博士导师简介 - 张劲军
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  一、个人简介
         张劲军,1962年生,1982年毕业于华东石油学院油气储运专业,获工学学士学位;1987年毕业于华东石油学院北京研究生部油气储运专业,获工学硕士学位;1998年毕业于石油大学(北京)油气储运专业,获工学博士学位。曾获“全国优秀博士学位论文指导教师”、“北京市优秀博士学位论文指导教师”、“北京市优秀教师”等荣誉称号,享受国务院政府特殊津贴。
现任北京市政协委员、中国石油大学(北京)学术委员会副主任、机械与储运工程学院学术委员会主任、油气储运工程国家重点学科负责人;中国化学会理事、中国化学会中国力学学会流变学专业委员会副主任委员兼秘书长、中国石油学会石油储运专业委员会委员兼院校工作部秘书长、北京石油学会石油应用和储运专业委员会委员;《石油学报》、《Petroleum Science》、《Petroleum Research》、《石油科学通报》、《油气储运》、《管道技术与设备》、《天然气与石油》等学术期刊的编委。长期从事油气储运工程的教学与科研,以“易凝高粘原油流变学与输送技术”为主攻方向,先后主持研究国家自然科学基金重点项目及教育部、北京市和中国石油、中国石化、中国海油等科研项目60余项,在易凝高粘原油流变学及改性输送、易凝高粘原油管道流动安全性评价、冷热原油交替输送等方面取得国际创新成果;在国内外学术刊物和会议发表论文280余篇,其中SCI、EI、ISTP收录120余篇,合作出版教材、专著9部;培养(已毕业)博士、硕士研究生140余人;获国家科技进步一等奖1项、省部级科技及教学奖11项(其中一等奖5项、二等奖3项、三等奖2项)。

二、获奖项目
(一)科技奖
1.我国油气战略通道建设与运行关键技术,2014年度国家科技进步一等奖
2.含蜡原油管道蜡沉积预测技术研究与应用, 2016年中国石油与化学工业联合会科技进步一等奖
3.易凝高黏原油管道输送仿真技术及其工程应用, 2015年中国石油与化学工业联合会科技进步一等奖
4.西部能源战略通道多品种原油安全高效输送技术研究,2013年新疆维吾尔自治区科技进步一等奖
5.管道输送中原油流动特性量化表征及其应用研究,2012年中国石油与化学工业联合会科技进步一等奖
6.多品种原油同管道高效安全输送新技术,2010年中国石油天然气集团公司科技进步一等奖
7.原油管道停输凝管概率评价方法研究及应用,2014年中国石油与化学工业联合会科技进步二等奖
8.原油流变学与改性输送技术研究,2004年中国石油天然气股份公司科技进步二等奖
9.西部原油长输管道常温输送技术研究,2001年中国石油天然气集团公司科技进步二等奖
10.多种原油混输流变性的研究,2007年中国石化集团公司科技进步三等奖
11.热油管道非稳态水力热力计算及管道热力特性模拟研究,2007年中国石油天然气股份公司科技进步三等奖
(二)教学奖
“学科引领、创新驱动、特色发展、开放培养的博士生培养模式”,第七届北京市高等教育教学成果奖二等奖,2013

三、联系方式
电子邮件:zhangjj@cup.edu.cn
电话:010-89734627

附录:论文清单

1.Mengran Sun, David Jou, Jinjun Zhang*. A nonlinear viscoelastic model and its thermodynamic entropies, Journal of Non-Newtonian Fluid Mechanics,2016,229:96-100  SCI
2.Jiangbo Wen, Jinjun Zhang*, Zhihui Wang, Yongxing Zhang. Correlations between emulsification behaviors of crude oil-water systems and crude oil compositions. Journal of Petroleum Science and Engineering, 2016, 146:1-9   SCI、EI
3.Jiangbo Wena,b, Jinjun Zhanga*, Min Wei. Effective viscosity prediction of crude oil-water mixtures with high water fraction. Journal of Petroleum Science and Engineering, 2016, 147: 760–770     SCI、EI
4.Guangyu Sun, Jinjun Zhang*, Chenbo Ma, Xinyi Wang. Start-up flow behavior of pipelines transporting waxy crude oil emulsion. Journal of Petroleum Science and Engineering, 2016, 147: 746–755   SCI、EI
5.Youquan Bao, Jinjun Zhang,* Xinyi Wang and Wenwen Liu. Effect of pre-shear on structural behavior and pipeline restart of gelled waxy crude oil. RSC Adv., 2016, 6, 80529   SCI、EI
6.Yun Lei, Shanpeng Han, Jinjun Zhang*. Effect of the dispersion degree of asphaltene on wax deposition in crude oil under static conditions. Fuel Processing Technology, 2016, 146 :20–28    SCI、EI
7.Shanpeng Han, Jinjun Zhang*, Lanlan Zhu: Effect of the amount and the composition of precipitated n-alkanes on the yield stress of wax-decane gels. Journal of Petroleum Science and Engineering, 2016 147: 228–236     SCI、EI
