> College of Mechanical and Transportation Engineering
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> Department of Oil and Gas Storage and Transportation
Department of Oil and Gas Storage and Transportation
Prof. Zhang Jinjun
Education
l Ph. D. Petroleum Storage and Transportation Engineering, China University of Petroleum-Beijing, 1998
l M.Sc. Petroleum Storage and Transportation Engineering, China University of Petroleum-Beijing, 1987
l B.Sc. Petroleum Storage and Transportation Engineering, China University of Petroleum (Huadong), 1982
Research
l Rheology and pipeline transportation of waxy and heavy crude oils
l Flow assurance of oil pipelines
l Oil-water two phase flow
l Reliability of oil & gas pipelines
Programs supervised for
l Ph.D. Petroleum Storage and Transportation Engineering
l M.Sc. Petroleum Storage and Transportation Engineering
Teaching
l Non-Newtonian fluid mechanics
l Fundamentals and application of rheology
l Advances in Petroleum Storage and Transportation Engineering
Previous Teaching / Working Experience
l 1982-1984 China University of Petroleum(Huadong)
l 1987-current China University of Petroleum-Beijing
Other Functions
l Vice Chair, Academic Committee of the China University of Petroleum- Beijing
l Chair, Academic Committee of the College of Mechanical and Transportation Engineering, China University of Petroleum-Beijing
l Academic Leader, National Key Discipline of Petroleum Storage and Transportation Engineering
l Director, Beijing Key Laboratory of Urban Oil & Gas Distribution Technology
Professional Affiliations
l Vice President and Secretary General, Chinese Society of Rheology
l Member, Committee of Petroleum Storage and Transportation of the Chinese Society of Petroleum
l Secretary-General, University Division, Committee of Petroleum Storage and Transportation, Chinese Society of Petroleum
l Member of Council, Chinese Chemical Society
l Senior Member, Chinese Society of Theoretical and Applied Mechanics
l Member, American Chemical Society
Contact:
Email: zhangjj@cup.edu.cn
Tel & Fax: +86-10-89764627
Office Address: 18 Fuxue Road, Changping, Beijing 102249, China
Publications
1. Jiangbo Wen, Jinjun Zhang,* Zhihui Wang, et al. Full and Partial Emulsification of Crude Oil−Water Systems asa Function of Shear Intensity, Water Fraction, and Temperature. Industrial and Engineering Chemistry Research, 2014, 53, 9513−9520
2. Guangyu Sun, Jinjun Zhang,* and Hongying Li. Structural Behaviors of Waxy Crude Oil Emulsion Gels. Energy Fuels, 2014, 28, 3718−3729
3. Pengfei Yu, Jinjun Zhang*, Bo Yu, Yi Wang, and Guojun Yu. Study on Low Flow Rate Operating Characteristics of Hot Waxy Crude Oil Pipelines Based on an Unsteady-State Calculation Method. Advances in Mechanical Engineering. 2014, Article ID 620848, 13pages. doi:10.1155/2014/620848
4. Pengfei Yu, Jinjun Zhang*, Bo Yu, Guojun Yu and Jinping Huang. Study on Constant-Pressure Restart Failure Probability of Waxy Crude Pipeline. Journal of Engineering Thermophysics, 2014, 35(4), 705-709.
