Wen Ping（Senior experimentalist）

  Name：

Wen Ping

Academic Title：

Senior experimentalist

  Department：

Chemical Engineering Experimental Teaching Center

Research Interests：

Oil and gas processing, coal chemistry and processing, etc

  E-Mail：

wenping@upc.edu.cn

  Telephone：

◎Educational Background

College of Chemistry and Chemical Engineering, China University of Petroleum (East China), Master

◎Work Experience

1991.7-2001.12   Assistant Engineer, College of Chemistry and Chemical Engineering, China University of Petroleum (East China),

2001.12-2006.12  Experimentalist, College of Chemistry and Chemical Engineering, China University of Petroleum (East China),

2006.12---       Senior experimentalist, College of Chemistry and Chemical Engineering, China University of Petroleum (East China),

◎Research Direction

[1] Petroleum and Natural gas Chemistry

[2] Oil and gas processing

[2] Coal chemistry and processing

◎Research Project

Participated in more than 50 scientific research projects as principal or main researcher, including more than 20 minister-level scientific research projects, including 10 key research projects of CNPC Development of heavy oil suspension bed hydrogenation technology, 2 projects of CNPC Young and middle-aged innovation Fund, and the rest are horizontal projects.  Some projects are listed below:

 [1] 2021.11.1-2021.12. Analysis and test of harmful elements and processing plug in Shengli crude oil.  Sinopec Shengli Oilfield Branch Petrochemical Complex.  

[2] 2022.1.14-3.31. Geochemical analysis and test of the First section of MAO formation in Xintan 1 well.  Research Institute of Exploration and Development, CNPC.  

[3] 2021.10.31-2022.10.31. Evaluation of heavy oil intrusion while drilling treatment technology in Tahe Oilfield.  Northwest Oilfield Branch of China Petroleum & Chemical Corporation.  

[4] 2019-2020. Study on the relationship between colloid stability and shelf life of Marine fuel oil. China Shipbuilding & Marine Fuel Co., LTD.  

[5] 2017.11-2018.4. Pilot experiment of heavy energy and light technology. Csic Technology Investment and Development CorporationLTD.  

[6] Development of a proprietary composite catalyst for hydrogenation of low-grade heavy oil to high-density fuel blending components.  Inner Mongolia Shengyuan Technology CorporationLTD.  

[7] 2016.11-2017.5. Development of inferior heavy oil hydrogenation technology.  Inner Mongolia Shengyuan Technology CorporationLTD.  

[8] 2014.08 - 2015.02. Development of petroleum resin hydrogenation modification technology.  Qingyang Yongxin Petrochemical CorporationLTD.  

[9] Development of suspended bed hydrocracking technology for heavy fraction of coal tar.  Shanghai Xinyou Energy Technology Co., LTD.  

[10] Development of coal tar suspension bed hydrogenation combined process Technology, Shanghai Shengbang Energy Technology Co., LTD.  

[11] September 2013 - December 2013 Development of Hydrogen Pyrolysis process for Xinjiang Heavy Oil residue, Xinjiang Tianzheng Zhongguang Petrochemical Company.  

[12] 2013/04 - 2014/04 Atmospheric residue of No.380 fuel oil in hydrogen pyrolysis, Shandong Yuhuang Chemical CorporationLTD.  

[13] 2013.01-.06 fuel Oil Property Evaluation, Beibu Gulf Yuchai Energy chemical Company.  

[14] 2012.09-12 Composition and Performance Parameters of ultra-heavy oil, CNPC Research Institute of Science and Technology.  

[15] Development of new distillate hydrogenation catalyst, Nantong Yangzi Catalyst Co., LTD.

[16] Pilot test program of coal tar hydrorefining (modification), Beijing Institute of Low-carbon clean Energy.   

[17] Development and viscosity reduction mechanism of broad spectrum MSA oil soluble heavy oil viscosity reducer.  2011.7- 2012.6.  Qingdao Development Zone Science and Technology Bureau.  

[18] 2011- 2012, Development of vacuum residue grout bed hydrocracking technology for Karamay super heavy oil, Karamay Petrochemical Company, petrochina.  

[19] 2009. Relationship between composition and characteristics of heavy oil, Research Institute of Petroleum Exploration and Development, petrochina.  

[20] 2008-2009. Mechanism of heavy oil composite catalytic viscosity reduction reaction, Henan Oilfield transverse.  

Development of new distillate hydrogenation catalyst, Nantong Yangzi Catalyst Co., LTD.