8.Wen-Wen Liu, Jie Peng1 , Ke-Qin Zhu, Jin-Jun Zhang. A microstructural criterion for yielding: linking thixotropy and the yield stress. Rheol. Acta, 2016, 55:957–968   SCI
9.张劲军*,宇波,于鹏飞,韩东旭. 基于可靠性的含蜡原油管道停输再启动安全性评价方法. 石油科学通报, 2016, 1(1):154-163
10.苏怀,张劲军*,杨楠,张宗杰.大型天然气管网可靠性评价方法研究进展.油气储运,2016,35(1):7-15
11.孙广宇,张劲军*. W/O型乳状液及其凝胶流变特性研究进展. 油气储运,2016,35(3):229-240
12.陆争光,张劲军,高鹏. 成品油一次物流优化研究进展. 油气储运,2016,35(9): 913-919,927
13.孙旭,张劲军*,杨森.形输流管道受力特性及结构优化.油气储运,2016,35(1): 38-42
14.孙旭,张劲军*,杨森.地下水封洞库立管的振动特性.油气储运,2016,35(2):145-150
15.Guangyu Sun, Jinjun Zhang*. Structural breakdown and recovery of waxy crude oil emulsion gels. Rheologica Acta, 2015, 54(9):817-829    SCI
16.Liping Guo, Jinjun Zhang*, Guangyu Sun, Youquan Bao. Thixotropy and its estimation of water-in-waxy crude emulsion gels. J. of Petroleum Sci. and Eng., 2015, 131, 86-95   SCI, EI
17.Hongying Li*, Jinjun Zhang, Chaofan Song, Guangyu Sun. The influence of the heating temperature on the yield stress and pour point of waxy crude oils. Journal of Petroleum Science and Engineering. Volume 135, November 2015, Pages 476–483       SCI, EI
18.Bai Chengyu, Jinjun Zhang*.New Method to Determine the Strength of Wax Deposits in Field Pipelines. Advances in Petroleum Exploration and Development. 2015, 10(2): 31-36
19.文江波,张劲军*,郑飞,陆争光. 流动条件下原油乳化含水率与水相组成关系研究. 石油学报,2015,36(5):626-632    EI
20.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   SCI, EI
21.Guangyu Sun, Jinjun Zhang,* and Hongying Li. Structural Behaviors of Waxy Crude Oil Emulsion Gels. Energy Fuels 2014, 28, 3718−3729   SCI, EI
22.Pengfei Yu, Jinjun Zhang*, Bo Yu, YiWang, 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            SCI
23.于鹏飞, 张劲军*, 宇波, 禹国军, 黄金萍. 含蜡原油管道恒压再启动失效概率研究. 工程热物理学报, 2014, 35(4), 705-709.    EI
24.王小龙,张劲军*,韩善鹏. 原油凝点波动大时管道流动保障分析方法. 油气储运,2014,33(8):844-847,851
25.王小龙,张劲军*,宇波,等. 西部原油管道多品种原油安全高效输送技术.油气储运,2014,33(12):1263-1271
26.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     SCI, EI
27.Li, H., Zhang, J. Viscosity prediction of non-Newtonian waxy crude heated at various temperatures. Petroleum Science and Technology, 2014, 32(5):521-526  SCI, EI
28.Teng Houxing, Zhang Jinjun. Modeling the Thixotropic Behavior of Waxy Crude. Industrial and Engineering Chemistry Research, 2013, 52, 8079−8089 SCI, EI
29.Bai Chengyu, Zhang Jinjun. Thermal, Macroscopic, and Microscopic Characteristics of Wax Deposits in Field Pipelines. Energy Fuels, 2013, 27, 752−759  SCI, EI
30.Bai Chengyu, Zhang Jinjun. Effect of Carbon Number Distribution of Wax on the Yield Stress of Waxy Oil Gels. Industrial and Engineering Chemistry Research, 2013, 52, 2732−2739  SCI, EI
31.Teng Houxing, Zhang Jinjun. A new thixotropic model for waxy crude. Rheologica Acta, 2013, 52(10-12):903-911     SCI
