Nuclear energy and bio energy carbon capture and storage, keys for obtaining 1.5°C mean surface temperature limit.

Autor:	Berger, André1 andre.berger@uclouvain.be, Blees, Tom2 tomsciencecouncil@gmail.com, Breon, Francois-Marie3 breon@lsce.ipsl.fr, Brook, Barry W.4 Barry.Brook@utas.edu.au, Deffrennes, Marc5 marc.deffrennes@hotmail.com, Durand, Bernard6 bledor@wanadoo.fr, Hansen, Philippe7 hansenph@wanadoo.fr, Huffer, Elisabeth7 ehuffer@sfr.fr, Grover, Ravi B.8 rbgrover@hbni.ac.in, Guet, Claude9 claude.guet@gmail.com, Weiping Liu10 wpliu@ciae.ac.cn, Livet, Frederic11 frederic.livet@simap.grenoble-inp.fr, Nifenecker, Herve12 herve.nifenecker@free.fr, Petit, Michel7 michel.petit@m4x.org, Pierre, Gérard13 gerard.pierre18@wanadoo.fr, Prévot, Henri7 henri.prevot@wanadoo.fr, Richet, Sébastien7 vbmcc@scarlet.be, Safa, Henri14 Henri.safa@cea.fr, Salvatores, Massimo15 salvatoresmassimo@orange.fr, Schneeberger, Michael7 m.schneeberger@nosuchhost.net
Předmět:	*Nuclear energy *Power resources *Energy development
Zdroj:	International Journal of Global Energy Issues. 2017, Vol. 40 Issue 3/4, p240-254. 15p.
Abstrakt:	A rapid development of nuclear energy production reaching 173 EJ/y in 2060 and 605 EJ/y in 2110 limits the Global Mean Surface Temperature (GMST) increase to 1.5°C with respect to preindustrial value, with a reduction of the stored carbon dioxide from 800 Gt in the original MESSAGE-Efficiency scenario to 275 Gt in the present one, while multiplying by 6 the Total Primary Energy Supply between 2015 and 2110. [ABSTRACT FROM AUTHOR]
Databáze:	GreenFILE
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