[21] 2005.9-2007.9. Study on hydrogen cater-type broad-spectrum heavy oil cracking catalyst, China National Petroleum Corporation science and Technology Development.  

[22] 2004.9-2006.9. Study on nano-sized ultrafine dispersed catalysts for residual oil/coal hydrogenation, Science and Technology Development of China National Petroleum Corporation.  

[23] 2009. Design, synthesis, interfacial properties and interaction with petroleum components of lipopeptide surfactants. National Natural Science Foundation of China,  

[24] Hydrocracking of heavy oil in suspended bed. China National Petroleum Corporation LTD.  

[25] 2010.380 Development of vacuum residue hydrocracking technology for fuel Oil, Shandong Yuhuang Chemical CorporationLTD.  

[26] 2008-2010. Chemical composition and conversion properties of non-hydrocarbon in residual oil.  Research project of State Key Laboratory of Heavy Oil.  

[27] 2007. Industrial test and supporting technology development of suspended bed hydrocracking, China National Petroleum Corporation LTD.  

[28] 2007.1-2007.12. Industrial test and development of suspension bed hydrocracking technology, China National Petroleum Corporation LTD.

[29] 2005.7-2006.12. Improvement of Superior Product Production technology and new product development, China National Petroleum Corporation LTD.  

[30] 2005. State Key Laboratory of Heavy Oil research project: Non-hydrocarbon chemical composition and conversion properties of residual oil.  Vertical subjects.  

[31] 2005.1-2005.12. Hydrocracking of heavy oil in suspended bed. China National Petroleum Corporation LTD.

[32] 2005.11 -2006.12.31. Application of new technology in heavy oil processing, China National Petroleum Corporation LTD.

[33] Hydrocracking of heavy oil in suspended bed. China National Petroleum Corporation LTD.  

[34] 2003.1-2003. 125,000 tons/year Simulation test of suspended bed hydrogenation reactor, China National Petroleum Corporation LTD.

[35] 2003.12-2005.5. Optimization of process conditions for heavy oil suspension bed hydrogenation industrial test unit, China National Petroleum Corporation LTD.  

[36] Development of a new reactor for heavy oil suspension bed hydrogenation, China National Petroleum Corporation LTD., 2001.9-2002.6.  

[37] 2000.8-2001.5. Mid-scale experiment of heavy oil suspension bed hydrogenation of 1800 tons/year, China National Petroleum Corporation LTD.  

(Omitted elsewhere)  

◎Representative Papers and Patents

1. Paper    The first author published more than 40 papers, which are listed as follows:

[1] Research on Nitrogen Distribution in Thermal Conversion of Vacuum Residues, ACS Preprints, 2002,47(1): 1～13. [SCI]

[2] Research on Porphyrin and Non porphyrin Nickel Distribution in Daqing Vacuum Residue and Its Cracked Residue. ACS Preprints, 2002, 47(3): 295-297. [SCI]

[3] Study on Nitrogen Distribution in thermal Conversion Products of Kalamayi Atmospheric Residue，ACS Preprints,2002,47(4): 405-407. [SCI]

[4] Nitrogen distribution in Karamay vacuum residue and its cracked residue.ACS Preprints.2003, 48(4): 307-309. [SCI][ISTP]

[5] Research on nitrogen distribution in slurry-bed hydrocracking of Karamay atmospheric residue, ACS Preprints, 2003,48(4):324-326.[SCI] ISTP]

[6] Study on Porphyrin and Non-Porphyrin Nickel Distribution in Daqing Vacuum Residue and Its Cracked Residue. Journal of Fuel Chemistry.2002,30 (5):477-480.[EI]

[7] Research on Nitrogen Distribution in Products of Slurry-bed Hydrocracking of Residues. Journal of Fuel Chemistry.2002,30(6):577-580.[EI]

[8] Research on nitrogen distribution during thermal conversion of vacuum residue. Journal of Petroleum University. 2002.26(1):87-90. [EI]

[9] Research on Nitrogen Distribution in Slurry-bed Hydrocracking and Thermal Conversion of Residues. Acta Petrolei Sinica (Petroleum Processing).2003.19(2):27-32. [EI]

[10] Nitrogen distribution of Gudao vacuum and its slurry-bed hydrocracking cracking resudue. Petroleum refining and chemical industry. 2005,36(1): 35-39. [EI]

[11] Effect of Catalyst on Nitrogen Distribution in Slurry-Bed Hydrocracking of Residue. Petrochemical engineering.2006, 35(10) :967-971. [EI]

[12] Research on slurry-bed hydrocracking of coking VGO. Journal of China University of Petroleum.2008.32(2):135-137 . [EI]