5. Yun Lei, Shanpeng Han, Jinjun Zhang,* Youquan Bao, Zhiwei Yao, Ya’nan Xu. Study on the Effect of Dispersed and Aggregated Asphaltene on Wax Crystallization, Gelation, and Flow Behavior of Crude Oil. Energy Fuels, 2014, 28(4): 2314-2321
6. Li, H., Zhang, J. Viscosity prediction of non-Newtonian waxy crude heated at various temperatures. Petroleum Science and Technology, 2014, 32(5):521-526
7. Houxing Teng, Jinjun Zhang*. A new thixotropic model for waxy crude. Rheologica Acta, 2013, 52(10-12):903-911
8. Teng Houxing, Zhang Jinjun*. Modeling the viscoelasto-plastic behavior of waxy crude. Petroleum Science, 2013, 10: 395-401
9. Zhang Jinjun*, Yu Bo, Li Hongying, Huang Qiyu. Advances in rheology and flow assurance studies of waxy crude. Petroleum Science, 2013, 10(4):538-547
10.Zhang Jinjun*, He limin, Gong Jing, et al. Theoretical and Technological Advances in Petroleum Storage and Transportation Engineering. Journal of China University of Petroleum, 2013,37(5):151-162
11.Teng Houxing, Zhang Jinjun*. Viscoelasto-Thixotropic Model for Waxy Crude. CIESC Journal, 2013, 64(11): 3968-3975.
12.Teng Houxing, Zhang Jinjun*. Modeling the Thixotropic Behavior of Waxy Crude. Industrial and Engineering Chemistry Research, 2013, 52, 2013, 52, 8079−8089
13.Guo L, Zhang J*, Han S, Teng H. Evaluation of Thixotropic Models for Waxy Crudes Based on Stepwise Shearing Measurements. Petroleum Science and Technology, 2013,31:895–901
14.Yu Chenyang, Zhang Jinjun*, Ding Zhenjun, et al. Measuring the flow behavior of of oil-water mixtures with the stirring method. Acta Petrolei Sinica, 2013, 34(3):574-579
15.Chengyu Bai, Jinjun Zhang*. Thermal, Macroscopic, and Microscopic Characteristics of Wax Deposits in Field Pipelines. Energy Fuels, 2013, 27, 752−759
16.Chengyu Bai, Jinjun Zhang*. Effect of Carbon Number Distribution of Wax on the Yield Stress of Waxy Oil Gels. Industrial and Engineering Chemistry Research, 2013, 52, 2732−2739
17.Xin Liu, Bo Yu, Jian Zhou, Jinjun Zhang . Temperature drop characteristics of crude oils after shutdown of a pipeline for a batchwise transportation system. Heat Transfer Engineering, 2013, 34(4): 385-397
18.Banglong Jia. Jinjun Zhang*. Yield Behavior of Waxy Crude Gel: Effect of Isothermal Structure Development before Prior Applied Stress. Industrial and Engineering Chemistry Research. 2012, 51(33), 10977-10982.
19.Banglong Jia. Jinjun Zhang*. A six-parameter thixotropic model for waxy crude oil. Acta Petrolei Sinica. 2012,33(6):1080-1085
20.Shize Yi, and Jinjun Zhang*. Shear-induced change in morphology of wax crystals and flow properties of waxy crudes modified with the pour-point depressant. Energy & Fuels. 2011, 25(12), 5660–5671.
21.Wang Qiankun, Yu Bo, Sun Changzheng, Zhang Zhengwei, Zhang Jinjun, Wei Jinjia. Comparison study on the thermal impact of two types of laying technologies with double pipelines in one ditch. Journal of Engineering Thermophysics. 2011, 32(5): 787-790.
22.Li Wang, Wang Qingyuan, Li Ruilong, Li Chao, Yu Bo, Zhang Jinjun, Dai Pengfei. Numerical study on temperature field of a large floating roof oil tank. CIESC Journal. 2011, 62(S1): 108-122.
23.Kai Wang, Jinjin Zhang*, Hongying Li, Feingzhi Wang, Bo Yu. Assessment of temperature of china west crude oil pipeline with a probabilistic approach. Oil Gas European Magazine. 2011, 37(2): 90-93.
24.Shize Yi, Jinjun Zhang*. Relationship between waxy crude oil composition and change in the morphology-and-structure of wax crystals induced by pour-point-depressant- beneficiation. Energy & Fuels. 2011, 25(4): 1686-1696.
