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Jiawei Hu
Jiawei Hu
Shanghai Advanced Research Institute, Chinese Academy of Sciences
在 sari.ac.cn 的电子邮件经过验证
标题
引用次数
引用次数
年份
Bifunctional Ni-Ca based material for integrated CO2 capture and conversion via calcium-looping dry reforming
J Hu, P Hongmanorom, VV Galvita, Z Li, S Kawi
Applied Catalysis B: Environmental 284, 119734, 2021
1202021
Advanced Chemical Looping Materials for CO2 Utilization: A Review
J Hu, VV Galvita, H Poelman, GB Marin
Materials 11 (7), 1187, 2018
1112018
Efficient integration of CO2 capture and conversion over a Ni supported CeO2-modified CaO microsphere at moderate temperature
J Hu, P Hongmanorom, P Chirawatkul, S Kawi
Chemical Engineering Journal 426, 130864, 2021
762021
CO2 conversion to CO by auto-thermal catalyst-assisted chemical looping
J Hu, L Buelens, SA Theofanidis, VV Galvita, H Poelman, GB Marin
Journal of CO2 Utilization 16, 8-16, 2016
612016
Selective hydrogenation of phenylacetylene over a nano-Pd/α-Al2O3 catalyst
J Hu, Z Zhou, R Zhang, L Li, Z Cheng
Journal of Molecular Catalysis A: Chemical 381, 61-69, 2014
532014
High temperature water permeable membrane reactors for CO2 utilization
Z Li, Y Deng, N Dewangan, J Hu, Z Wang, X Tan, S Liu, S Kawi
Chemical Engineering Journal 420, 129834, 2021
522021
Catalyst-assisted chemical looping auto-thermal dry reforming: Spatial structuring effects on process efficiency
J Hu, VV Galvita, H Poelman, C Detavernier, GB Marin
Applied Catalysis B: Environmental 231, 123-136, 2018
502018
High CO2 permeability of ceramic-carbonate dual-phase hollow fiber membrane at medium-high temperature
T Chen, Z Wang, J Hu, MH Wai, S Kawi, YS Lin
Journal of Membrane Science 597, 117770, 2020
482020
A core-shell structured Fe2O3/ZrO2@ ZrO2 nanomaterial with enhanced redox activity and stability for CO2 conversion
J Hu, VV Galvita, H Poelman, C Detavernier, GB Marin
Journal of CO2 Utilization 17, 20-31, 2017
482017
Highly Efficient NO decomposition via dual-functional catalytic perovskite hollow fiber membrane reactor coupled with partial oxidation of methane at medium-low temperature
Z Wang, Z Li, Y Cui, T Chen, J Hu, S Kawi
Environmental Science & Technology, 2019
342019
FeO controls the sintering of iron-based oxygen carriers in chemical looping CO2 conversion
J Hu, H Poelman, GB Marin, C Detavernier, S Kawi, VV Galvita
Journal of CO2 Utilization 40, 101216, 2020
332020
Tandem distributing Ni into CaO framework for isothermal integration of CO2 capture and conversion
J Hu, P Hongmanorom, J Chen, W Wei, P Chirawatkul, VV Galvita, S Kawi
Chemical Engineering Journal 452, 139460, 2023
292023
Pressure-induced deactivation of core-shell nanomaterials for catalyst-assisted chemical looping
J Hu, VV Galvita, H Poelman, C Detavernier, GB Marin
Applied Catalysis B: Environmental 247, 86-99, 2019
292019
What Makes Fe-Modified MgAl2O4 an Active Catalyst Support? Insight from X-ray Raman Scattering
A Longo, SA Theofanidis, C Cavallari, NV Srinath, J Hu, H Poelman, ...
ACS Catalysis 10 (12), 6613-6622, 2020
282020
Coupling CO2 utilization and NO reduction in chemical looping manner by surface carbon
J Hu, VV Galvita, H Poelman, Z Wang, GB Marin, S Kawi
Applied Catalysis B: Environmental 297, 120472, 2021
182021
Revisiting the reaction kinetics of selective hydrogenation of phenylacetylene over an egg-shell catalyst in excess styrene
Z Zhou, J Hu, R Zhang, L Li, Z Cheng
Chemical Engineering Science 138, 663-672, 2015
142015
A superb water permeable membrane for potential applications in CO2 to liquid fuel process
Z Li, Y Deng, Z Wang, J Hu, KG Haw, G Wang, S Kawi
Journal of Membrane Science 639, 119682, 2021
92021
High temperature H2S removal via CO2-assisted chemical looping over ZrO2-modified Fe2O3
J Hu, H Poelman, SA Theofanidis, JJ Joos, C Detavernier, D Poelman, ...
Applied Catalysis B: Environmental 330, 122591, 2023
42023
苯乙炔选择性加氢滴流床反应器内的液相轴向返混特性
胡佳玮, 黄彬杰, 程振民, 周志明
化工学报 65 (1), 123-130, 2014
22014
Auto-thermal CO2 utilization by chemical looping: from nano to reactor scale
J Hu
Ghent University, 2018
2018
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