In this paper, an overview on the subject of materials and renewable energy, mainly from the research point of view, is carried out. Energy and materials are nowadays driving science and technology. There is a search for cleaner, cheaper and more efficient energy production, and this is obviously related to the development of new and innovative materials. As energy is a top European priority, materials research can enable Europe to meet its future energy and climate goals. The importance of raw materials for the energy sector and the future of advanced materials for low carbon energy are addressed. Materials-based solutions to the energy problem and guidance on research in this field are also the aim of this paper.
Información de la revista
Vol. 28. Núm. 2.
Páginas 124-129 (julio - diciembre 2016)
Vol. 28. Núm. 2.
Páginas 124-129 (julio - diciembre 2016)
Special Issue on New Challenges in Energy Materials
Acceso a texto completo
Research on materials and renewable energy
Visitas
3312
Luís Gil
Direção Geral de Energia e Geologia, Avenida 5 de Outubro 208, 1069-203 Lisboa, Portugal
Este artículo ha recibido
Información del artículo
Abstract
Keywords:
Materials
energy research
energy technology
critical materials
El Texto completo está disponible en PDF
References
[1]
http://www.worldscientific.com/series/mae, accessed on 3rd May 2016.
[2]
Materials for Energy, SETIS Magazine, 8 (2015).
[3]
Report on Forward Looking Workshop on Materials for Emerging Energy Technologies Edited by Dr. Johan Veiga Benesch, Directorate-General for Research and Innovation Industrial Technologies Material Unit, 2012. http://www.gppq.fct.pt/h2020/_docs/brochuras/nmpb/emerging-materials-report_en.pdf accessed on 3rd May 2016.
[4]
http://ec.europa.eu/research/industrial_technologies/materials_en.html, accessed on 3rd May 2016.
[5]
F. Stassin.
Input by EMIRI on Action 4 of Integrated SET Plan.
European Union Steering Group for SETs, (2016),
[6]
Technology and market perspective for future Value Added Materials, Final Report from Oxford Research AS, DG R&I Industrial Technologies, 2014. http://ec.europa.eu/research/industrial_technologies/pdf/technology-market-perspective_en.pdf accessed on 6th May 2016.
[7]
H. Badenhorst, N. Fox, A. Mutalib.
Carbon, 99 (2016), pp. 17
[8]
A. Miliozzi, R. Liberatore, T. Crescenzi, E. Vera.
Energy Procedia, 82 (2015), pp. 730
[9]
L. Guerreiro, L. Thermal energy storage: new concepts. 3° Seminário IPES – A concentração solar e o futuro. Évora, 2016.
[10]
G. Cáceres, M. Montané, S. Nasirov, R. O¿Ryan.
Sustainability, 8 (2016), pp. 106
[11]
IRENA, Wave Energy - Technology Brief, (2014),
[12]
G. Olalde, G. Flamant.
Solar high-temperature processes for industry [solar calcination], 3° Seminário IPES – A concentração solar e o futuro, Évora, (2016),
[13]
F.A.C. Oliveira.
Solar processing of refractory materials, 3° Seminário IPES – A concentração solar e o futuro, Évora, (2016),
[14]
F.A.C. Oliveira, N. Shohoji, J.C. Fernandes, L.G. Rosa.
Solar Energy, 78 (2015), pp. 351
[15]
J. Lemos, Control of concentration solar plants, 3° Seminário IPES – A concentração solar e o futuro, Évora, 2016.
[16]
Materials roadmap enabling low carbon energy technologies, European Commission SEC (2011) 1609, https://ec.europa.eu/research/industrial_technologies/pdf/materials-roadmap-elcet-13122011_en.pdf accessed on 6th May 2016.
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