Nuclear fusion and its large potential for the future world energy supply

1. United Nations. (2013). World population prospects: the 2012 revision. New York: UN. Retrieved from https://esa.un.org/unpd/wpp/publications/Files/WPP2012_HIGHLIGHTS.pdf.Search in Google Scholar

2. U.S. Energy Information Administration. (2015). International energy statistics. Retrieved from http://www.eia.gov/cfapps/ipdbproject/IEDIndex3.cfm.Search in Google Scholar

3. MacKay, D. J. C. (2009). Sustainable energy - without the hot air. Cambridge, UK: UIT. Retrieved from www. withouthotair.com.Search in Google Scholar

4. Kleemann, M. (1991). Aktuelle wirtschaftliche und ökologische Probleme bei der Nutzung regenerativer Energiequellen. Elektrowärme Int., 49(A2), A62-A70.Search in Google Scholar

5. UK Parliamentary Offi ce of Science and Technology. (October 1, 2006). Carbon footprint of electricity generation. (POSTnote 06/268). Retrieved from http://researchbriefings.parliament.uk/ResearchBriefing/Summary/POST-PN-268.Search in Google Scholar

6. China: Villagers protest at Zhejiang solar panel plant. (September 16, 2011). BBC News. Retrieved from http://www.bbc.co.uk/news/world-asia-pacific-14963354.Search in Google Scholar

7. Miller, L. M., Gans, F., & Kleidon, A. (2011). Estimating maximum global land surface wind power extractability and associated climatic consequences. Earth Syst. Dynam., 2, 1-12.10.5194/esd-2-1-2011Search in Google Scholar

8. Jefferson, M. (2011). Energy efficiency and sustainability. In Proceedings of the 44th Session of the International Seminar on Nuclear War and Planetary Emergencies, Erice (Italy), August 19-24, 2011.Search in Google Scholar

9. Frondel, M., Ritter, N., Schmidt, C. M., & Vance, C. (2010). Economic impacts from the promotion of renewable energies: The German experience. Energy Policy, 38, 4048-4056.10.1016/j.enpol.2010.03.029Search in Google Scholar

10. Poser, H., Altman, J., ab Egg, F., Granata, A., & Board, R. (July 2014). Development and integration of renewable energy: lessons learned from Germany. Aldiswil, Switerland: Finadvice. Retrieved from http://www.finadvice.ch/files/germany_lessonslearned_final_071014.pdf.Search in Google Scholar

11. Atzeni, S., & Meyer-ter-Vehn, J. (2004). The physics of inertial fusion: Beam plasma interaction, hydrodynamics, hot dense matter (Chapter 1). Oxford: Clarendon Press. Retrieved from http://fdslive.oup.com/ www.oup.com/academic/pdf/13/9780198562641.pdf.10.1093/acprof:oso/9780198562641.001.0001Search in Google Scholar

12. Angulo, C., Arnould, M., Rayet, M., Descouvemont, P., Baye, D., Leclercq-Willain, C., Coc, A., Barhoumi, S., Aguer, P., Rolfs, C., Kunz, R., Hammer, J. W., Mayer, A., Paradellis, T., Kossionides, S., Chronidou, C., Spyrou, K., Degl’Innocenti, S., Fiorentini, G., Ricci, B., Zavatarelli, S., Providencia, C., Wolters, H., Soares, J., Grama, C., Rahighi, J., Shotter, A., & Lamehi Rachti, M. (1999). A compilation of chargedparticle induced thermonuclear reaction rates. Nucl. Phys. A, 656(1), 3-183.10.1016/S0375-9474(99)00030-5Search in Google Scholar

13. Knaster, J., Arbeiter, F., Cara, P., Favuzza, P., Furukawa, T., Groeschel, F., Heidinger, R., Ibarra, A., Matsumoto, H., Mosnier, A., Serizawa, H., Sugimoto, M., Suzuki, H., & Wakai, E. (2013). IFMIF: overview of the validation activities. Nucl. Fusion, 53(11), 116001.10.1088/0029-5515/53/11/116001Search in Google Scholar

14. Knaster, J., Ibarra, A., Abal, J., Abou-Sena, A., Arbeiter, F., Arranz, F., Arroyo, J. M., Bargallo, E., Beauvais, P. -Y., Bernardi, D., Casal, N., Carmona, J. M., Chauvin, N., Comunian, M., Delferriere, O., Delgado, A., Diaz-Arocas, P., Fischer, U., Frisoni, M., Garcia, A., Garin, P., Gobin, R., Gouat, P., Groeschel, F., Heidinger, R., Ida, M., Kondo, K., Kikuchi, T., Kubo, T., Le Tonqueze, Y., Leysen, W., Mas, A., Massaut, V., Matsumoto, H., Micciche, G., Mittwollen, M., Mora, J. C., Mota, F., Nghiem, P. A. P., Nitti, F., Nishiyama, K., Ogando, F., O’hira, S., Oliver, C., Orsini, F., Perez, D., Perez, M., Pinna, T., Pisent, A., Podadera, I., Porfi ri, M., Pruneri, G., Queral, V., Rapisarda, D., Roman, R., Shingalam, M., Soldaini, M., Sugimoto, M., Theile, J., Tian, K., Umeno, H., Uriot, D., Wakai, E., Watanabe, K., Weber, M., Yamamoto, M., & Yokomine, T. (2015). The accomplishment of the engineering design activities of IFMIF/EVEDA: The European-Japanese project towards a Li(d,xn) fusion relevant neutron source. Nucl. Fusion, 55(8), 086003.10.1088/0029-5515/55/8/086003Search in Google Scholar

15. Maisonnier, D., Cook, I., Sardain, P., Andreani, R., Di Pace, L., Forrest, R., Giancarli, L., Hermsmeyer, S., Norajitra, P., Taylor, N., & Ward, D. (2005, April 13). A conceptual study of commercial fusion power plants. Final report of the European Fusion Power Plant conceptual study (PPCS). (EFDA-RP-RE-5.0).Search in Google Scholar

16. Keilhacker, M., Gibson, P., Gormezano, C., Lomas, P. J., Thomas, P. R., Watkins, M. L., Andrew, P., Balet, B., Borba, D., Challis, C. D., Coffey, I., Cottrell, G. A., De Esch, H. P. L., Deliyanakis, N., Fasoli, A., Gowers, C. W., Guo, H. Y., Huysmans, G. T. A., Jones, T. T. C., Kerner, W., König, R. W. T., Loughlin, M. J., Maas, A., Marcus, F. B., Nave, M. F. F., Rimini, F. G., Sadler, G. J., Sharapov, S. E., Sips, G., Smeulders, P., Söldner, F. X., Taroni, A., Tubbing, B. J. D., von Hellermann, M. G., Ward, D. J., & JET Team. (1999). High fusion performance from deuterium-tritium plasmas in JET. Nucl. Fusion, 39(2), 209-234.10.1088/0029-5515/39/2/306Search in Google Scholar

17. Jacquinot, J., & JET Team. (1999). Deuterium-tritium operation in magnetic confinement experiments: results and underlying physics. Plasma Phys. Control. Fusion, 41(3A), A13.10.1088/0741-3335/41/3A/002Search in Google Scholar