Difference between revisions of "Solar Home System (SHS) - Climate Protection"
From energypedia
***** (***** | *****) m |
***** (***** | *****) m |
||
| Line 1: | Line 1: | ||
| − | = GHG | + | = Green House Gas (GHG) Reduction Potential of Solar Home Systems (SHS)<br/> = |
| − | + | <span>"Savings of 9 tonnes of CO2 equivalent GHG emissions within a 20-year period of use of one single 50 Wp SHS"; </span><span>=> '''0.45 t CO2/year<ref>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).</ref>'''</span> | |
| − | |||
| − | |||
| − | |||
| − | *[[:file: | + | |
| − | *[[:file: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.]] | + | <span>"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."<ref>REPP: Steven Kaufman: Rural Electrification with Solar Energy as a Climate Protection Strategy, Research Report No. 9, 2000.</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<br/> = | ||
| + | |||
| + | *[[:file: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).]] | ||
| + | *[[:file: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 /> |
| − | |||
| − | + | [[Category:Carbon_Market]] | |
Revision as of 14:17, 5 June 2012
Green House Gas (GHG) Reduction Potential of Solar Home Systems (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
- 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.
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.
