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Zhiqiang WANG
UPDATE:2019-05-31 17:27:40    AUTHOR:    CLICK:[]

Name: Zhiqiang Wang     

Work Place: Room 612 in Dongpei BuildingInstitute of Energy and Environmental Engineering, School of Energy and Power Engineering, Shandong University, Jinan, China, 250061

Office Phone: +86-531-88399372

E-mail: jackywzq@sdu.edu.cn

 

Research Interests:

(1) Clean combustion and pollutant control

(2) Research on CO2 control theory and technology

(3) Numerical simulation of functional thermal processes

 

Publications

1Zhiqiang Wang, Ming Liu, Xingxing Cheng, Yusheng He, Yingjie Hu, Chunyuan Ma. Experimental study on oxy-fuel combustion of heavy oil. International Journal of Hydrogen Energy, 42: 20306-20315, 2017

2Zhiqiang Wang, Luyuan Wang, Xingxing Cheng, Chunyuan Ma, Yukun Qin. Investigation of SO2 tolerance of Ce-modified activated semi-coke based catalysts for the NO+ CO reaction. RSC Advances, 7(84): 53631-53642, 2017

3Zhiqiang Wang, Ming Liu, Xingxing Cheng, Yusheng. He, Yingjie Hu, Chunyuan Ma. Non-iso thermal thermo gravimetric analysis of heavy oil in an O2/CO2 atmosphere. International Journal of Chemical Reactor Engineering.16(6):1-9, 2018

4Zhiqiang Wang, Yingjie Hu, Xingxing Cheng,* Ming Liu and Chunyuan Ma. Influence of offset angle of mid-secondary air nozzles on gas-particle flow characteristics in a furnace. RSC Advances, 8: 17764-17772, 2018

5Yingjie Hu, Zhiqiang Wang,* Xingxing Cheng. Non-isothermal TGA Study on the Combustion Reaction Kinetics and Mechanism of Low-Rank Coal Char. RSC Advances, 8, 22909 - 22916, 2018

6Zhiqiang, Wang; Wang, Dakai; Ji, Pan; Cheng, Xingxing. Study on the formation of micro glass-beads during staged combustion. Energy & Fuels. 32, 8069−8077, 2018

7Zhiqiang, Wang; Lu, Xuge; Cheng, Xingxing; Ma, Chunyuan. The Low-temperature Corrosion Characteristics of Alcohol-based Fuels Combustion. RSC Advances. 72, 41109 - 41674, 2018

8Xingxing Cheng*, Ming Zhang, Peiliang Sun, Luyuan Wang, Zhiqiang Wang *, Chunyuan Ma, Nitrogen oxides reduction by carbon monoxide over semi-coke supported catalysts in a simulated rotary reactor: reaction performance under dry conditions, Green Chemistry, 2016, 18, 5305-5324

9Xingxing Cheng*, Xingyu Zhang, Ming Zhang, Peiliang Sun, Zhiqiang Wang*, Chunyuan Ma, A simulated rotary reactor for NOx reduction by carbon monoxide over Fe/ZSM-5 catalysts, Chemical Engineering Journal, 307 (2017) 24- 40.

10Zhiqiang Wang, Qingchao Huan, Chenlu Qi, Liqiang Zhang, Lin Cui, Xiren Xu, Chunyuan Ma. Study on the removal of coal smoke SO3 with CaO. Energy Procedia, 1: 1911–1917, 2012

11Luyuan Wang, Xingxing Cheng, Zhiqiang Wang*, Xingyu Zhang, Chunyuan Ma. NO reduction by CO over iron-based catalysts supported by activated semi-coke, Canadian Journal of Chemical Engineering, 95(3): 449-458, 2017.

12Luyuan Wang, Xingxing Cheng*, Zhiqiang Wang*, Chunyuan Ma, Yukun Qin. Investigation on Fe-Co binary metal oxides supported on activated semi-coke for NO reduction by CO. Applied Catalysis B: Environmental, 2017, 201: 636-651.

13Luyuan Wang, Xingxing Cheng*, Zhiqiang Wang*, Chunyuan Ma, Yukun Qin. Improvement in the Water Tolerance of SiO2-Modified Semicoke Catalysts for the Low-Temperature NO+ CO Reaction. Energy & Fuels, 2017, 31(7): 7413-7425.

14Zhiqiang Wang, Yingjie Hu, Xingxing Cheng,* and Chunyuan Ma. Study of adsorption characteristics of calcium-based sorbents with SO3. Energy Procedia, 144: 43–49, 2018

15Luyuan Wang, Xingxing Cheng*, Zhiqiang Wang*, Hao Huang,Chunyuan Ma, Yukun Qin. Effect of the NO+CO reaction on the consumption of carbon supports: an in situ TG-FTIR analysis. Chemical Engineering Journal. 352(15) : 90-102, 2018

16Liangliang Liu, Zhiqiang Wang*, Kai Che,Yukun Qin. Research on the release of gases during the bituminous coal combustion under low oxygen atmosphere by TG–FTIR. Journal of the Energy  Institute. 91(3): 323-330, 2018.

 

Patents

1. Zhiqiang Wang, etc. The invention relates to a process of resource utilization of sludge crushing pyrolysis.

2. Zhiqiang Wang, etc. Process of cold ignition for low-emission boilers.

3. Zhiqiang Wang, etc. A high-efficiency and low-emission combustion device and a process of coal combustion gas combination.

4. Zhiqiang Wang, etc. Paper sludge combustion device and process for preventing water cold wall slag and corrosion.

5. Zhiqiang Wang, etc. A test system and method for the cold state of flue gas denitrification by SCR method.

6. Zhiqiang Wang, etc. Equipment and process for effective removal of sulphur trioxide by natural alkali.

7. Zhiqiang Wang, etc. The invention relates to a flue gas recycling and superfine coal powder reburning laminate furnace and its combustion technology.

8. Zhiqiang Wang, etc. An organic waste gas treatment system.

9. Zhiqiang Wang, etc. A non-uniform porous medium burner for treating organic exhaust gas.

10. Zhiqiang Wang, etc. A low-emission high-efficiency laminar combustion device.

 

 

 

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