冯于川
职称:副教授
学历:博士研究生
学科:动力工程及工程热物理
研究领域或方向:1.CO2捕集、固废资源化利用、储能
邮箱:fengyuchuan@tyut.edu.cn
- 主讲课程
- 学术兼职
- 学术论文
- 主持项目
- 科研获奖
新能源技术
环境保护与可持续发展
环境保护与可持续发展
Chemical Engineering Journal等期刊审稿人
(1) Towards understanding the interaction mechanism of sintering, hydration and carbonation of calcium oxide during CO2 capture. Chemical Engineering Journal. 2025;512:162598. (第一作者,SCI一区TOP)
(2) Revealing the mechanism of hydration on the CO2 kinetic adsorption of CaO surface via ReaxFF MD simulations with experiments. Applied Surface Science. 2024, 670: 160652. (通讯作者,SCI二区TOP)
(3) Calcium-based pellets for continuous hydrogen production by sorption-enhanced steam methane reforming. International Journal of Hydrogen Energy. 2024, 49: 897-909. (通讯作者,SCI二区)
(4) Sintering Mechanism of Fe2O3 Particles during Iron-Based Chemical Looping Combustion by Using ReaxFF MD Simulation and Experiments. Energy & Fuels. 2024, 38: 8928-8937. (第一作者,SCI三区)
(5) Understanding the synergistic effect of Ni/Al2O3 on CO2 adsorption and sintering properties of CaO in sorption-enhanced steam reforming process. Fuel, 2023, 341: 127766. (通讯作者,SCI一区TOP)
(6) Exploration of the reaction mechanism of the LaFeO3 oxygen carrier for chemical-looping steam methane reforming: a DFT study. Physical Chemistry Chemical Physics, 2023, 25: 13033–13040. (第一作者,SCI三区)
(7) Reaction mechanism of methane conversion over Ca2Fe2O5 oxygen carrier in chemical looping hydrogen production. Fuel, 2021, 290: 120094. (第一作者,SCI一区TOP)
(8) Dopant screening of modified Fe2O3 oxygen carriers in chemical looping hydrogen production. Fuel, 2020, 262: 116489. (第一作者,SCI一区TOP)
(9) Characteristics of dopant distribution and surface oxygen vacancy formation for modified Fe2O3 in chemical looping combustion. Fuel, 2020, 276: 117942. (第一作者,SCI一区TOP)
(10) Reaction mechanism of Ca2Fe2O5 oxygen carrier with CO in chemical looping hydrogen production. Applied Surface Science, 2020, 534: 147583. (第一作者,SCI二区TOP)
(11) Density functional theory study on improved reactivity of alkali-doped Fe2O3 oxygen carriers for chemical looping hydrogen production. Fuel, 2019, 236: 1057-1064. (第一作者,SCI一区TOP)
(12) Influence mechanism of supports on the reactivity of Ni-based oxygen carriers for chemical looping reforming: A DFT study. Fuel, 2018, 229: 88-94. (第一作者,SCI一区TOP)
(13) Study of reaction mechanism of methane conversion over Ni-based oxygen carrier in chemical looping reforming. Fuel, 2017, 210: 866-872. (第一作者,SCI一区TOP)
(14) Influence mechanism of H2S on the reactivity of Ni-based oxygen carriers for chemical-looping combustion. Chemical Engineering Journal, 2016, 295: 461-467. (第一作者,SCI一区TOP)
(15) 化学链重整过程中LaFeO3载氧体的CH4部分氧化反应机理研究. 燃料化学学报(中英文), 2024, 52(04): 586-594. (通讯作者,EI)
(2) Revealing the mechanism of hydration on the CO2 kinetic adsorption of CaO surface via ReaxFF MD simulations with experiments. Applied Surface Science. 2024, 670: 160652. (通讯作者,SCI二区TOP)
