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Geothermal Energy Chapter 4 DRET, 2008: Australian Geothermal Industry Development Framework. Department of Resources, Energy and Tourism, Commonwealth of Australia, Canberra, Australia. (ISBN 978-1-921516-11-5 [paperback], ISBN 978-1-921516-15-3 [pdf]). Available at: www.ret.gov.au/energy/clean_energy_technologies/energy_ technology_framework_and_roadmaps/hydrogen_technology_roadmap/ Documents/GEOTHERMAL%20FRAMEWORK.pdf. ENGINE (2008). Propositions for the definition of research areas on Enhanced Geothermal Systems. ENGINE Newsletter No. 11 – June 2008, Enhanced Geothermal Innovative Network for Europe, Orléans, France, pp. 4-7. Available at: engine.brgm. fr/bulletins/ENGINE_Newsletter11_062008.pdf. Entingh, D.J., and G. Mines (2006). A framework for evaluating research to improve U.S. geothermal power systems. Transactions of the Geothermal Resources Council, 30, pp. 741-746. EPRI (1978). Geothermal Energy Prospects for the Next 50 Years – ER-611-SR, Special Report for the World Energy Conference. Electric Power Research Institute, Palo Alto, CA, USA. Frick, S., G. Schröder, and M. Kaltschmitt (2010). Life cycle analysis of geothermal binary power plants using enhanced low temperature reservoirs. Energy, 35(5), pp. 2281-2294. Fridleifsson, I.B., and A. Ragnarsson (2007). Geothermal energy. In: 2007 Survey of Energy Resources. World Energy Council, London, UK, pp. 427-437 (ISBN: 0946121 26 5). Available at: www.worldenergy.org/documents/ser2007_final_ online_version_1.pdf. Fridleifsson, I.B., R. Bertani, E. Huenges, J.W. Lund, A. Ragnarsson, and L. Rybach (2008). The possible role and contribution of geothermal energy to the mitiga- tion of climate change. In: IPCC Scoping Meeting on Renewable Energy Sources, Luebeck, Germany, 21-25 January 2008, pp. 36. Available at: www.ipcc.ch/pdf/ supporting-material/proc-renewables-lubeck.pdf. Fridleifsson, G.O., B. Pálsson, B. Stefánsson, A. Albertsson, E. Gunnlaugsson, J. Ketilsson, R. Lamarche, and P.E. Andersen (2010). Iceland Deep Drilling Project. The first IDDP drill hole drilled and completed in 2009. In: Proceedings World Geothermal Congress 2010, Bali, Indonesia, 25-29 April, 2010. Available at: www.geothermal-energy.org/pdf/IGAstandard/WGC/2010/3902.pdf. Gawell, K., and G. Greenberg. (2007). 2007 Interim Report. Update on World Geothermal Development. Geothermal Energy Association, Washington, DC, USA. Available at: www.geo-energy.org/reports/GEA%20World%20Update%20 2007.pdf. German, C.R., G.P. Klinkhammer, and M.D. Rudnicki (1996). The Rainbow Hydrothermal Plume, 36°15’N, MAR. Geophysical Research Letters, 23(21), pp. 2979-2982. Goldstein, B.A., A.J. Hill, A. Long, A.R. Budd, B. Ayling, and M. Malavazos (2009). Hot rocks down under – Evolution of a new energy industry. Transactions of the Geothermal Resources Council, 33, pp. 185-198. Goldstein, B.A., G. Hiriart, J.W. Tester, R. Bertani, C.J. Bromley, L.C. Gutiérrez- Negrín, E. Huenges, A. Ragnarsson, M.A. Mongillo, H. Muraoka, and V.I. Zui (2011). Great expectations for geothermal energy to 2100. In: Proceedings of the Thirty-Sixth Workshop of Geothermal Reservoir Engineering, Stanford University, Stanford, CA, 31 January – 2 February 2011, SGP-TR-191, pp. 5-12. Grant, M.A., I.G. Donaldson, and P.F. Bixley (1982). Geothermal Reservoir Engineering. Academic Press, New York, NY, USA. GTP (2008). Geothermal Tomorrow 2008. DOE-GO-102008-2633, Geothermal