助理研究员
性别:男
学位:博士生
所在单位:热科学与工程研究中心
入职时间:2022-02-10
学科:热能工程
办公地点:山东大学千佛山校区教学一楼403
联系方式:yyd@sdu.edu.cn
访问量:
最后更新时间:..
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[1]
王浠丞.
Hydrothermal-calcination synthesis of lithium orthosilicate microspheres for high-temperature CO2 capture.
Carbon Capture Science & Technology,
100303,
2024.
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[2]
Yan, Xingyu.
Screening of organic lithium precursors for producing high-performance Li4SiO4-based thermochemical energy storage materials: Experimental and kinetic investigations.
Journal of Energy Storage,
85,
2024.
-
[3]
王浠丞.
Li4SiO4-Based Heat Carrier Derived from Different Silica Sources for Thermochemical Energy Storage.
energies,
17,
2024.
-
[4]
孙宪达.
A cation-ion conducting direct alcohol fuel cell: Establishing pH-asymmetric to simultaneous generate electricity and hydrogen.
International journal of hydrogen energy,
59,
825-832,
2024.
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[5]
杨远东.
One-step fabrication of size-controllable, biowaste-templated Li4SiO4 spherical pellets via freeze-drying method for cyclic CO2 capture.
Chemical Engineering Journal,
462,
2023.
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[6]
张肖宇.
Fabrication of structure-improved, sintering-resistant Li4SiO4 materials for stabilized thermochemical energy storage in concentrated solar power plants.
Journal of Energy Storage,
70,
2023.
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[7]
杨远东.
Li4SiO4 adsorbent derived from industrial biomass fly ash for high-temperature CO2 capture.
Fuel,
2023.
-
[8]
杨远东.
Kinetic and thermodynamic investigations on the cyclic CO2 adsorption-desorption processes of lithium orthosilicate.
Chemical Engineering Journal,
468,
2023.
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[9]
杨远东.
Kinetic and thermodynamic investigations on the cyclic CO<sub>2</sub> adsorption-desorption processes of lithium orthosilicate.
Chemical Engineering Journal,
468,
2023.
-
[10]
杨远东.
Li4SiO4 adsorbent derived from industrial biomass fly ash for high-temperature CO2 capture.
Fuel,
2023.
-
[11]
Zhang, Xiaoyu.
A review on granulation of CaO-based sorbent for carbon dioxide capture.
Chemical Engineering Journal,
446,
2022.
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[12]
Yuandong Yang , Jixue Cao , Yingchao Hu , Jian Sun , Shun Yao , Qiuwan Li , Zexin Li , Shimeng Zhou and Wenqiang Liu*.
Eutectic doped Li4SiO4 adsorbents using the optimal dopants for highly efficient CO2 removal.
Journal of Materials Chemistry A,
9,
14309-14318,
2021.
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[13]
Yuandong Yang , Shun Yao , Yingchao Hu , Jian Sun , Qiuwan Li , Zexin Li , Shimeng Zhou and Wenqiang Liu*.
High-temperature CO2 adsorption by one-step fabricated Nd-doped Li4SiO4 pellets.
Chemical Engineering Journal,
410,
128346,
2021.
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[14]
Yuandong Yang , Shun Yao , Wenqiang Liu , Yingchao Hu , Qiuwan Li , Zexin Li , Shimeng Zhou and Zijian Zhou.
Novel synthesis of tailored Li4SiO4-based microspheres for ultrafast CO2 adsorption.
Fuel Processing Technology,
213,
106675,
2021.
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[15]
Yuandong Yang , Qianjun Chen , Wenqiang Liu* , Shun Yao , Jixue Cao , Qiuwan Li and Minghou Xu*.
Mineral-derived Li4SiO4-based adsorbent for post-combustion CO2 capture: An experimental and kinetic investigation.
Proceedings of the Combustion Institute,
38,
5339-5346,
2021.
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[16]
Yuandong Yang , Shun Yao , Yingchao Hu , Jian Sun , Jixue Cao , Qiuwan Li and Wenqiang Liu*.
Mechanochemically activated Li4SiO4-based adsorbent with enhanced CO2 capture performance and its modification mechanisms.
Fuel,
273,
117749,
2020.
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[17]
Yuandong Yang , Wenqiang Liu* , Yingchao Hu , Jian Sun , Xianliang Tong , Qiuwan Li and Zijian Zhou*.
Novel low cost Li4SiO4-based sorbent with naturally occurring wollastonite as Si-source for cyclic CO2 capture.
Chemical Engineering Journal,
374,
328-337,
2019.
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[18]
Yuandong Yang , Wenqiang Liu* , Yingchao Hu , Jian Sun , Xianliang Tong , Qianjun Chen and Qiuwan Li.
One-step synthesis of porous Li4SiO4-based adsorbent pellets via graphite moulding method for cyclic CO2 capture.
Chemical Engineering Journal,
353,
92-99,
2018.
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[19]
Yuandong Yang , Wenqiang Liu* , Yingchao Hu , Jian Sun , Qianjun Chen , Xianliang Tong and Qiuwan Li.
Enhancement of CO2 absorption in Li4SiO4 by acidification and eutectic doping.
Energy & Fuels,
32,
12758-12765,
2018.
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