Mechanisms of synthesis gas production via thermochemical cycles over La0.3Sr0.7Co0.7Fe0.3O3

被引:3
|
作者
Khamhangdatepon, Tatiya [1 ]
Tongnan, Vut [6 ]
Hartley, Matthew [2 ]
Sornchamni, Thana [3 ]
Siri-Nguan, Nuchanart [3 ]
Laosiripojana, Navadol [4 ]
Li, Kang [5 ]
Hartley, Unalome Wetwatana [1 ,4 ]
机构
[1] King Mongkuts Univ Technol North Bangkok, Sirindhorn Int Inst Technol, Mech & Proc Engn Dept, Bangkok 10800, Thailand
[2] King Mongkuts Univ Technol North Bangkok, Engn Fac, Chem Engn, Bangkok 10800, Thailand
[3] PTT Publ Co Ltd, PTT Res & Technol Inst, Bangkok 10900, Thailand
[4] King Mongkuts Univ Technol Thonburi, Joint Grad Sch Energy & Environm, Bangkok 10140, Thailand
[5] Imperial Coll London, Chem Engn, South Kensington Campus, London SW7 2AZ, England
[6] King Mongkuts Univ Technol North Bangkok, Bangkok, Thailand
来源
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY | 2021年 / 46卷 / 48期
关键词
Perovskite; La0.3Sr0.7Co0.7Fe0; LSCF; Syngas; Continuous two-step; thermochemical cycles; Gas-solid mechanism; OXYGEN PERMEABILITY; PEROVSKITE; MEMBRANES; WATER; PERFORMANCE; STABILITY; OXIDE; FE; SEPARATION; BEHAVIOR;
D O I
10.1016/j.ijhydene.2019.12.148
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
La0.3Sr0.7Co0.7Fe0.3O3 (LSCF3773) was chosen as an oxygen carrier material for synthesis gas production and synthesized using ethylene-diamine-tetra-acetic acid (EDTA) citratecomplexing method. LSCF exhibited a pure cubic structure where 110 and 100 plane diffractions were active for CO2 splitting, while 111 was more favored by H2O splitting. Overall oxygen storage capacity (OSC) of LSCF was 4072 mmol/gcat. During the reduction process, regular cations (Co4+, Fe4+), polaron cations (Co3+, Fe3+) and localized cations (Co2+, Fe2+) were achieved when the LSCF was reduced at 500, 700 and 900 degrees C, respectively. The strength of the active sites depended on reduction temperatures. An increase in oxidation temperature enhanced H-2 production at temperature ranging from 500 degrees C to 700 degrees C while effected CO production at 900 degrees C. H2O and CO2 was competitively split during the oxidation step, especially at 700 degrees C. The activation energy of each reaction was ordered as; CO2 splitting > H2O splitting > CO2 adsorption, supporting the above evidence where H-2 and CO production were found to increase when the operating temperature was increased. (C) 2019 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
引用
收藏
页码:24666 / 24675
页数:10
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