32.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  SCI, EI
33.Teng Houxing, Zhang Jinjun. Modeling the viscoelasto-plastic behavior of waxy crude. Petroleum Science, 2013, 10: 395-401  SCI
34.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   SCI
35.张劲军,何利民,宫敬,等. 油气储运理论与技术进展. 中国石油大学学报,2013,37(5):151-162   EI
36.郁辰阳,张劲军,丁振军,黄启玉. 搅拌测量法测定油水混合液流动特性. 石油学报,2013,34(3):574-579  EI
37.滕厚兴,张劲军. 含蜡原油的黏弹-触变模型. 化工学报,2013, 64(11): 3968-3975.  EI
38.滕厚兴,张劲军. 含蜡原油触变模型研究现状. 油气储运,2013,32(9):923-938
39.王凯,张劲军,宇波. 原油管道差温顺序输送水力-热力耦合计算模型. 油气储运,2013,32(2):143-151
40.Liu Xin,Yu Bo, Zhou Jian,Zhang Jinjun. Temperature drop characteristics of crude oils after shutdown of a pipeline for a batchwise transportation system.  Heat Transfer Engineering, 2013, 34(4): 385-397    SCI, EI
41.Jia Banglong, Zhang Jinjun. Yield Behavior of Waxy Crude Gel: Effect of Isothermal Structure Development before Prior Applied Stress. Industrial and Engineering Chemistry Research, 2012, 51, 10977−10982    SCI, EI
42.贾邦龙,张劲军. 六参数含蜡原油触变模型. 石油学报, 2012,33(6):1080-1085  EI
43.贾邦龙,张劲军. 含蜡原油触变性测试方法. 油气储运,2012,31(4):254-259
44.张劲军,张文轲,宇波. 基于POD的埋地热油管道停输再启动模拟高效算法. 石油学报,2011,32(1):167-170    EI
45.Shize Yi, and 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   SCI, EI
46.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   SCI, EI
47.Wang Kai, Zhang Jinjin, Li Hongying, Wang Feingzhi, Yu Bo. Assessment of Temperature of China West Crude Oil Pipeline with a Probabilistic Approach, Oil Gas European Magazine, 2011, 37(2): 90-93  SCI, EI
48.张文轲,张劲军,宇波. 热油管道油温波动随机数值模拟及影响因素敏感性分析. 中国石油大学学报,2011,35(2):141-146  EI
49.柳歆,张劲军. 鄯兰原油管道超低输量输送方案电耗分析. 管道技术与设备,2011,(2):1-3
50.张文轲,张劲军,宇波. 土壤含水率对埋地管道热力影响的数值模拟. 油气田地面工程,2011,30(4):22-24
51.柳歆,张劲军,宇波.  热油管道间歇输送热力水力特性. 油气储运,2011,30(6):419-422
52.国丽萍,张劲军. 基于剪切速率匀速加载条件的含蜡原油屈服- 触变特性. 东北石油大学学报,2011,35(3):72-75
53.张劲军,李鸿英韩善鹏宇波. 博士研究生在国外学术期刊发表科技论文问题的分析. 中国石油大学学报(社会科学版),2011,S2:72-74
54.Jinjun Zhang, Liping Guo, Houxing Teng. Evaluation of thixotropic models for waxy crude oils based on shear stress decay at constant shear rates. Appl. Rheol. 2010,20 (5): 53944 
55.Hou L., Zhang J. A Study on Creep Behavior of Gelled Daqing Crude Oil. Petroleum Science & Technology, 2010, 28:690–699.   SCI, EI
56.Xin Liu, Jinjun Zhang, Hongying Li, Bo Yu. Intermittent operations, PPD optimize low flow rate waxy crude system. Oil & Gas Journal, 2010, 108(46): 134-137  SCI
57.张劲军,国丽萍. 基于滞回环的含蜡原油触变模型评价. 石油学报,2010,31(3):494-500  EI
58.张文轲,张劲军,丁建林. 中洛输油管道输量和出站温度概率分布. 油气储运,2010,29(1):32-35
59.李锦昕,张劲军,宋学芹. 降凝剂对原油蜡晶的影响. 油气储运,2010,29(4):302-305
60.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   SCI, EI
61.Yu Bo, Li Chao, Zhang Zhengwei, Liu Xin, Zhang Jinjun, et al. Numerical simulation of a buried hot crude oil pipeline under normal operation.  Applied Thermal Engineering,2010, 30(17-18): 2670-2679
