of the analysed emission reductions were actually higher than 250 kg."<ref>Martens et al. (2001): Towards a streamlined CDM process for Solar Home Systems.</ref></span> | *<span>"</span><span>During a previous analysis of 8 case studies, it was found roughly '''0.25 tons of CO2''' per average system of 44 Wp per year would represent a conservative but reasonable global value. […] 70% of the analysed emission reductions were actually higher than 250 kg."<ref>Martens et al. (2001): Towards a streamlined CDM process for Solar Home Systems.</ref></span> | ||
| − | = Further Reading = | + | = Further Reading = |
[http://www.energypedia.info/images/a/af/Posorski_does_the_use_of_shs_contribute_to_climate_protection.pdf Posorski, Rolf et al.: Does the use of Solar Home Systems (SHS) contribute to climate protection?, 2002, Renewable Energy, Volume 28, Number 7, June 2003, pp. 1061-1080 (20). ]<br> | [http://www.energypedia.info/images/a/af/Posorski_does_the_use_of_shs_contribute_to_climate_protection.pdf Posorski, Rolf et al.: Does the use of Solar Home Systems (SHS) contribute to climate protection?, 2002, Renewable Energy, Volume 28, Number 7, June 2003, pp. 1061-1080 (20). ]<br> | ||
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[http://www.energypedia.info/images/0/03/Repp_rural_electrification_with_solar_energy_as_a_climate_protection_strategy.pdf REPP: Steven Kaufman: Rural Electrification with Solar Energy as a Climate Protection Strategy, Research Report No. 9, 2000.] | [http://www.energypedia.info/images/0/03/Repp_rural_electrification_with_solar_energy_as_a_climate_protection_strategy.pdf REPP: Steven Kaufman: Rural Electrification with Solar Energy as a Climate Protection Strategy, Research Report No. 9, 2000.] | ||
| − | [http://www.ecn.nl/docs/library/report/2001/b01020.pdf Martens et al. (2001): Towards a streamlined CDM process for Solar Home Systems.] | + | [http://www.ecn.nl/docs/library/report/2001/b01020.pdf Martens et al. (2001): Towards a streamlined CDM process for Solar Home Systems.] |
| − | = References = | + | = References = |
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| − | + | [[Category:Solar]][[Category:Impacts]][[Category:Carbon_Market]] | |
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Revision as of 13:59, 28 June 2010
GHG reduction potential of SHS
- "Savings of 9 tonnes of CO2 equivalent GHG emissions within a 20-year period of use of one single 50 Wp SHS"; => 0.45 t CO2/year[1]
- "Typical SHS of 10-50 Wp will directly displace roughly 0.15-0.30 tons of CO2 per year through fuel substitutions mostly of kerosene."[2]
- "During a previous analysis of 8 case studies, it was found roughly 0.25 tons of CO2 per average system of 44 Wp per year would represent a conservative but reasonable global value. […] 70% of the analysed emission reductions were actually higher than 250 kg."[3]
Further Reading
Martens et al. (2001): Towards a streamlined CDM process for Solar Home Systems.
References
- ↑ Posorski, Rolf et al.: Does the use of Solar Home Systems (SHS) contribute to climate protection?, 2002, Renewable Energy, Volume 28, Number 7, June 2003, pp. 1061-1080 (20).
- ↑ REPP: Steven Kaufman: Rural Electrification with Solar Energy as a Climate Protection Strategy, Research Report No. 9, 2000.
- ↑ Martens et al. (2001): Towards a streamlined CDM process for Solar Home Systems.
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