全球智库信息集成服务系统(G2TT): Deep greenhouse gas reduction scenarios for California - Strategic implications from the CA-TIMES energy-economic systems model.

G2TT

来源类型	Article
规范类型	其他
DOI	10.1016/j.esr.2011.12.003
	Deep greenhouse gas reduction scenarios for California - Strategic implications from the CA-TIMES energy-economic systems model.
	McCollum DL; Yang C; Yeh S; Ogden J
发表日期	2012
出处	Energy Strategy Reviews 1 (1): 19-32
出版年	2012
语种	英语
摘要	California has taken a leading role in regulating greenhouse gas (GHG) emissions, requiring that its economy-wide emissions be brought back down to the 1990 level by 2020. The state also has a long-term aspirational goal of an 80 percent reduction below the 1990 level by 2050. While the steps needed to achieve the near-term target have already been clearly defined by California policy makers, the suit of transformational technologies and policies required to decarbonize the energy system over the long term have not yet been explored. This paper describes an effort to fill this important gap, introducing CA-TIMES, a bottom-up, technologically-rich, integrated energy-engineering-environmental-economic systems model that has been developed to guide the long-term policy planning process. CA-TIMES is useful for exploring low-carbon scenarios, and the analyses described here focus on the potential evolution of the transportation, fuel supply, and electric generation sectors over the next several decade in response to various energy and climate policies. We find that meeting California's 80% emission eduction goal can be achieved through a combination of mitigation strategies, including managing the growth in energy services demand, increasing investments in efficiency and low-carbon energy supply technologies, and promoting demand technologies that facilitate end-use device electrification and a decrease in the direct use of hydrocarbon fuel through efficiency improvement and fuel switching. In such deep emission reduction scenarios, we estimate that energy system costs (accounting for investments on the energy supply side and in transportation demand technologies, as well as fuel and O&M costs) could be around 8-17% higher than in a refeence case. Meanwhile, average abatement costs could range from $107 to $225/tCO2. These estimates are very much dependent on a range of socio-political and technological uncertainties, for instance, the availability and cost of biomass, nuclear power, carbon capture and storage, and electric and hydrogen vehicles.
主题	Energy (ENE)
关键词	Energy modeling Energy scenarios Climate change mitigation Transportation Alternative fuels
URL	http://pure.iiasa.ac.at/id/eprint/10004/
来源智库	International Institute for Applied Systems Analysis (Austria)
引用统计
资源类型	智库出版物
条目标识符	http://119.78.100.153/handle/2XGU8XDN/129420
推荐引用方式 GB/T 7714	McCollum DL,Yang C,Yeh S,et al. Deep greenhouse gas reduction scenarios for California - Strategic implications from the CA-TIMES energy-economic systems model.. 2012.