25.Zhang Wenke, Zhang Jinjun*, Yu Bo. Stochastic numerical simulation on oil temperature fluctuations of hot crude pipelines and sensitivity analysis to related factors. J. of China University of Petroleum. 2011,35(2): 141-146.
26.Zhang Jinjun*, Zhang Wenke, Yu Bo. An efficient algorithm of the proper orthogonal decomposition for the restart computation of buried heated crude pipelines. Acta Petrolei Sinica. 2011, 32(1): 167-170.
27.Yu B, Li C, Zhang ZW, Liu X, Zhang JJ, Wei JJ, Sun SY, Huang JP. Numerical simulation of a buried hot crude oil pipeline under normal operation. Applied Thermal Engineering, 2010, 30(17-18): 2670-2679
28.Hou L, Zhang J, Ding J, Wei C. The variation of the gel point of Daqing crude oil with pipelining history. Petroleum Science and Technology. 2010, 28(13): 1331-1337.
29.Xin Liu, Jinjun Zhang*, Hongying Li, Bo Yu. PPD treatment, intermittent operation address low waxy crude throughput rates. Oil & Gas Journal. 2010, 108(46): 22-25.
30.Zhang Jinjun*, Guo Liping. Assessment of thixotropy models for waxy crude based on the hysteresis loop. Acta Petrolei Sinica. 2010, 31(3): 495-500.
31.Hou Lei, Zhang Jinjun. A study on creep behavior of gelled Daqing crude oil. Petroleum Science & Technology. 2010, 28(7): 690–699.
32.Xu C, Yu B, Zhang ZW, Zhang JJ, Wei JJ, Sun SY. Numerical simulation of a buried hot crude oil pipeline during shutdown. Petroleum Science. 2010, 7(1): 73-82.
33.Hou L, Zhang, J, Sun L. Change of yield stress of Daqing crude oil with thermal and shear history. Petroleum Science and Technology. 2009, 27(18): 2168-2176.
34.Zhang Jinjun*, Zhang Wenke, Ding Jianlin, Yu Bo. Reliability-based assessment of flow assurance of hot waxy crude pipelines. Proc. Brazilian Petroleum, Gas and Biofuels Institute [IBP] Rio Pipeline Conference (Rio de Janeiro, Brazil, 9/22-24/2009) Technica, 2009.
35.Wang K, Zhang JJ*, Yu B, Zhou J, Qian JH, Qiu DP. Numerical simulation on the thermal and hydraulic behaviors of batch pipelining crude oils with different inlet. Oil & Gas Science and Technology-Rev. IFP. 2009, 64(4): 503-520.
36.Wang Yi, Yu Bo, Zhang Jinjun, Wei Jinjia, Zhang Hongna, Li Fengchen, Yasuo Kawaguchi, Dou Dan. Study on the Reynolds stress model for drag reducing viscoelastic flows. Journal of Engineering Thermophysics, 2009, 30(4): 611-614.
37.Li Wei, Yu Bo, Zhang Jinjun, Huang Jinping. Numerical simulation of thermal parameter of hot oil pipeline during coating overhauling period. Journal of China University of Petroleum (edition of natural science). 2009, 33(1): 103-108.
38.Guo Liping, Zhang Jinjun*. Study on thixotropy of waxy crude oil emulsion. Journal of Engineering Thermophysics.2009, 30(2): 246-248.
39.Ling Xiao, Wang Yi, Yu Bo, Zhang Jinjun, Wang Kai, Da Xin. Thermal analysis of two pipelines laid in one ditch in Xinda pipeline in China. Journal of Engineering Thermophysics, 2009, 30(2): 299-301.
40.Wang Kai, Zhang Jinjun*, Yu Bo. Optimal heating ratio of batch pipelining of cold and hot crude oils. Journal of China University of Petroleum (Edition of Natural Science). 2008, 32(5): 102-107.
