Life-cycle analysis of energy use and greenhouse gas emissions of gas-to-liquid fuel pathway from steel mill off-gas in China by the LanzaTech process

The LanzaTech process can convert carbon monoxide-containing gases produced by industries, such as steel manufacturing, into valuable fuel products. The life-cycle analysis （LCA） of energy use and greenhouse gas emissions from the LanzaTech process has been developed for a Chinese setting using the...

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Veröffentlicht in:	Frontiers in Energy 2013-09, Vol.7 (3), p.263-270
Hauptverfasser:	OU, Xunmin, ZHANG, Xu, ZHANG, Qian, ZHANG, Xiliang
Format:	Artikel
Sprache:	eng
Schlagworte:	Air pollution Analysis Biofuels Biomass energy Carbon monoxide Chemicals China Coal Emission analysis Emissions Emissions control Energy Energy conservation Energy consumption Energy Systems Energy use Ethanol gas-to-liquid (GTL) Gasoline Greenhouse effect Greenhouse gases LanzaTech process Life cycle analysis life-cycle analysis (LCA) Manufacturing Natural gas Research Article Steel industry Steel making Steel production Studies Vehicles 中国尾气工艺途径液体燃料温室气体排放量生命周期分析能源使用钢厂
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container_title	Frontiers in Energy
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creator	OU, Xunmin ZHANG, Xu ZHANG, Qian ZHANG, Xiliang
description	The LanzaTech process can convert carbon monoxide-containing gases produced by industries, such as steel manufacturing, into valuable fuel products. The life-cycle analysis （LCA） of energy use and greenhouse gas emissions from the LanzaTech process has been developed for a Chinese setting using the original Tsinghua China Automotive LCA model along with a customized module developed principally for the process. The LCA results demonstrate that LanzaTech gas-to-liquid （GTL） processing in China＇s steel manufacturing is favorable in terms of life-cycle fossil energy and can reduce greenhouse gas emissions by approximately 50% compared with the conventional petroleum gasoline. The LanzaTech process, therefore, shows advantages in both energy-savings and a reduction in greenhouse gas emissions when compared with most bio-ethanol production pathways in China.
doi_str_mv	10.1007/s11708-013-0263-9
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Energy</addtitle><addtitle>Frontiers in Energy</addtitle><description>The LanzaTech process can convert carbon monoxide-containing gases produced by industries, such as steel manufacturing, into valuable fuel products. The life-cycle analysis （LCA） of energy use and greenhouse gas emissions from the LanzaTech process has been developed for a Chinese setting using the original Tsinghua China Automotive LCA model along with a customized module developed principally for the process. The LCA results demonstrate that LanzaTech gas-to-liquid （GTL） processing in China＇s steel manufacturing is favorable in terms of life-cycle fossil energy and can reduce greenhouse gas emissions by approximately 50% compared with the conventional petroleum gasoline. 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(LCA)</subject><subject>Manufacturing</subject><subject>Natural gas</subject><subject>Research Article</subject><subject>Steel industry</subject><subject>Steel making</subject><subject>Steel 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subjects	Air pollution Analysis Biofuels Biomass energy Carbon monoxide Chemicals China Coal Emission analysis Emissions Emissions control Energy Energy conservation Energy consumption Energy Systems Energy use Ethanol gas-to-liquid (GTL) Gasoline Greenhouse effect Greenhouse gases LanzaTech process Life cycle analysis life-cycle analysis (LCA) Manufacturing Natural gas Research Article Steel industry Steel making Steel production Studies Vehicles 中国尾气工艺途径液体燃料温室气体排放量生命周期分析能源使用钢厂
title	Life-cycle analysis of energy use and greenhouse gas emissions of gas-to-liquid fuel pathway from steel mill off-gas in China by the LanzaTech process
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