(3) Calcium-based pellets for continuous hydrogen production by sorption-enhanced steam methane reforming. International Journal of Hydrogen Energy. 2024, 49: 897-909. (通讯作者,SCI二区)
(4) Sintering Mechanism of Fe2O3 Particles during Iron-Based Chemical Looping Combustion by Using ReaxFF MD Simulation and Experiments. Energy & Fuels. 2024, 38: 8928-8937. (第一作者,SCI三区)
(5) Understanding the synergistic effect of Ni/Al2O3 on CO2 adsorption and sintering properties of CaO in sorption-enhanced steam reforming process. Fuel, 2023, 341: 127766. (通讯作者,SCI一区TOP)
(6) Exploration of the reaction mechanism of the LaFeO3 oxygen carrier for chemical-looping steam methane reforming: a DFT study. Physical Chemistry Chemical Physics, 2023, 25: 13033–13040. (第一作者,SCI三区)
(7) Reaction mechanism of methane conversion over Ca2Fe2O5 oxygen carrier in chemical looping hydrogen production. Fuel, 2021, 290: 120094. (第一作者,SCI一区TOP)
(8) Dopant screening of modified Fe2O3 oxygen carriers in chemical looping hydrogen production. Fuel, 2020, 262: 116489. (第一作者,SCI一区TOP)
(9) Characteristics of dopant distribution and surface oxygen vacancy formation for modified Fe2O3 in chemical looping combustion. Fuel, 2020, 276: 117942. (第一作者,SCI一区TOP)
(10) Reaction mechanism of Ca2Fe2O5 oxygen carrier with CO in chemical looping hydrogen production. Applied Surface Science, 2020, 534: 147583. (第一作者,SCI二区TOP)
(11) Density functional theory study on improved reactivity of alkali-doped Fe2O3 oxygen carriers for chemical looping hydrogen production. Fuel, 2019, 236: 1057-1064. (第一作者,SCI一区TOP)
(12) Influence mechanism of supports on the reactivity of Ni-based oxygen carriers for chemical looping reforming: A DFT study. Fuel, 2018, 229: 88-94. (第一作者,SCI一区TOP)
(13) Study of reaction mechanism of methane conversion over Ni-based oxygen carrier in chemical looping reforming. Fuel, 2017, 210: 866-872. (第一作者,SCI一区TOP)
(14) Influence mechanism of H2S on the reactivity of Ni-based oxygen carriers for chemical-looping combustion. Chemical Engineering Journal, 2016, 295: 461-467. (第一作者,SCI一区TOP)
(15) 化学链重整过程中LaFeO3载氧体的CH4部分氧化反应机理研究. 燃料化学学报(中英文), 2024, 52(04): 586-594. (通讯作者,EI)
(1) 山西省基础研究计划面上项目:惰性载体调控优化铁基载氧体抗烧结性能及作用机制研究(2025.12-2028.12),主持,在研。
(2) 山西省基础研究计划青年项目:化学链燃烧中粉煤灰基载氧体颗粒的制备工艺研究(2022.01-2024.12),主持,结题。
(3) 中国博士后科学基金面上项目:基于改性铁基载氧体的化学链制氢研究(2019.11-2021.06),主持,结题。
(4) 国家重点实验室开放课题:基于Fe2O3/粉煤灰载氧体的化学链燃烧特性研究(2022.01-2023.12),主持,结题。
(5) 企业委托项目:粉煤灰基载氧体技术开发(2024.07-2025.12),主持,在研。
(6) 企业委托项目:循环流化床粉煤灰复合颗粒制备技术研究(2023.08-2025.08),主持,在研。
(7) 国家重点研发计划项目:低热值煤清洁高效燃烧资源利用与灵活发电关键技术(2020.12-2023.11),参与,结题。
(2) 山西省基础研究计划青年项目:化学链燃烧中粉煤灰基载氧体颗粒的制备工艺研究(2022.01-2024.12),主持,结题。
(3) 中国博士后科学基金面上项目:基于改性铁基载氧体的化学链制氢研究(2019.11-2021.06),主持,结题。
(4) 国家重点实验室开放课题:基于Fe2O3/粉煤灰载氧体的化学链燃烧特性研究(2022.01-2023.12),主持,结题。
(5) 企业委托项目:粉煤灰基载氧体技术开发(2024.07-2025.12),主持,在研。
(6) 企业委托项目:循环流化床粉煤灰复合颗粒制备技术研究(2023.08-2025.08),主持,在研。
(7) 国家重点研发计划项目:低热值煤清洁高效燃烧资源利用与灵活发电关键技术(2020.12-2023.11),参与,结题。
CFB灰渣-脱硫石膏绿色建材制备工艺的研究及应用,山西省建设科技优秀成果(二等),排名第一。
