乔金硕
作者: Wang, Guoqiang1; Ren, Rongzheng1; Qiao, Jinshuo1
出处: 2024 10th International Conference on Applied Materials and Manufacturing Technology, ICAMMT 2024 Hybrid, Guangzhou, China 2024
会议录: Vol.2819 No.1
作者: Guoqiang Wang;Rongzheng Ren;Jinshuo Qiao (Beijing Key Laboratory for Chemical Power Source and Green Catalysis, Beijing Institute of Technology, Beijing 100081, People\'s Republic of China)
出处: Journal of Physics: Conference Series 2024 Vol.2819 P012003
摘要: Protonic ceramic fuel cells (PCFCs) stand out as a novel energy conversion device, exhibiting unique advantages in terms of both high efficiency and e ...
发明人: 王振华,于晓丹,徐春明,孙克宁,乔金硕,孙旺
申请人: 北京理工大学
申请号: 202410507342.6
申请日期: 2024.04.25
摘要: 本发明公开了一种扁管式燃料电池生产用的界面致密化喷涂制具,属于燃料电池喷涂制具技术领域,解决了现有燃料电池制具不能对燃料电池的侧边曲面进行涂层喷覆的问题;其包括基座和盖合在基座上的盖板,基座上设置有多个用于容置半成品电池的容纳槽,每个容纳槽的中部均设置有多个与外部真空泵连通的真空孔;盖板上设置有多个 ...
发明人: 贾晨鹤,王振华,任戎征,孙克宁,乔金硕,孙旺
申请人: 北京理工大学
申请号: 202410603991.6
申请日期: 2024.05.15
摘要: 本发明属于催化反应技术领域,具体涉及一种基于质子膜反应器的扁管式甲烷水蒸气催化重整制氢装置,包括重整反应器主体,重整反应器主体内部设置有第一反应腔及第二反应腔,第一反应腔内部设置有质子膜反应器,质子膜反应器包括阴极层、质子膜层、电解质层及阳极层;第二反应腔内设置有电解质反应器;本发明将重整反应器与质 ...
发明人: 王振华,于晓丹,任戎征,孙克宁,乔金硕,孙旺
申请人: 北京理工大学
申请号: 202410507364.2
申请日期: 2024.04.25
摘要: 本发明公开了一种用于扁管式固体氧化物燃料电池的连接体及其制备方法,属于燃料电池材料技术领域。制备方法包括以下步骤:(1)将陶瓷材料、氧化镍、粘结剂、增塑剂、聚乙二醇、三乙醇胺和无水乙醇混合均匀,得到喷涂浆料;(2)将步骤(1)所得喷涂浆料喷涂于基底材料表面并干燥,重复进行喷涂、干燥后,进行烧结处理, ...
发明人: 王振华,谢枫苡,任戎征,孙克宁,乔金硕,孙旺
申请人: 北京理工大学
申请号: 202410507338.X
申请日期: 2024.04.25
摘要: 本发明提供一种质子陶瓷膜反应器及其同时制备乙烯和甲烷的方法,属于高附加值碳氢化合物制备技术领域。质子陶瓷膜反应器包括外壳、质子陶瓷膜、管程、壳程及集流体;质子陶瓷膜嵌套于外壳内,管程位于质子陶瓷膜内部,壳程位于外壳及质子陶瓷膜中部,集流体附着于质子陶瓷膜表面。本发明还包括质子陶瓷膜反应器同时制备乙烯 ...
发明人: 王振华,贾晨鹤,任戎征,孙克宁,乔金硕,孙旺
申请人: 北京理工大学
申请号: 202410507348.3
申请日期: 2024.04.25
摘要: 本发明公开了一种阴极材料及其制备方法和应用,属于固体氧化物燃料电池技术领域。该阴极材料的化学式为(Sr2Fe1.5Mo0.38P0.12O6‑δ)0.9[Sr ...
作者: Zhang, Shixian1;Sun, Wang1,2;Xu, Chunming1,2;Zhang, Lihong1;Ren, Rongzheng1,2;Qiao, Jinshuo1,2;Wang, Zhenhua1,2;Rooney, David3;Sun, Kening1,2 (1Beijing Inst Technol, Sch Chem & Chem Engn, Beijing 100081, Peoples R China.;2Beijing Inst Technol, Beijing Key Lab Chem Power Source & Green Catalysi, Beijing 100081, Peoples R China.;3Queens Univ Belfast, Sch Chem & Chem Engn, Belfast BT9 5AG, North Ireland.)
出处: ACS SUSTAINABLE CHEMISTRY & ENGINEERING 2024 Vol.12 No.6 P2289-2299
关键词: ETHYLENE; ETHANE; DEHYDROGENATION; PEROVSKITE; CATALYST; OXIDE
摘要: The electrocatalytic oxidation dehydrogenation of ethane in ceramic reactors is considered to achieve efficient conversion of clean energy and high-va ...
作者: Song, Linlin1; Qiao, Yingjie1; Zhao, Yingying2; Ren, Rongzheng2; Wang, Zhenhua2; Jia, Chenhe2; Xie, Fengyi2; Qiao, Jinshuo2; Sun, Wang2; Sun, Kening2 (1College of Materials Science and Chemical Engineering, Harbin Engineering University, Harbin; 150001, China;2Beijing Key Laboratory of Chemical Power Source and Green Catalysis, School of Chemistry and Chemical Engineering, Beijing Institute of Technology, Beijing; 100081, China)
出处: Ceramics International 2024 Vol.50 No.14 P24987-24994
作者:
Shixian Zhang1;Wang Sun1,2;
出处: ACS Sustainable Chemistry & Engineering 2024
关键词: core−shelled structure;Ni@NiO;electrooxidative dehydrogenation;ethane;ethylene;ceramic electrochemical reactor
摘要: The electrocatalytic oxidation dehydrogenation of ethane in ceramic reactors is considered to achieve efficient conversion of clean energy and high-va ...