41.Ling Xiao, Zhang Jinjun*, Li Hongying, Huang Qiyu, Hou Lei. Transportation of waxy crudes in batch through China west crude oil pipeline with pour-point-depressant beneficiation (IPC2008-64288). Proc. of the ASME 7th International Pipeline Conference (Calgary, Canada, Sept. 29-Oct. 3, 2008).
42.Zhang Jinjun*, Liu Xin. Some advances in crude oil rheology and its application. Journal of Central South University of Technology. 2008, 15 (suppl.1): 288-292.
43.Gao Peng, Zhang Jinjun*, Hou Lei, Wang Haifeng. Relationship between waxy crude viscosities and waxy crystal microstructures. Journal of Central South University of Technology (English Edition), 2008, 15(suppl.1): 406-410.
44.Li Hongying, Zhang Jinjun, Ling Xiao, Huang Qiyu, Lin Xiaofei, Jia Banglong, Li Yuguang. Simulation of pipelining pours point depressant beneficiated waxy crude oil through China West Crude Oil Pipeline. Journal of Central South University of Technology (English Edition). 2008,15(suppl. 1): 483-487.
45.Zhang Zhengwei, Ling Xiao, Yu Bo, Zhang Jinjun, Dai Bing, Wang Kai, Li Wei. Numerical simulation of buried hot crude oil pipeline under normal operation. Journal of Engineering Thermophysics. 2008, 29(8): 1389-1392.
46.Peng Jianwei, Han Shanpeng, Zhang Jinjun*, Hou Lei. Yielding characteristics of gelled Daqing crude oil on different stress loading time. Journal of China University of Petroleum (Edition of Natural Science). 2008, 32(4): 109-113.
47.Wang Kai, Zhang Jinjun*, Yu Bo. Economic comparison between different heating schemes of batch pipelining of cold and hot crude oils. Journal of Southwest Petroleum University (Science and Technology Edition). 2008, 30(2): 158-162.
48.Huang Qiyu, Li Yuxian, Zhang Jinjun. Unified wax deposition model. Acta Petrolei Sinica. 2008, 29(3): 459-462.
49.Yu B, Wang Y, Zhang JJ, Liu X, Zhang ZW, Wang K. Thermal impact of the products pipeline on the crude oil pipeline laid in one ditch—The effect of pipeline interval. International Journal of Heat and Mass Transfer. 2007, 51(3-4): 597–609.
50.Fan Huajun, Zhang Jinjun*, Hou Lei. Safety assessment benchmarks of shutdown and restart for crude oil pipeline. Journal of Petrochemical Universities. 2007, 20(4): 72-75.
51.Zhu Yingru, Zhang Jinjun*. Characteristic temperature of waxy crude oils. Petroleum Science. 2007, 4(3): 57-62.
52.Yu B, Wang Y, Liu X, Zhang JJ, Zhang ZW, Wang K. Model studies thermal effects of liquid pipeline collocation. Oil & Gas Journal. 2007, 105(18): 54-56, 58.
53.Yu Bo, Ling Xiao, Zhang Jinjun, Wang Yi. Study on laying technology of products pipeline along with hot crude pipeline in one ditch. Acta Petrlei Sinica. 2007, 28(5): 149-152.
54.Yu Bo, Ling Xiao, Zhang Jinjun, Wang Yi. Study on laying technology of products pipeline along with hot crude pipeline in one ditch. Acta Petrolei Sinica. 2007, 28(5): 149-152.
55.Fan Huajun, Zhang Jinjun*, Huang Jinping. Waxy crude shutdown Method yields savings. Oil & Gas Journal. 2007, 105(30): 65-66,68-69.
56.Zhang Jinjun*, Zhu Yingru, Li Hongying, Liu Xiaomin, Jiang Min. Experimental research on characteristic temperature of waxy crude. Acta Petrolei Sinica. 2007, 28 (4): 112-114,118.
