期刊
ENVIRONMENTAL SCIENCE & TECHNOLOGY
卷 46, 期 14, 页码 7865-7874出版社
AMER CHEMICAL SOC
DOI: 10.1021/es300718h
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资金
- Alberta Innovates-Energy and Environment Solutions
- Natural Resources Canada
- Carbon Management Canada
- AUTO21 NCEs
- Oil Sands Industry Consortium
Life cycle greenhouse gas (GHG) emissions associated with two major recovery and extraction processes currently utilized in Alberta's oil sands, surface mining and in situ, are quantified. Process modules are developed and integrated into a life cycle model-GHOST (Green House gas emissions of current Oil Sands Technologies) developed in prior work Recovery and extraction of bitumen through surface mining and in situ processes result in 3-9 and 9-16 g CO(2)eq/MJ bitumen, respectively; upgrading emissions are an additional 6-17 g CO(2)eq/MJ synthetic crude oil (SCO) (all results are on a HHV basis). Although a high degree of variability exists in well-to-wheel emissions due to differences in technologies employed, operating conditions, and product characteristics, the surface mining dilbit and the in situ SCO pathways have the lowest and highest emissions, 88 and 120 g CO(2)eq/MJ reformulated gasoline. Through the use of improved data obtained from operating oil sands projects, we present ranges of emissions that overlap with emissions in literature for conventional crude oil. An increased focus is recommended in policy discussions on understanding interproject variability of emissions of both oil sands and conventional crudes, as this has not been adequately represented in previous studies.
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