期刊
APPLIED ENERGY
卷 147, 期 -, 页码 556-568出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.apenergy.2015.03.009
关键词
Underground coal gasification (UCG); Life cycle assessment (LCA); Hydrogen production; Carbon capture and sequestration (CCS); GHG emissions
资金
- NSERC/Cenovus/Alberta Innovates Associate Industrial Research Chair Program in Energy and Environmental Systems Engineering
- Cenovus Energy Endowed Chair Program in Environmental Engineering
Western Canada is endowed with considerable reserves of deep un-mineable coal, which can be converted to syngas by means of a gasification process called underground coal gasification (UCG). The syngas can be transformed into hydrogen (H-2) through commercially available technologies employed in conventional fossil-fuel based H-2 production pathways. This paper presents a data-intensive model to evaluate life cycle GHG emissions in H-2 production from UCG with and without CCS. Enhanced oil recovery (EOR) was considered as a sequestration method and included in the LCA. The life cycle GHG emissions are calculated to be 0.91 and 18.00 kg-CO2-eq/kg-H-2 in H-2 production from UCG with and without CCS, respectively. In addition, a detailed analysis of the influence of key UCG parameters, i.e., H2O-to-O-2 injection ratio, ground water influx, and steam-to-carbon ratio in syngas conversion, is completed on the results. The advantage of adopting UCG-CCS technology for H-2 production is realized over the predominant steam methane reforming (SMR) process; around 15.3 million tonnes of GHG emissions can be mitigated to achieve the projected SCO production rate from the bitumen upgrading in 2022. Furthermore, the sensitivity analysis showed that the life cycle GHG emissions is sensitive to the heat exchanger efficiency and the separation efficiency of the pressure swing adsorption (PSA) unit, with increasing values of these parameters causing an increase and a decrease in the magnitude of life cycle GHG emissions, respectively. (C) 2015 Elsevier Ltd. All rights reserved.
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