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Is it really the end of internal combustion engines and petroleum in transport?

Recurso electrónico / electronic resource
MARC record
Tag12Value
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001  MAP20180019098
003  MAP
005  20180705144021.0
008  180626e20180601esp|||| ||| ||eng d
040  ‎$a‎MAP‎$b‎spa‎$d‎MAP
084  ‎$a‎892.5
1001 ‎$0‎MAPA20180008900‎$a‎Kalghatgi, Gautam
24510‎$a‎Is it really the end of internal combustion engines and petroleum in transport?‎$c‎Gautam Kalghatgi
500  ‎$a‎Documento ASEPA , Nº 130 junio 2018
520  ‎$a‎Transport is almost entirely powered by internal combustion engines (ICEs) burning petroleum-derived liquid fuels and the global demand for transport energy is large and is increasing. Available battery capacity will have to increase by several hundred fold for even light duty vehicles (LDVs), which account for less than half of the global transport energy demand, to be run on electricity alone. However the greenhouse gas (GHG) impact of battery electric vehicles (BEVs) would be worse than that of conventional vehicles if electricity generation and the energy used for battery production are not sufficiently decarbonized. If coal continues to be a part of the energy mix, as it will in China and India, and if power generation is near urban centers, even local urban air quality in terms of particulates, nitrogen oxides and sulfur dioxide would get worse. The human toxicity impacts associated with the mining of metals needed for batteries are very serious and will have to be addressed. Large prior investments in charging infrastructure and electricity generation will be needed for widespread forced adoption of BEVs to occur. There will be additional costs in the short term associated with various subsidies required to promote such a change and in the longer term, the loss of revenue from fuel taxes which contribute significantly to public finances in most countries. ICEs will continue to power transport, particularly comercial transport, to a large extent for decades to come and will continue to improve. There will also be a role for lowcarbon and other alternative fuels where they make sense. However such alternatives also start from a low base and face constraints on rapid and unlimited growth so that they are unlikely to make up much more than 10% of the total transport energy demand by 2040. As the energy system is decarbonized and battery technology improves there will be an increasing role for BEVs and hydrogen which could replace liquid hydrocarbons in transport and the required infrastructure will evolve. Meanwhile, there will certainly be increasing electrification, particularly of LDVs in the form of hybridization to improve ICEs.
650 4‎$0‎MAPA20080602673‎$a‎Motores de combustión
650 4‎$0‎MAPA20100011164‎$a‎Vehículos eléctricos
650 4‎$0‎MAPA20080601201‎$a‎Energías alternativas
650 4‎$0‎MAPA20080574901‎$a‎Calidad del aire
650 4‎$0‎MAPA20080548599‎$a‎Petróleo
650 4‎$0‎MAPA20080544058‎$a‎Gasóleo
7102 ‎$0‎MAPA20180003660‎$a‎Asociación Española de Profesionales de la Automoción
7730 ‎$t‎Applied Energy.- Amsterdam : Reed Elsevier‎$g‎nº 225 (2018); p. 965974
830 0‎$0‎MAPA20180003677‎$a‎Documentos Asepa