57.Huang Qiyu, Zhang Fan, Zhang Jinjun, Wangmin, Bai Dongqiao. Research on preparation condition of water emulsion for crude oil. Oil & Gas Storage and Transportation. 2007, 26(6): 49-51.
58.Hou L, Zhang J. Effects of thermal and shear history on the viscoelasticity of Daqing crude oil. Petroleum Science and Technology. 2007, 25(5): 601–614.
59.Yu Bo, Wang Yi, Hou Lei, Zhang Jinjun. Direct numerical simulation on the drag-reducing flow by surfactant additives at various rheological properties. Journal of Engineering Thermophysics. 2007, 28(3): 469-471. Language: Chinese.
60.Zhang Jinjun, Zhang Fan, Huang Qiyu, Yan Dafan. Experimental simulation of effect of shear on rheological properties of beneficiated waxy crude oils. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 108-111.
61.Chen Jun, Zhang Jinjun, Li Hongying. Low temperature flowability characteristic of waxy crude. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 436-448.
62.Han Shanpeng, Jiang Wenxue, Zhang Jinjun. Approaches to predict viscosities of crude oil blends. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 466-470.
63.Zhu Yingru, Zhang Jinjun. Pipelining characteristics of Daqing waxy crude oil. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 442-444.
64.Gao Peng, Zhang Jinjun. New assessment of friction factor correlations for power law fluids in turbulent pipe flow: A statistic approach. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 77-81.
65.Hou Lei, Zhang Jinjun. Viscoelasticity of gelled waxy crude oil. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 414-417.
66.Hou Lei, Zhang Jinjun. New method for rapid thixotropic measurement of waxy crude. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 471-473.
67.Li Hongying, Zhang Jinjun, Chen Jun, Sun Lixin. Gelling properties of waxy crude under quiescent and shearing conditions. Journal of Central South University of Technology. 2007, 14 (suppl. 1): 439-441.
68.Gao Peng, Zhang Jinjun, Ma Guixia. Direct image-based fractal characterization of morphologies and structures of wax crystals in waxy crude oils. Journal of Physics: Condensed Matter. 2006, 18 (50): 11487–11506.
69.Hou Lei, Zhang Jinjun, Duan Yaqing. Effect law of shear on the visco-elasticity of waxy crude.Journal of Xi'an Shiyou University(Natural Sciences Edition). 2006, 21(6): 40-43.
70.Qian Jianhua, Zhang Jinjun, Li Hongying, et al. Study evaluates viscosity prediction of crude blends. Oil and Gas Journal, 2006, 104(39): 61-68.
71.Jianlin Ding, Jinjun Zhang, Hongying Li, Fan Zhang, Xiaojing Yang. Flow behavior of Daqing waxy crude oil under simulated pipelining conditions. Energy & Fuels. 2006, 20(6): 2531-2536.
72.Jianlin Ding, Jinjun Zhang, Hongying Li, Fan Zhang, Xiaojing Yang. Flow behavior of Daqing waxy crude oil under simulated pipelining conditions. Energy & Fuels. 2006, 20(6): 2531-2536.
73.Chen Jun, Zhang Jinjun. Hydraulic characteristics of pipelines transporting hot waxy crudes. Proceedings of IPC2006, 6th International Pipeline Conference, September 25-29, 2006, Calgary, Alberta, Canada.
74.Zhang Jinjun, Ding Jianlin, Xu Kang. Determination of safe pumping temperature for waxy crude pipelines. Proceedings of IPC2006, 6th International Pipeline Conference, September 25-29, 2006, Calgary, Alberta, Canada.
75.Huang Qiyu, Zhang Jinjun. Study on wax deposition of Daqing crude oil. Acta Petrolei Sinica. 2006, 27(6): 125-129.
76.Zhu Yingru, Sun Jishu, Li Hongying, Zhang Jinjun. Study on yielding behavior of the waxy crude of Daqing Oilfield near condensation point. Journal of Xi’an Shiyou University (Natural Science Edition). 2006, 27(4): 58-60,64.
