Education & Working Experience

2011-2015, University of Science & Technology Beijing, Bachelor

2015-2020, University of Science & Technology Beijing, Doctor

2020-, University of Science & Technology Beijing, Lecturer/Post-doctoral

Research projects

1. the National Key R&D Program of China (No. 2017YFB0603502), participant, 2017-2020. (Leader: Prof. Liu Xiangjun)

2. the National Key R&D Program of China (No. 2018YFB0605900), participant, 2018-2021. (Leader: Prof. Jiang Zeyi)

Academic Achievements

Main journal publications：

[1] Jiang Binfan, Xia Dehong, et al., An environment-friendly process for limestone calcination with CO2 looping and recovery. Journal of Cleaner Production, 2019, 240: 188147. (SCI一区Top, IF: 7.051)

[2] Jiang Binfan, Xia Dehong, et al., Efficient low-carbon dolomite calcination process based on CO2 looping and recovering. Huagong Xuebao/CIESC Journal, 71(8): 3699-3709. (EI)

[3] Jiang Binfan, Xia Dehong, Zhang Huili, et al. Effective waste heat recovery from industrial high-temperature granules: A moving bed indirect heat exchanger with embedded agitation. Energy, 2020,118346. (SCI一区Top, IF: 5.008)

[4] Jiang Binfan, Xia Dehong, et al., Efficient waste heat recovery system for high-temperature solid particles based on heat transfer enhancement. Applied Thermal Engineering, 2019, 155: 166-174. (SCI一区Top, IF: 4.022)

[5] Jiang Binfan, Xia Dehong, et al., Theoretical heat conduction equation based on micro particle vibration fundamental. International Journal of Thermal Sciences, 2019, 140: 521-529. (SCI, IF: 3.623)

[6] Jiang Binfan, Xie Yulei, Xia Dehong, A potential source for PM2.5: Analysis of fine particle generation mechanism in Wet Flue Gas Desulfurization System by modeling drying and breakage of slurry droplet. Environmental Pollution, 2019, 246: 249-256. (SCI Top, IF: 6.152)

[7] Jiang Binfan, Xia Dehong, et al., A multicomponent kinetic model established for investigation on atmospheric new particle formation mechanism in H2SO4-HNO3-NH3-VOC system. Science of the Total Environment, 2017, 616-617. (SCI Top, IF: 5.727)

[8] Xia Dehong, Jiang Binfan, et al., Modeling and analysis of PM 2.5, generation for key factors identification in China. Atmospheric Environment, 2016, 134:208-216. (SCI Top, IF: 4.459)

[9] Jiang Binfan, Xia Dehong. Role identification of NH3 in atmospheric secondary new particle formation in haze occurrence of China. Atmospheric Environment, 2017, 163:107-117. (SCI Top, IF: 4.459)

[10] Jiang Binfan, Xie Yulei, Xia Dehong. Effect of the molecular structure of volatile organic compounds on atmospheric nucleation: A modeling study based on gas kinetic theory and graph theory, Atmospheric Environment, 2019, 213: 215-222. (SCI Top, IF: 4.459)

[11] Jiang Binfan, Wen Yu, Li Zhiyong, Liu Xiangjun, Xia Dehong, Theoretical Analysis on the Removal of Cyclic Volatile Organic Compounds by Non-thermal Plasma. Water Air & Soil Pollution, 2018, 229(2):35. (SCI)

[12] Jiang Binfan, Xia Dehong. Ammonia control represents the key for PM2.5 elimination: insights for global air pollution control interconnected from PM2.5 events in China. Clean Technology Environmental Policy, 2020. (SCI)

Patents

1. Jiang Binfan, Xia Dehong, et al. A method and device for natural grading and balanced distribution of wide particle size bulk materials. (CN107442412A)

2. Jiang Binfan, Ao Wenqing, Xia Dehong, et al. A limestone calcination process with CO2 looping and recovering. (CN110451822A)

3. Jiang Binfan, Xia Dehong, Ao Wenqing, et al. Internal and external alternating heating method for uniformly high-temperature calcination in shaft kiln. (CN111006501A)

4. Jiang Binfan, Xia Dehong, Liu Xiangjun, et al. An indirect heat transfer enhancement method for high temperature solid bulk materials based on particle mixing. (CN110926243A)