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个人信息Personal Information
教授
性别:女
毕业院校:加拿大不列颠哥伦比亚大学(University of British Columbia)
学历:博士研究生毕业
学位:工学博士学位
在职信息:在职
所在单位:核科学与能源动力学院
入职时间:2014-03-12
学科:动力工程及工程热物理其他专业
扫描关注
- [141] 王志强 , 马春元 and 程星星. 低温催化脱硝技术的研究进展. 《化工进展》, 35, 2222, 2016.
- [142] 马春元 and 程星星. CeO2纳米棒负载Co催化CO脱除NOx的机理. 化工学报, 67, 260, 2016.
- [143] 王志强 , 马春元 and 程星星. Nitrogen oxides reduction by carbon monoxide over semi-coke supported catalysts in a simulated rotary reactor: reaction performance under dry conditions. Green Chemistry, 18, 5305, 2016.
- [144] 程星星. Catalytic NOx Reduction in a Novel i?CFB Reactor: II. Modeling and Simulation of i?CFB Reactors. industrial & engineering chemistry research, 53, 11901, 2014.
- [145] 程星星. Catalytic NOx Reduction in a Novel i?CFB Reactor: I. Kinetics Development and Modeling of Reduction Zone. industrial & engineering chemistry research, 53, 9365, 2014.
- [146] 程星星. A review of recent advances in selective catalytic NOx reduction reactor technologies. 《Particuology》, 16, 1, 2014.
- [147] 王志强 , 马春元 and 程星星. Heating Process Characteristics and Kinetics of Biomass at Different Oxygen Concentrations. International Journal of Chemical Reactor Engineering, 15, 2017.
- [148] 王志强 , 马春元 and 程星星. Comparative study of coal based catalysts for NO adsorption and NO reduction by CO. Fuel, 214, 230, 2018.
- [149] 王志强 , 常景彩 , 马春元 and 程星星. NO reduction by CO over copper catalyst supported on mixed CeO2 and Fe2O3: Catalyst design and activity test. Applied Catalysis B-Environmental, 239, 485, 2018.
- [150] 王志强 , 马春元 , 王美霞 and 程星星. Catalytic reduction of nitrogen oxide by carbon monoxide, methane and hydrogen over transition metals supported on BEA zeolites. International journal of hydrogen energy, 43, 21969, 2018.
- [151] 王志强 , 马春元 and 程星星. IR and kinetic study of sewage sludge combustion at different oxygen concentrations. Waste management, 74, 279, 2018.
- [152] 王志强 , 马春元 and 程星星. A simulated rotary reactor for NOx reduction by carbon monoxide over Fe/ZSM-5 catalysts. chemical engineering journal, 307, 24, 2017.
- [153] 王志强 Investigation of SO2 tolerance of Ce-modified activated semi-coke based catalysts for the NO+CO reaction. RSC Advances, 2017.