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Reduction of Environmental Impacts in Crystalline Silicon Photovoltaic Technology: An Analysis of Driving Forces and Opportunities

Published online by Cambridge University Press:  01 February 2011

Erik Alsema
Affiliation:
[email protected], Utrecht University, Copernicus Institute, Heidelberglaan 2, Utrecht, N/A, Netherlands, +31-30-2537618
Mariska de Wild-Scholten
Affiliation:
[email protected], Energy research Centre of the Netherlands (ECN), Unit Solar Energy, Westerduinweg 3, Petten, N/A, Netherlands
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Abstract

We give an overview of historical developments with respect to the price and the Energy Pay-Back Time of crystalline silicon photovoltaic modules. We investigate the drivers behind both developments and observe that there is a large overlap between them. Reduction of silicon consumption, improved cell efficiency and the production technology for solar grade silicon have been identified as major drivers for both cost and impact reductions in the past. Also we look into future prospects for reduction of environmental impacts. It is estimated that developments underway to reduce costs will also result in a reduction of the Energy Pay-Back Time of a PV installation (in South-Europe) from 1.5-2.0 year presently to well below 1 year.

Type
Research Article
Copyright
Copyright © Materials Research Society 2008

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References

1.Strategies Unlimited, Photovoltaic Five-Year Market Forecast 2002-2007, Strategies Unlimited Mountain View, California, USA, 2003.Google Scholar
2. Swanson, , RM, , A Vision for Crystalline Silicon Photovoltaics, Progress In Photovoltaics: Research and Applications, 2006, 14: p. 443453.Google Scholar
3. Hirschman, , WP, , Hering, G, and Schmela, M, Market survey on global solar cell and module production in 2006, in Photon International, 2007, p. 136166.Google Scholar
4. Hunt, LP. Total energy use in the production of silicon solar cells from raw materials to finished product, in 12th IEEE Photovoltaic Specialists Conference, Baton Rouge, LA, USA, 1976, p. 347–252.Google Scholar
5. Hagedorn, G. and Hellriegel, E., Umwelrelevante Masseneinträge bei der Herstellung verschiedener Solarzellentypen - Endbericht - Teil I: Konventionelle Verfahren, Forschungstelle für Energiewirtschaft, München, Germany, 1992.Google Scholar
6. Alsema, E.A., Frankl, P., and Kato, K.. Energy Pay-back Time of Photovoltaic Energy Systems: Present Status and Prospects, in 2nd World Conference on Photovoltaic Solar Energy Conversion, Vienna, 6-10 July, 1998 Google Scholar
7. Alsema, E. and Wild-Scholten, M.J.. Environmental Impacts of Crystalline Silicon Photovoltaic Module Production, in Materials Research Society Fall 2005 Meeting, Warrendale, USA, 2005, Materials Research Society Google Scholar
8. Alsema, E.A. and Wild-Scholten, M.J. de. Reduction of the Environmental Impacts in Crystalline Silicon Module Manufacturing, in 22nd European Photovoltaic Solar Energy Conference, Milano, 2007, WIP-Renewable Energies, Munich, Germany Google Scholar
9. Jungbluth, N, Photovoltaics, in Sachbilanzen von Energiesystemen: Grundlagen für den ökologischen Vergleich von Energiesystemen und den Einbezug von Energiesystemen in Ökobilanzen für die Schweiz, Final report ecoinvent v2.0 No. 6, Dones, R., Editor, 2007, Swiss Centre for Life Cycle Inventories: Duebendorf, CH.Google Scholar
10. , Wild-Scholten, de, M.J. and Alsema, E.A., Environmental Life Cycle Inventory of Crystalline Silicon Photovoltaic Module Production, version 2, status 2005/2006, 2007, ECN, Petten, p. Excel file, http://www.ecn.nl/docs/library/report/2007/e07026-LCIdata-cSiPV-pubv2_0.xls.Google Scholar
11. Friestad, K. in 19th European Photovoltaic Solar Energy Conference, Paris, 2004 Google Scholar
12. Aulich, , HA, and Schulze, F-W. Silicon for the PV industry: demand, supply and growth prospects, in 21st European Photovoltaic Solar Energy Conference, Dresden, 2006, p. 549553.Google Scholar
13. Sinke, WC Crystal Clear roadmap, v3, draft, CrystalClear Consortium, 2006.Google Scholar
14. Alsema, E.A., Wild-Scholten, M.J. de, and Fthenakis, V. Environmental Impacts of PV Electricity Generation - A Critical Comparison of Energy Supply Options, in 21st European Photovoltaic Solar Energy Conference, Dresden, 2006, WIP-Renewable Energies, Munich, Germany, p. 32013207.Google Scholar