62.K. Wang, J.J. Zhang*, B. Yu, et al. Numerical Simulation on the Thermal and Hydraulic Behaviors of Batch Pipelining Crude Oils with Different Inlet Temperatures. Oil & Gas Science and Technology – Rev. IFP, 2009, 64 (4): 503-520  SCI, EI
63.李伟,宇波,张劲军等. 热油管道防腐层大修期间热力参数的数值模拟. 中国石油大学学报,2009,33(1):103-108   EI
64.国丽萍,张劲军. 含蜡原油乳状液触变性研究. 工程热物理学报,2009, 30(2):246-248 EI
65.Zhang Jinjun, Zhang Wenke, Ding Jianlin. Reliability-based assessment of flow assurance of hot waxy crude pipelines(IBP 1389_09). Proc. of Rio Pipeline Conference and Exposition 2009   EI
66.Hou, L., Zhang, J. and Sun, L. Change of Yield Stress of Daqing Crude Oil With Thermal and Shear History. Petroleum Science and Technology, 2009,27(18),2168-2176   SCI, EI
67.王艺, 宇波, 张劲军,等. 粘弹性减阻流动的雷诺应力模型研究.工程热物理学报,2009,30(4):611-614     EI
68.凌霄,王艺,宇波,张劲军,王凯,达鑫. 新大线同沟敷设热力分析.工程热物理学报,2009,30(2):299-301  EI
69.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   EI
70.Gao Peng, Zhang Jin-jun, Hou Lei, Wang Hai-feng. Relationship between waxy crude viscosities and waxy crystal microstructures. Journal of Central South University of Technology, 2008, 15(suppl. 1): 406-410   EI
71.王凯,张劲军,宇波. 冷热原油交替输送中加热时机的经济比选. 中国石油大学学报,2008,32(5):102-107    EI
72.王凯,张劲军,宇波. 原油差温顺序输送管道温度场的数值模拟研究. 西安石油大学学报,2008,23(6):63-66
73.彭建伟,韩善鹏,张劲军,侯磊. 胶凝大庆原油不同加载时间下的屈服特性. 中国石油大学学报,2008,32(4):109-113,117    EI
74.韩善鹏,张劲军. 原油磁处理降粘研究.  油气储运, 2008,27(3):8-11
75.王凯,张劲军,宇波. 冷热油交替输送加热方案的经济比选. 西南石油大学学报,2008,30(2):158-162
76.Ling Xiao, Zhang Jin-jun, 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)   E, ISTP
77.许康,张劲军. 恒定加热量时热油管道工作特性研究. 油气储运,2008,27(2):16-17,42
78.黄启玉,李瑜仙,张劲军. 普适性结蜡模型研究. 石油学报,2008,29(3):459-462  EI
79.李鸿英,丁建林,张劲军. 含蜡原油流动特性与热历史和剪切历史的关系. 油气储运,2008,27(5):16-20
80.Yu Bo, Wang Yi, Zhang Jinjun,Liu Xin, Zhang Zhengwei, Wang Kai. 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, 51( 3-4), 2008:597-609  SCI, EI
81.Huang, Qiyu; Wang, Jifeng; Zhang, Jinjun. Physical properties of wax deposits on the walls of crude pipelines. PETROLEUM SCIENCE,6(1):64-68  SCI
82.冯耀荣,陈浩,张劲军. 中国石油油气管道发展展望. 油气储运,2008,27(3):1-8
83.凌霄,王艺,宇波,张劲军,达鑫,张争伟. 原油成品油管道同沟敷设新技术中的热力分析. 中国工程科学,2008,10(11):30-36
84.张争伟, 凌霄, 宇波, 张劲军. 埋地热油管道正常运行的数值模拟研究. 工程热物理学报,2008, 29(8):1389-1392   EI
85.Li Hong-ying, Zhang Jin-jun, Ling Xiao, Huang Qi-yu Lin, Xiao-fei, Jia Bang-long, Li Yu-guang. Simulation of pour-point-depressant beneficiated waxy crude oil through China West Crude Oil Pipeline. Journal of Central South University of Technology, 2008, 15 (suppl. 1): 483-487        EI
86.张劲军,朱英如,李鸿英,等. 含蜡原油特征温度实验研究. 石油学报,2007,28(4):112-114,118          EI
87.Hou L, Zhang J. Effects of Thermal and Shear History on the Viscoelasticity of Daqing Crude Oil. Petroleum Science and Technology, 2007, 25: 601–614    SCI, EI
