Yang Junwei(Associate professor)

Published:2022-10-26Author:王兆兴Number of Visits:36

  


  Name

Yang Junwei

http://cce.upc.edu.cn/_upload/article/images/73/e7/b52c7b5e450f9d252a2d26a0b39e/cfa61223-eaf3-49cf-bf89-38d3985a0b4a.jpg


Academic Title

Associate   professor


Advisor Type

Master   Supervisor


  Department

Department of   Chemical Engineering


Research Interests

Chemical engineering   and technology


  E-Mail

yangjwupc@126.com


  Telephone

15954227273






Educational Background


Undergraduate: September 2003 ~ July   2007 China University of Petroleum (East China) Chemical engineering and   technology

Master: September 2007 ~ July 2010 China   University of Petroleum (East China) Chemical engineering and technology

Doctor: September 2010 ~ July 2013 China   University of Petroleum (East China) Chemical engineering and technology

Postdoctoral: September 2013 ~ November   2015 Postdoctoral mobile station of power engineering and Engineering   Thermophysics, China University of Petroleum (East China)











Work Experience


2015-2018, China University of Petroleum   (East China) Lecturer, Department of Chemical Engineering

2019 present, China University of   Petroleum (East China) Associate Professor, Department of Chemical   Engineering










Research Direction


[1] Development of energy saving and   emission reduction technology for tubular heating furnace

[2] Development of high-end carbon   material production technology











Research Project


(1) Research and technical development   of an anti coking heating furnace suitable for small flow heavy oil   2021-09-01

(2) A new method for visual quantitative   characterization of coking precursors of heavy oil based on microfluidic   control Youth Science Foundation Project 2017-09-01

(3) Development of production   optimization technology for high-end graphite materials technological development   2020-10-21

(4) Development of pellet coke diagnosis   technology for delayed coking unit technological development 2020-11-12

(5) Numerical simulation of sulfur   slurry transportation and sulfur separator in continuous sulfur melting   process technological development 2020-09-30

(6) Development of deep drawing   technology of vacuum distillation heating furnace Sinopec science and   technology program 2018-07-31

(7) Coking raw material processing   performance comparison and database improvement project technical service   2020-06-24

(8) Distribution evaluation of heavy oil   delayed coking products technical service 2019-03-21

(9) Feasibility study on coking naphtha   processing scheme technological development 2019-08-19

(10) Development of deep drawing technology   of vacuum distillation heating furnace technological development 2018-06-22

(11) Evaluation test on coking blending   of styrene tar technical service 2018-04-08

(12) Study on high temperature heavy oil   gas-liquid cyclone separation system Other provincial and ministerial   projects (Science and Engineering) 2014-01-01

(13) Study on coke properties of coke   tube and liquid holding capacity of coke tower in coking furnace School   project (talent introduction) 2017-01-01

(14) Basic research on heat transfer optimization   and energy saving of cylindrical heating furnace Youth Fund 2017-03-02

(15) Study on coking mechanism of   heating furnace in solvent deasphalting unit technical service 2016-05-24

(16) Study on oil-liquid cyclone   separator with adjustable split specific gravity Other provincial and   ministerial projects (Science and Engineering) 2014-11-04

(17) Study on the mechanism of high   temperature heavy oil gas-liquid cyclone fast separation Other provincial and   ministerial projects (Science and Engineering) 2014-11-04










Representative Papers and Patents


1. Paper

(1) New Visual Test Method for the   Toluene Insolubles in Oil Products[J]. Energy & Fuels, 2020, 34, 2, 1447-1452.

(2) 延迟焦化加热炉炉管焦组成与成因分析[J]. 石油大学学报(自然科学版), 2020.44(1):180-184 .

(3) J. Yang, G. Shen, P. Lin, W. Wei, C.   Zhang, J.   Xiao(*), Kinetic Model for   the Deep-Severity Thermal Reaction in the Coke Drum of Delayed Coking [J].   Energy & Fuels, 2017.

(4) J. Yang, G. Shen, P. Lin, W. Wei, C.   Zhang, J. Xiao(*), Kinetic Model for the Deep-Severity Thermal Reaction in   the Coke Drum of Delayed Coking [J]. Energy & Fuels, 2017.

(5) J. Yang, C. Liu, S. Li, B. Sun, J.   Xiao(*),Y. Jin. A new pressure drop model of gas–liquid cyclone with   innovative operation mode [J]. Chemical Engineering and Processing: Process   Intensification, 2015, 95:256-266.

(6) J. Yang, X. Zhang, G. Shen, J.   Xiao(*),Y. Jin. Modeling the Mean Residence Time of Liquid Phase in the   Gas–Liquid Cyclone [J]. Industrial & Engineering Chemistry Research,   2015, 54(43):10885-10892.

(7) 杨军卫, 赵加民, 王建军, 肖家治, 金有海.气液旋流器内液相平均停留时间[J]. 化工学报, 2015.

(8) J. Yang, G. Shen, L. Wang, J.   Xiao(*),C. Yang. Practical Model for the Induction Period of Heavy Oil during   Thermal Reaction [J]. Energy & Fuels, 2013, 27(4): 2068-2072.

(9) J. W. Yang, N. N. Tai, L. J. Wang,   J. Z. Xiao(*),C. H. Yang. Numerical Simulation of the Flue Gas and Process   Side of Coking Furnaces [J].Industrial & engineering chemistry research,   2012, 51(47):15440-15447.

(10) J. W. Yang, D. X. Chen, G. P. Shen,   J. Z. Xiao(*),C. H. Yang. Narrow Fraction Model with Secondary Cracking for   Low-Severity Thermal Cracking of Heavy Oil [J]. Energy & Fuels, 2012,   26(6):3628-3633.

 

2.Patent

(1) Device and method for measuring   liquid phase residence time distribution of gas-liquid cyclone, China, ZL   2015107123312.

(2) Cylindrical tubular heating furnace,   China, zl201810384804.4.

 

(3) Riser square box furnace, China, ZL   201820607259.6

(4) Cylindrical tubular heating furnace,   China, ZL 201821686741 X

(5) Detection device and particle   detection method in suspension, China, ZL 201910330832.2

(6) A hydrogenation furnace for   improving heat intensity distribution, China, zl2014 2 0455022.2.

(7) A delayed coking heating furnace,   China, cn201010554752.4.

(8) Symmetrical double stepped tubular   radiant furnace, China, ZL 2011 20503562 X

(9) Heating furnace inverted trapezoidal   wall burner, China, ZL 2010 2 0293852.1.

(10) A tubular heating furnace   convenient for on-site fire observation and regulation, China, ZL 2010   20293836.2.










Representative Works


[1]Chemical thermodynamics and delayed   coking engineering









Awards and Honors


(1) 2017, the State Council won the   second prize of the national science and Technology Progress Award and the   third adult.

(2) 2016, China Petroleum and Chemical   Industry Federation won the first prize of scientific and technological   progress and the second prize.

(3) 2016, he won the second prize of   Shandong Provincial Science and Technology Progress Award and the second   adult.

(4) 2014, Sinopec won the third prize   for scientific and technological progress and the third adult.










Courses Offered


Undergraduate:《Chemical   thermodynamics》《principles of energy utilization   process










Student Training


1.Supervise Postgraduate Students

Independent and assisted in guiding more   than 30 graduate students. The employment direction of graduates: large   domestic design institutes, research institutes, refining and chemical   enterprises, foreign enterprises and scientific research institutes.

2.Admissions Instructions

Chemical engineering and technology









Part-time Academic Job


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