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Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation

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Zeitschriftentitel: Sustainable Energy & Fuels
Personen und Körperschaften: Huang, Liang, Xu, Chunming, Ren, Rongzheng, Zheng, Qianwen, Wang, Zhenhua, Louis, Benoît, Wang, Qiang
In: Sustainable Energy & Fuels, 2, 2018, 1, S. 68-72
Format: E-Article
Sprache: Englisch
veröffentlicht:
Royal Society of Chemistry (RSC)
Schlagwörter:
Energy Engineering and Power Technology
Fuel Technology
Renewable Energy, Sustainability and the Environment
author_facet Huang, Liang
Xu, Chunming
Ren, Rongzheng
Zheng, Qianwen
Wang, Zhenhua
Louis, Benoît
Wang, Qiang
Huang, Liang
Xu, Chunming
Ren, Rongzheng
Zheng, Qianwen
Wang, Zhenhua
Louis, Benoît
Wang, Qiang
author Huang, Liang
Xu, Chunming
Ren, Rongzheng
Zheng, Qianwen
Wang, Zhenhua
Louis, Benoît
Wang, Qiang
spellingShingle Huang, Liang
Xu, Chunming
Ren, Rongzheng
Zheng, Qianwen
Wang, Zhenhua
Louis, Benoît
Wang, Qiang
Sustainable Energy & Fuels
Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
Energy Engineering and Power Technology
Fuel Technology
Renewable Energy, Sustainability and the Environment
author_sort huang, liang
spelling Huang, Liang Xu, Chunming Ren, Rongzheng Zheng, Qianwen Wang, Zhenhua Louis, Benoît Wang, Qiang 2398-4902 Royal Society of Chemistry (RSC) Energy Engineering and Power Technology Fuel Technology Renewable Energy, Sustainability and the Environment http://dx.doi.org/10.1039/c7se00502d <p>Electrochemical impedance spectroscopy analyses were utilised to explore the oxygen ion conductivity of alkali metal salts promoted CaO.</p> Revealing how molten salts promote CO<sub>2</sub> capture on CaO <i>via</i> an impedance study and sorption kinetics simulation Sustainable Energy & Fuels
doi_str_mv 10.1039/c7se00502d
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title Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_unstemmed Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_full Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_fullStr Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_full_unstemmed Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_short Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_sort revealing how molten salts promote co<sub>2</sub> capture on cao <i>via</i> an impedance study and sorption kinetics simulation
topic Energy Engineering and Power Technology
Fuel Technology
Renewable Energy, Sustainability and the Environment
url http://dx.doi.org/10.1039/c7se00502d
publishDate 2018
physical 68-72
description <p>Electrochemical impedance spectroscopy analyses were utilised to explore the oxygen ion conductivity of alkali metal salts promoted CaO.</p>
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author Huang, Liang, Xu, Chunming, Ren, Rongzheng, Zheng, Qianwen, Wang, Zhenhua, Louis, Benoît, Wang, Qiang
author_facet Huang, Liang, Xu, Chunming, Ren, Rongzheng, Zheng, Qianwen, Wang, Zhenhua, Louis, Benoît, Wang, Qiang, Huang, Liang, Xu, Chunming, Ren, Rongzheng, Zheng, Qianwen, Wang, Zhenhua, Louis, Benoît, Wang, Qiang
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description <p>Electrochemical impedance spectroscopy analyses were utilised to explore the oxygen ion conductivity of alkali metal salts promoted CaO.</p>
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imprint_str_mv Royal Society of Chemistry (RSC), 2018
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physical 68-72
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spelling Huang, Liang Xu, Chunming Ren, Rongzheng Zheng, Qianwen Wang, Zhenhua Louis, Benoît Wang, Qiang 2398-4902 Royal Society of Chemistry (RSC) Energy Engineering and Power Technology Fuel Technology Renewable Energy, Sustainability and the Environment http://dx.doi.org/10.1039/c7se00502d <p>Electrochemical impedance spectroscopy analyses were utilised to explore the oxygen ion conductivity of alkali metal salts promoted CaO.</p> Revealing how molten salts promote CO<sub>2</sub> capture on CaO <i>via</i> an impedance study and sorption kinetics simulation Sustainable Energy & Fuels
spellingShingle Huang, Liang, Xu, Chunming, Ren, Rongzheng, Zheng, Qianwen, Wang, Zhenhua, Louis, Benoît, Wang, Qiang, Sustainable Energy & Fuels, Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation, Energy Engineering and Power Technology, Fuel Technology, Renewable Energy, Sustainability and the Environment
title Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_full Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_fullStr Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_full_unstemmed Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_short Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
title_sort revealing how molten salts promote co<sub>2</sub> capture on cao <i>via</i> an impedance study and sorption kinetics simulation
title_unstemmed Revealing how molten salts promote CO2 capture on CaO via an impedance study and sorption kinetics simulation
topic Energy Engineering and Power Technology, Fuel Technology, Renewable Energy, Sustainability and the Environment
url http://dx.doi.org/10.1039/c7se00502d