气候变化领域集成服务门户(CCPortal): Chemically and physically robust, commercially-viable iron-based composite oxygen carriers sustainable over 3000 redox cycles at high temperatures for chemical looping applications

CCPortal

DOI	10.1039/c7ee02657a
	Chemically and physically robust, commercially-viable iron-based composite oxygen carriers sustainable over 3000 redox cycles at high temperatures for chemical looping applications
	Chung C.; Qin L.; Shah V.; Fan L.-S.
发表日期	2017
ISSN	17545692
起始页码	2318
结束页码	2323
卷号	10 期号:11
英文摘要	High attrition of oxygen carriers from ionic diffusion induced morphological changes is one of the most serious obstacles inhibiting commercialization of chemical looping processes. By confining active oxygen carriers in an Al-based skeleton, a low-cost oxygen carrier achieving high chemical and physical stability over 3000 TGA redox cycles with exceptional attrition resistance and reactivity in a high pressure and temperature, chemical looping moving bed pilot plant, is enabled for commercial implementation. © The Royal Society of Chemistry 2017.
英文关键词	Ionization of gases; Oxygen; Pilot plants; Attrition resistances; Chemical-looping process; Commercial implementation; High temperature; High-pressure and temperatures; Iron based composite; Morphological changes; Physical stability; Chemical stability; aluminum; chemical reaction; composite; high pressure; high temperature; iron; oxygen; pressure effect; redox conditions; temperature effect
语种	英语
来源期刊	Energy & Environmental Science
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/190373
作者单位	William G. Lowrie Department of Chemical and Biomolecular Engineering, Ohio State University, 151 W. Woodruff Ave, Columbus, OH 43210, United States
推荐引用方式 GB/T 7714	Chung C.,Qin L.,Shah V.,et al. Chemically and physically robust, commercially-viable iron-based composite oxygen carriers sustainable over 3000 redox cycles at high temperatures for chemical looping applications[J],2017,10(11).
APA	Chung C.,Qin L.,Shah V.,&Fan L.-S..(2017).Chemically and physically robust, commercially-viable iron-based composite oxygen carriers sustainable over 3000 redox cycles at high temperatures for chemical looping applications.Energy & Environmental Science,10(11).
MLA	Chung C.,et al."Chemically and physically robust, commercially-viable iron-based composite oxygen carriers sustainable over 3000 redox cycles at high temperatures for chemical looping applications".Energy & Environmental Science 10.11(2017).