Hi, I am Yuming Zhang, My LiveDNA is 86.12129
 
   
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Dr. Yuming Zhang
 
Highest Degree: Ph.D. in Chemical Engineering from Chinese Academy of Sciences, China
 
Institute: China University of Petroleum, China
 
Area of Interest: Engineering
  •   Chemical Engineering
  •   Thermal Conversion
  •   Coal Pyrolysis
  •   Oil Cracking
 
URL: http://livedna.org/86.12129
 
My SELECTED Publications
1:   Cai, L., Y. Zhang, S. Gao, X. Xiao, J. Zhang, G. Xu and L. Cui, 2016. Process simulation of a lignite-fired circulating fluidized bed boiler integrated with a dryer and a pyrolyzer. Energy Sources Part A Recovery Util. Environ. Eff., 38: 190-201.
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2:   Lai, D., Z. Chen, L. Lin, Y. Zhang, S. Gao and G. Xu, 2015. Secondary cracking and upgrading of shale oil from pyrolyzing oil shale over shale ash. Energy Fuels, 29: 2219-2226.
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3:   Yu, D., Y. Zhang, Y. Yang, S. Gao and G. Xu, 2013. Gasification characteristics of petroleum coke catalyzed by black liquor in a fluidized bed. Acta Petrolei Sin., 29: 438-446.
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4:   Zhan, M., S. Liu, Y. Zhang, G. Sun and L. Weng, 2014. Markov chain modeling the mixing of coal and solid heat carriers in a continuous colliding static mixer. Ind. Eng. Chem. Res., 53: 6830-6839.
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5:   Zhang, J., R. Wu, G. Zhang, C. Yao, Y. Zhang, Y. Wang and G. Xu, 2013. Recent studies on chemical engineering fundamentals for fuel pyrolysis and gasification in dual fluidized bed. Ind. Eng. Chem. Res., 52: 6283-6302.
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6:   Zhang, Y., D. Yu, W. Li, S. Gao and G. Xu, 2014. Bifunctional catalyst for petroleum residue cracking gasification. Fuel, 117: 1196-1203.
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7:   Zhang, Y., D. Yu, W. Li, S. Gao, G. Xu, H. Zhou and J. Chen, 2013. Fundamental study of cracking gasification process for comprehensive utilization of vacuum residue. Appl. Energy, 112: 1318-1325.
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8:   Zhang, Y., D. Yu, W. Li, Y. Wang, S. Gao and G. Xu, 2012. Fundamentals of petroleum residue cracking gasification for coproduction of oil and syngas. Ind. Eng. Chem. Res., 51: 15032-15040.
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9:   Zhang, Y., G. Sun, S. Gao and G. Xu, 2015. Regeneration kinetics of spent FCC catalyst via coke gasification in a micro fluidized bed. Procedia Eng., 102: 1758-1765.
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10:   Zhang, Y., J. Wang, X. Zhang and G. Sun, 2014. Experimental study of petroleum coke steam gasification catalyzed by black liquor in a fluidized bed. Energy Procedia, 61: 472-475.
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11:   Zhang, Y., M. Yao, G. Sun, S. Gao and G. Xu, 2014. Characteristics and kinetics of coked catalyst regeneration via steam gasification in a micro fluidized bed. Ind. Eng. Chem. Res., 53: 6316-6324.
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12:   Zhang, Y., M. Yao, S. Gao, G. Sun and G. Xu, 2015. Reactivity and kinetics for steam gasification of petroleum coke blended with black liquor in a micro fluidized bed. Appl. Energy, 160: 820-828.
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13:   Zhang, Y., Y. Wang, L. Cai, C. Yao, S. Gao, C.Z. Li and G. Xu, 2013. Dual bed pyrolysis gasification of coal: Process analysis and pilot test. Fuel, 112: 624-634.
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14:   Zhou, Q., T. Zou, M. Zhong, Y. Zhang, R. Wu, S. Gao and G. Xu, 2013. Lignite upgrading by multi-stage fluidized bed pyrolysis. Fuel Process. Technol., 116: 35-43.
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