Open Access
| Issue |
Nat. Sci. Soc.
Volume 23, 2015
Les enjeux de la conférence de Paris. Penser autrement la question climatique
|
|
|---|---|---|
| Page(s) | S111 - S116 | |
| DOI | https://doi.org/10.1051/nss/2015023 | |
| Published online | 22 June 2015 | |
- Alet, C., 2015. François Hollande enterre discrètement un de ses engagements pour le climat, Alterecoplus, 23 janvier (online : http://www.alterecoplus.fr/environnement/francois-hollande-enterre-discretement-un-de-ses-engagements-pour-le-climat-201501230117-00000666.html?refresh=1). [Google Scholar]
- Baumberger, H., 1987. Globale Energieversorgungsengpässe ?, Bulletin SEV/VSE, 78, 2, 77-83. [Google Scholar]
- Enerpresse, 2015. Japon : hausse attendue des émissions de GES en 2030, 11292, 8. [Google Scholar]
- Finon, D., Damian, M., 2011, Le captage et le stockage du carbone, entre nécessité et réalisme, Natures Sciences Sociétés, 19, 1, 56-61. [CrossRef] [EDP Sciences] [Google Scholar]
- Heinberg, R., 2007. Peak coal: Sooner than you think, EnergyBulletin.net., May 21. [Google Scholar]
- IEA, 2010. Projected Costs of Generating Electricity. OECD/IEA, 83. [Google Scholar]
- IEA, 2012. World Energy Outlook 2012. OECD/IEA, 253. [Google Scholar]
- IEA, 2013. Resources to Reserves 2013: Oil, Gas and Coal Technologies for the Energy Markets of the Future. OECD/IEA, 43-44. [Google Scholar]
- IEA, 2014a. CO2 Emissions from Fuel Combustion. OECD/IEA. [Google Scholar]
- IEA, 2014b. World Energy Outlook 2014. OECD/IEA, 607. [Google Scholar]
- IEA, 2014c. Technology Roadmap Energy Storage. OECD/IEA, 21-33. [Google Scholar]
- IEA, 2014d. Energy, Climate Change Environment, 2014 Insights. OECD/IEA, 46-54. [Google Scholar]
- Laherrère, J., 2005. L’état des réserves des combustibles fossiles, in Bobin, J., Huffer, E., Nifenecker, H., L’Énergie de demain : techniques, environnement, économie, Les Ulis, EDP Sciences, 169-203. [Google Scholar]
- Li Junfenq, 2014. « La Chine devra limiter sa consommation de charbon », Entretien, Le Figaro, 13 décembre [traduit du Quotidien du Peuple]. [Google Scholar]
- McGlade, C., Ekins, P., 2015. The geographical distribution of fossil fuels unused when limiting global warming to 2 °C, Nature, 517, 7533, 187-190. [CrossRef] [PubMed] [Google Scholar]
- Martin-Amouroux, J.-M., 2008. Charbon, les métamorphoses d’une industrie, Paris, Éditions Technip. [Google Scholar]
- Martin-Amouroux, J.-M., 2009. Le grand retour du charbon, Futuribles, 357, 5-27. [Google Scholar]
- Martin-Amouroux, J.-M., 2015. Charbon : le Pacifique domine définitivement l’Atlantique, CCE International. La revue des Conseillers du Commerce Extérieur de la France, Le monde dans 20 ans, Spécial Perspectives 2015, 41-44. [Google Scholar]
- Werner, Z., Schindler, J., 2007. Coal: Resources and Future Production. Energy Watch Group, July 10. [Google Scholar]
- Yan Gu, 2013. Carbon Capture & Storage Policy in China. Columbia Law School, Center for Climate Change Law, 19-21, October (online: http://web.law.columbia.edu/sites/default/files/microsites/climate-change/files/Publications/Students/Yan%20Gu%20CCS%20Paper%20Final.pdf). [Google Scholar]
- Yip, A., 2014. US-China climate deal underscores need for substantial energy innovation, The Breakthrough Institute, December 9, (online: http://thebreakthrough.org/index.php/issues/decarbonization/us-china-climate-deal-underscores-need-for-substantial-energy-innovation). [Google Scholar]
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