[13] CHANGES OF AVERAGE STRUCTURAL PARAMETERS OF VACUUM RESIDUE AND ITS FRACTIONS BEFORE AND AFTER THERMAL CONVERSION. Acta Petrolei Sinica (Petroleum Processing).2009, 25( 2): 266-270. [EI]

[14] DISTRIBUTION OF ACIDIC OXYGEN COMPOUNDS IN SLURRY-BED HYDROCRACKING PRODUCTIONS . Acta Petrolei Sinica (Petroleum Processing).2010.26(1):127-131.[EI]

[15] Research on Acidic Oxygen Compounds Distribution in Slurry-bed Hydrocracking Products of Karamay Atmospheric Residue. 2012 International Conference on Energy and Environmental Protection(ICEEP 2012), Natural Resources and Sustainable Development II . June 23-24, 2012.1/4.1861-1865. [EI]

[16] Research on the Effect of Asphaltene on the High Viscosity Heavy Oils. Petroleum refining and chemical industry. 2016.47(7)：33-37. [EI]

2. Patent  As one of the inventors, 33 patents have been authorized.  The list is as follows  

[1] Preparation of naphthenate catalyst and its application. J. Appl. Chem.  Transfer $100,000.  

[2] Wang Y, Wang Y, Wang Y, et al. A combined method of suspended bed hydrocracking and fixed bed hydrocracking for coal tar.  

[3] Preparation and application of oil soluble Mo-Ni bimetallic catalyst. ZL201510275523.1. 2017-03-22.  

[4] A method for low temperature isomerization of low carbon n-alkanes. ZL201510250323.0. 2017-01-04.  

[5] A combined regeneration method for high grade lubricating oil products from waste lubricating oil. ZL201510325181.X. 2016-12-07.  

[6] A combined regeneration method for producing high-grade lubricating oil products from waste lubricating oil.  ZL201510275574.5.

[7] Synthesis of suspended bed hydrocracking and fixed bed hydrocracking for coal tar fraction. Journal of Hydrocracking Science and Technology, 2017, 29 (1) : 1-8.  

[8] 2015. Preparation of a novel Luthor environmental protection epoxy soybean oil.  

[9] Preparation and application of n-alkane isomerization catalyst. ZL201410295731.3. 2017-04-12.  

[10] New catalytic pyrolysis and hydrotreating process of high sulfur, high acid and inferior heavy oil. ZL201110177167.1. 2014-05-28.  

[11] 2004.7.28. A cyclone separation technique for the online separation of solids from hydrotreating tail oil, Chinese Patent ZL02117839.9.  

[12] 2005.7.6. Treatment of heavy oil suspension bed hydrogenation tail oil by solvent extraction technology.  China Invention Patent ZL02117834.8.  

[13] Heavy oil suspension bed hydrocracking process Z02117835.6,2009.  

[14] A study on the catalytic activity of polymetallic salts in suspended bed hydrocracking of residual oil, China, 01109276.9.  

[15] Eddy flow separation technology for the separation of solids from hydrotreating tail oil, 02117839.9.  

[16] Catalyst for suspension bed hydrocracking of residual oil, 97121791.2.  

[17] Synthesis and characterization of an on-line low temperature sulfurization agent for hydrogenation catalysts , 02117836.4.  

◎Representative Works

[1]

[2]

◎Awards and Honors

[1] Research on preparation of high quality heavy base oil from residue hydrogenation tail oil. Third Prize of Science and Technology Progress of Sinopec;  Won a sinopec science and technology progress award medal.  

[2] Study on preparation of high quality heavy base oil from residue hydrotreating tail oil.First Prize of Excellent Scientific Research achievement of Petroleum University.  

[3] Research and development of new viscosity reduction cracking process.First Prize of Excellent Scientific Research achievement of Petroleum University.  

[4] Study on improvement of coking liquid yield and Reduction of sulfur content in coke. China University of Petroleum (East China) .Outstanding Science and Technology Achievement Award in 2005.  

◎Courses Offered

Undergraduate：“Experiment in Petroleum Chemistry”, “Experiment in Oilfield Chemistry”, “Experiment 3-2 for Chemical Engineering Major”, “Experiment 2-2 for Chemical Engineering Major”  

Postgraduate：“Experiment in Petroleum Chemistry”, “Experiment in Oilfield Chemistry”, “Experiment 3-2 for Chemical Engineering Major”, “Experiment 2-2 for Chemical Engineering Major”

◎Student Training

◎Part-time Academic Job

Reviewer of“Journal of Fuel Chemistry”

·