77.Bu Wenping, Shuai Jian, Wang Xiaoming, Zhang Jinjun. Residual stress test on welding repair structure of drilled pipeline. Journal of China University of Petroleum (Edition of Natural Science). 2006, 30(3): 81-84.
78.Jinxin Li, Jinjun Zhang. Separation and characterization of alkyl phenol formaldehyde resins demulsifier by adsorption chromatography, gel permeation chromatography, infrared spectrometry and nuclear magnetic resonance spectroscopy. Analytica Chimica Acta. 2006, 566(2): 224-237.
79.Li Wei, Zhang Jinjun. Numerical simulation of the temperature field in the soil around a buried hot oil pipeline after shutdown. Journal of Xi’an Shiyou University(Natural Science Edition). 2005, 20(6): 27-29, 33.
80.Jianhua Qian, Jinjun Zhang, Qiang Zhang, Qiyu Huang, Zhanpin Yang. Evaluation of mathematic models for calculating viscosity of crude oil blends. Proc. of the Rio Pipeline Conference & Exposition (Rio de Janeiro, 17-19 Ocober 2005) IBP 1146-05.
81.Jianlin Ding, Jinjun Zhang, Hongying Li, Fan Zhang, Xiaojing Yang. Flow behavior of Daqing waxy crude oil under simulated pipelining condition. Proc. of the Rio Pipeline Conference & Exposition (Rio de Janeiro, 17-19 Ocober 2005) IBP1197-05.
82.Hou Lei, Zhang Jinjun. An experimental study on viscoelasticity of Daqing crude oil. Acta Petrolei Sinica. 2005, 26(6): 109-112.
83.Hou Lei, Zhang Jinjun. Study on thixotropy of waxy crude based on viscoelasticity analysis. Journal of the University of Petroleum, China(Edition of Natural Science). 2005, 29(4): 84-86,94.
84.Li Hongying, Zhang Jinjun, Yan Dafan. Correlations between the Pour Point/Gel Point and the Amount of Precipitated Wax for Waxy Crudes. Petroleum Science and Technology. 2005, 23(11-12): 1313-1322.
85.Li Yufeng, Zhang Jinjun. Prediction of viscosity variation for waxy crude oils beneficiated by pour-point-depressants during pipeline. Petroleum Science and Technology. 2005, 23(7-8): 915-930.
86.Xu Kang, Zhang Jinjun. Temperature drop calculation of waxy crude in a buried pipeline after shutdown using enthalpy formulation. J. of the University of Petroleum, China (Edition of Natural Science). 2005, 29(1): 84-88.
87.Hou Lei, Zhang Jinjun. Status and analysis of low temperature viscoelasticity of waxy crude oil. Journal of the University of Petroleum, China (Edition of Natural Science). 2004,28(6):140-144.
88.Xu Kang, Zhang Jinjun. Uncertainty and probability distribution of the viscosity of pipeline waxy crude oil. Journal of Xi'an Shiyou University (Natural Science Edition). 2004, 28(6): 35-37.
89.Qian Jianhua, Zhang Jinjun et al. Pipelining of viscous waxy crude with the pour-point-depressant beneficiation: successful experience in the Lu-Ning pipeline (IPC04-0612). Proceedings of IPC 2004(October 4-8, Calgary, Alberta, Canada).
90.Xu Kang, Zhang Jinjun, Chen Jun, Li Hongying. A new assessment method for reliability of prediction model with fuzzy mathematics. Journal of the University of Petroleum, China (Edition of Natural Science). 2004, 28(4): 102-104.
91.Li Yufeng, Zhang Jinjun, Huang Qiyu. A mathematical model for shear effect on the viscosity of waxy crude beneficiated with pour point depressant. Acta Petrolei Sinica. 2004, 25(4): 109-112.