Technologies Program of the US Department of Energy, Washington, DC, USA, 36 pp. Gutiérrez-Negrín, L.C.A., R. Maya-González, and J.L. Quijano-León (2010). Current status of geothermics in Mexico. In: Proceedings World Geothermal Congress 2010, Bali, Indonesia, 25-29 April 2010. Available at: www.geothermal- energy.org/pdf/IGAstandard/WGC/2010/0101.pdf. Hamza, V.M., R.R. Cardoso, and C.F.P. Neto (2008). Spherical harmonic analysis of Earth’s conductive heat flow. International Journal of Earth Sciences, 97(2), pp. 205-226. Hance, C.N. (2005). Factors Affecting Costs of Geothermal Power Development. Geothermal Energy Association, for the U.S. Department of Energy, Washington, DC, USA, 64 pp. Available at: www.geo-energy.org/reports/Factors%20 Affecting%20Cost%20of%20Geothermal%20Power%20Development%20 -%20August%202005.pdf. Hettkamp, T., J. Baumgärtner, D. Teza, P. Hauffe, and B. Rogulic (2010). Erfahrungen aus dem Geothermieprojekt in Landau (Experience from the geothermal project in Landau). Institute for Geotechnik at TU Bergakademie, Freiberg, Publisher: H. Konietzky, S., pp. 43-54 (ISSN 1611-1605). Hiriart, G. (2007). Impacto del cambio climático sobre la generación eléctrica con fuente de energía geotérmica (Impact of climate change on power generation from geothermal energy source). In: Escenarios de energías renovables en México bajo cambio climático. A. Tejeda-Martínez, C. Gay-García, G. Cuevas-Guillaumín and C.O. Rivera-Blanco (eds.), pp. 83-105. Available at: www.ine.gob.mx/descar- gas/cclimatico/e2007q.pdf. Hiriart, G., and S. Espíndola (2005). Aprovechamiento de las ventilas hidroter- males para generar electricidad. In: Memorias de la VIII Conferencia Anual de la AMEE, Colegio de México, 28-29 November 2005, pp. 153-159. Available at: http://www.iie.org.mx/economia-energetica/MemoriasVIIIConfAnualAMEE.pdf. Hiriart, G., R.M. Prol-Ledesma, S. Alcocer, and S. Espíndola (2010). Submarine geothermics: Hydrothermal vents and electricity generation. In: Proceedings World Geothermal Congress 2010, Bali, Indonesia, 25-29 April, 2010. Available at: http://www.geothermal-energy.org/pdf/IGAstandard/WGC/2010/3704.pdf. Hjartarson, A., and J.G. Einarsson (2010). Geothermal resources and properties of HS Orka, Reyjanes Peninsula, Iceland. Independent Technical Report prepared by Mannvit Engineering for Magma Energy Corporation, Vancouver, Canada, 151 pp. Available upon request at: www.mannvit.com. Holm, A., L. Blodgett, D. Jennejohn, and K. Gawell (2010). Geothermal Energy: International Market Update. The Geothermal Energy Association, Washington, DC, USA, 77 pp. Available at: www.geo-energy.org/pdf/reports/ GEA_International_Market_Report_Final_May_2010.pdf. Huenges, E., and S. Frick (2010). Costs of CO2 mitigation by deployment of Enhanced Geothermal Systems plants. In: Proceedings World Geothermal Congress 2010, Bali, Indonesia, 25-30 April 2010. Available at: www.geothermal-energy.org/pdf/ IGAstandard/WGC/2010/0238.pdf. Huenges, E., K. Erbas, I. Moeck, G. Blöcher, W. Brandt, T. Schulte, A. Saadat, G. Kwiatek, and G. Zimmermann (2009). The EGS project Groß Schönebeck – Current status of the large scale research project in Germany. Transactions of the Geothermal Resources Council, 39, pp. 403-408. IEA (2009). World Energy Outlook 2009. International Energy Agency, Paris, France, 696 pp. 434PDF Image | Geothermal Energy 4
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