Name and title:
Prof. Zhanlong Song
Overview:
Born in 1977. Doctor, Professor, Doctoral Tutor, Director of Institute of Energy and Environment. CPC Member; Member of Shandong Environmental Protection Industry Association; Evaluation expert of NSFC and reviewer of several international periodicals.
Research Interests:
Comprehensive utilization of biomass, organic solid waste (waste tires, oil sludge), energy saving and emission reduction of pollutants, CO2 reforming of CH4 to syngas, etc.
Qualifications:
2002/03-2006/03, Doctor, Institute of Thermal Energy Engineering, Southeast University; 1995/09-2001.12, School of Energy and Power Engineering, Shandong University, Bachelor's degree and Master's degree.
Work/Research Experiences:
I participated in the work in 2006, I was a master's supervisor in 2011. In 2015, I was approved as a doctoral supervisor.
Awards:
Analysis and application of microwave-induced thermal-plasma-photocatalytic multi-effect coupling mechanism. Shandong University Science and Technology Award Third Prize, 2018.10
Selected Grants:
[1] National Natural Science Foundation of China. Study on the mechanism of enhanced CO2 reforming of CH4 to Syngas by coupling microwave and characteristic catalyst, 2016/1-2019/12/31
[2] National Science and Technology Support Program. Microwave-assisted High Efficiency Tar Catalytic Cracking Technology, 2014.10-2017.12
[3] National Natural Science Foundation of China. Research on the mechanism of microwave heating to enhance low temperature drying of coal slime, 2014.1-2016.12
[4] National Natural Science Foundation of China. Basic Research on Directional Conversion of Biomass into Synthetic Gas by Microwave Pyrolysis, 2010.1-2012.12
[5] Research on harmless oil sludge treatment technology based on Microwave cracking technology, 2018.12-2028.12.
[6] Project of National Key R&D Program, Study on SO2 Desorption Technology of Desulfurized Powder Coke, 2017.7-2021.6
Supervision:Six master's graduates have graduated, and 10 are currently studying for doctoral and master's degrees.
Selected Publications:
A) Patents:
[1] A parallel compound structure waste pyrolysis disposal device based on Microwave quenching and its disposal method, 201710054137.9
[2] A device and method for producing smoke solution from Hawthorn nuclear pyrolysis and producing activated carbon in parallel, 2017103908905
[3] Sublevel dehydration and drying system for high humidity coal and its application method, 2015105113852
[4] A method and device for microwave pyrolysis of biomass, 200610068782.8
B) Peer-reviewed Journal Papers
[5] Zhanlong Song, Yecheng Yan, Mengmei Xie, et al. Effect of Steel Wires on the Microwave Pyrolysis of Tire Powders. ACS Sustainable Chemistry & Engineering, 2018, 6 (10): 13443–13453.
[6] Fusen Zhang, Zhanlong Song, Junzhi Zhu, et al. Process of CH4-CO2 reforming over Fe/SiC catalyst under microwave irradiation. Science of the Total Environment, 2018, 639: 1148-1155.
[7] Fusen Zhang, Zhanlong Song, Junzhi Zhu, et al. Factors Influencing CH4-CO2 Reforming Reaction over Fe Catalyst Supported on Foam Ceramics under Microwave Irradiation. International Journal of Hydrogen Energy, 2018, 43(20): 9495-9502.
[8] Yuchuan Zhang, Zhanlong Song, Yecheng Yan, et al. Performance of Fe/SiC catalysts for cracking of toluene under microwave irradiation. International Journal of Hydrogen Energy, 2018, 43(15): 7227-7236.
[9] Zhanlong Song, Li Liu, Yaqing Yang, et al. Characteristics of limonene formation during microwave pyrolysis of scrap tires and quantitative analysis. Energy, 2018, 142: 953–961.
[10] Zhanlong Song, Chuanming Jing, Liansheng Yao, et al. Microwave drying performance of single-particle coal slime and energy consumption analyses. Fuel Processing Technology, 2016, 143: 69–78.
[11] Zhanlong Song, Liansheng Yao, Chuanming Jing, et al. Elucidation of the Pumping Effect during Microwave Drying of Lignite. Industrial & Engineering Chemistry Research, 2016, 55 (11):3167–3176.
[12] Zhanlong Song, Liansheng Yao, Chuanming Jing, et al. Experimental Study on the Characteristics of Ignition during Microwave Drying of Lignite. Energy Technology, 2016, 4(9): 1077 –1083.
[13] Zhanlong Song, Chuanming Jing, Liansheng Yao, et al. Coal slime hot air/microwave combined drying characteristics and energy analysis. Fuel Processing Technology, 2017, 156: 491–499.
[14] Zhanlong Song, Liansheng Yao, Chuanming Jing, et al. Drying Behavior of Lignite under Microwave Heating, Drying Technology, 2017, 35(4): 433–443.
[15] Zhanlong Song, Yaqing Yang, Long Zhou, et al. Pyrolysis of tyre powder using microwave thermogravimetric analysis: Effect of microwave power. Waste Management & Research, 2017, 35(2):181–189.
[16] Zhanlong Song, Yaqing Yang, Xiqiang Zhao, et al. Microwave pyrolysis of tire powders: Evolution of yields and composition of products, Journal of Analytical and Applied Pyrolysis, 2017, 123: 152–159.
[17] Zhanlong Song, Yaqing Yang, Jing Sun, et al. Effect of power level on the microwave pyrolysis of tire powder. Energy, 2017, 127:571–580.
[18] Zhanlong Song, Yaqing Yang, Long Zhou, et al. Gaseous products evolution during microwave pyrolysis of tire powders. International Journal of Hydrogen Energy, 20 July 2017, 42(29):18209–18215.
C) Conference/Letters
[1] Zhanlong Song, Long Zhou, Yaqing Yang, et al. Effect of steel wires on the microwave pyrolysis of tire powder. 11th China-Korea Clean Energy Workshop, Sept. 20-23, 2016, Nanjing, China
Contact:
E-mail: zlsong@sdu.edu.cn
Tel: 13615319829
Address: 17923#, Jingshi Road, Jinan, Shandong Province.
Welcome to Shandong University!