新工科背景下能源化学工程专业实验教学的探索  

Exploration of Experimental Teaching in Energy Chemistry Engineering under the Background of New Engineering

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作  者:钱惺悦 刘文杰[1] 陈海群[1] Qian Xingyue;Liu Wenjie;Chen Haiqun(Changzhou University,Changzhou 213164,China)

机构地区:[1]常州大学,江苏常州213164

出  处:《广东化工》2024年第20期194-196,共3页Guangdong Chemical Industry

基  金:常州大学教育教学研究课题重点项目(GJY2020004);江苏省高等教育教改研究立项课题重点项目(2021JSJG138);江苏省高等教育教改研究立项课题重中之重项目(2019JSJG011)。

摘  要:能源化学工程专业实验课程是培养学生具备基本的操作技能和处理能源化学工程问题的能力。设计了一种过渡金属硫化物催化剂用于电解水制氢,首先,采用溶剂热法合成金属前驱体,然后,通过煅烧法原位硫化制备MoS_(2)/NiS_(2)催化剂。本实验可锻炼学生的实验操作能力,熟悉过渡金属硫化物催化剂的制备方法及电解水制氢的实验过程,掌握仪器设备的使用方法及工作原理,认识电解水制氢催化剂的结构特性与性能评价方法,使学生深入了解新能源、新材料等专业前沿领域的发展趋势,以期高质量培养能适应能源化学工程专业领域发展需要的高水平应用型人才。The professional experimental courses of energy chemical engineering aim to cultivate students with basic operational skills and the ability to handle energy chemical engineering problems.A transition metal sulfide catalyst has been designed for hydrogen production through water electrolysis.Initially,the metal precursor was synthesized via a solvothermal method,followed by in-situ sulfurization through calcination to fabricate MoS_(2)/NiS_(2) catalyst.This experiment can exercise students'experimental operation ability,familiarize them with the preparation methods of transition metal sulfide catalysts and the experimental procedures of hydrogen production from water electrolysis,equip them with the knowledge of operating and understanding the principles of instrumentation,and impart an understanding of the structural characteristics and performance evaluation methods of hydrogen evolution catalysts.Furthermore,it aims to provide students with a profound insight into the development trends in cutting-edge fields such as new energy and new materials,ultimately fostering high-caliber,adaptable talent for the evolving needs of the energy chemistry engineering industry.

关 键 词:能源化学工程 专业实验 氢气制取 催化剂 新能源 

分 类 号:G642[文化科学—高等教育学]

 

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