92.Cui Xiuguo. Zhang Jinjun. Determination of the thermal influence zone of buried hot oil pipeline on steady operation. Journal of the University of Petroleum, China (Edition of Natural Science). 2004, 28(2): 75-78.
93.Zhang Jinjun, Pan Daolan. A mathematical model for shear effect of gel point of crude beneficiated with pour-point depressants. Acta Petrolei Sinica. 2004, 25(2): 96-99.
94.Chen Jun, Zhang Jinjun. Determining the wax content of waxy crudes using differential scanning calorimetry. Thermochimica Acta. 2004, 410(1-2): 23-26.
95.Chen Jun, Zhang Jinjun. New approach developed for estimating pour point of crude oil blends. Oil and Gas Journal. 2003, 101(31): 60-64.
96.Li H., Zhang J. A generalized model for predicting non-Newtonian viscosity of waxy crudes as a function of temperature and precipitated wax. Fuel,2003, 82(11): 1387-1397.
97.Cui Xiuguo, Zhang Jinjun. Transient heat transfer problems for buried hot waxy crude pipelines. Engineering Science. 2003, 5(7): 77-82.
98.Chen Jun, Zhang Jinjun. A new model for determining gel points of mixed crude. Journal of the University of Petroleum, China (Edition of Natural Science). 2003, 27(5): 76-80.
99.Li Hongying, Huang Qiyu, Zhang Fan, Zhang Jinjun. Determination of wax content in crude oil using differential scanning calorimetry. Journal of the University of Petroleum, China (Edition of Natural Science). 2003, 27(1): 60-62.
100. Zhang Jinjun, Yan Dafan. Reliability analysis on an approach to energy dissipation rate of fluid flow in turbulent pipe. Journal of the University of Petroleum, China (Edition of Natural Science). 2002, 26(6): 82-85.
101. Zhang Jinjun, Zhang Fan, Huang Qiyu, YAN Dafan. An approach to estimating the average shear rate in an adiabatic stirred vessel. Journal of Engineering Thermophysics. 2002, 23(6): 703-706.
102. Zhang Jinjun, Yan Dafan. Approach to estimation of shear rate of Newtonian fluids flowing in turbulent pipe. Journal of the University of Petroleum, China (Edition of Natural Science). 2002, 26(4): 63-65.
103. Zhang Jinjun. Technologies for Pipelining High-Pour-Point and Viscous Crudes and Their Development. Engineering Science. 2002, 4(6): 71-76.
104. Du Guomin, Zhang Jinjun. Influence of light component volatilization of depressant crude on low velocity shear effect. Oil & Gas Storage and Transportation. 1998, 17(9): 1-2.
105. Zhang Jingjun, Liu Zhonghui, Zhang Fan, Huang Qiyu, Yan Dafan. Waxy crude treated with pour-point-depressants: flow behaviour and its evaluation. Proc. of ISMNP’97, International Acadamic Press, 1997:7-15~7-20.
106. Zhang Jinjun, Yan Dafan. Some topics on measurement of crude oil flowing and its application in pipeline transportation. Oil & Gas Storage and Transportation. 1997, 16(4): 5-9.
107. Zhang Jingjun, Zhao Tanghua, Wu Haihao. Addition of a heavy crude may facilitate pipelining of some waxy crudes. Proc. of the 6th UNITAR Int. Conf. on Heavy Crude & Tar Sands (Houston, TX, USA), 1995.
108. Zhang Jinjun, Chen Dabin, et al. Pipelining of heavy crude oil as oil-in-water emulsions. SPE 21733, Proc. of SPE Production Operation Symposium (Oklahoma, USA, 1991). Yang Xiaoheng, Zhang Jinjun, Li Chuanxian. Experimental study on pipelining of Shanjiasi heavy oil. Journal of the University of Petroleum, China. 1990, 14(2): 40-47.