88.Fan Hua-jun, Zhang Jin-jun, Huang Jin-ping. Waxy crude shutdown Method yields savings. Oil & Gas Journal. 2007, 105(30):65-66,68-69     SCI
89.Zhang Jin-jun, Zhang Fan, Huang Qi-yu, Yan Da-fan. Experimental simulation of effect of shear on rheological properties of beneficiated waxy crude oils[J]. Journal of Central South University of Technology, 2007, 14 (suppl. 1): 108-111   EI074010840887    SCI, ISTP
90.Chen Jun, Zhang Jin-jun, Li Hong-ying. Low temperature flowability characteristic of waxy crude[J]. Journal of Central South Universtiy of Technology, 2007, 14 (suppl. 1): 436-448  EI074010840925     SCI, ISTP
91.Han Shan-peng, Jiang Wen-xue, Zhang Jin-jun. Approaches to predict viscosities of crude oil blends[J]. Journal of Central South Universtiy of Technology, 2007, 14 (suppl. 1): 466-470   EI073910838590   SCI, ISTP
92.Zhu Ying-ru, Zhang Jin-jun. Pipelining characteristics of Daqing waxy crude oil[J]. Journal of Central South Universtiy of Technology, 2007, 14 (suppl. 1): 442-444   SCI, EI,ISTP
93.Gao Peng, Zhang Jin-jun. New assessment of friction factor correclations for power law fluids in turbulent pipe flow: A statistic approach[J]. Journal of Central South Universtiy of Technology, 2007, 14 (suppl. 1): 77-81   SCI, EI,ISTP
94.Hou Lei, Zhang Jin-jun. Viscoelasticity of gelled waxy crude oil[J]. Journal of Central South University of Technology, 2007, 14 (suppl. 1): 414-417  SCI, EI,ISTP
95.Hou Lei, Zhang Jin-jun. New method for rapid thixotropic measurement of waxy crude[J]. Journal of Central South University of Technology, 2007, 14 (suppl. 1): 471-473   SCI, EI,ISTP
96.Li Hong-ying, Zhang Jin-jun, Chen Jun, Sun Li-xin. Gelling properties of waxy crude under quiescent and shearing conditions[J]. Journal of Central South Universtiy of Technology, 2007, 14 (suppl. 1): 439-441     SCI, EI, ISTP
97.范华军,张劲军,侯磊. 原油管道停输再启动安全评价基准研究.  石油化工高等学校学报,2007,20(4):72-75    EI
98.范华军,张劲军. 埋地含蜡原油管道凝管损失计算模型研究. 安全与环境学报,2007,7(2):136-139
99.高鹏,张劲军,侯磊. 含蜡原油粘弹性与微观结构间关系的研究现状与分析. 石油天然气学报,2007,29(1):136-139
100.范华军,张劲军. 埋地含蜡原油管道流动安全评价研究. 油气储运,2007,26(5):1-4
101.范华军,张劲军,侯磊. 热油管道进站温度影响因素重要性分析. 石油天然气学报,2007,29(3):484-486
102.Zhu Yingru, Zhang Jinjun. Characteristic temperature of waxy crude oils. Petroleum Science, 4(3):57-62    SCI
103.彭建伟,张劲军,李鸿英,张帆. 重复加热对降凝剂改性原油流动性影响的模糊评价. 石油天然气学报,2007,29(5):137-140
104.侯磊,张劲军.含蜡原油屈服特性的试验研究[J].石油天然气学报,2007,29(6):99-102
105.Yu Bo, Wang Yi, Liu Xin, Zhang Jinjun, et al. Model studies thermal effects of liquid pipeline colocation. Oil & Gas J, 2007,105(18): 54-56,58   SCI
106.宇波,凌霄,张劲军,王艺. 成品油管道与热原油管道同沟敷设技术研究. 石油学报,2007,28(5):149-152    EI
107.Yu Bo, Wang Yi, Hou Lei, Zhang, Jin-Jun. Direct numerical simulation on the drag-reducing flow by surfactant additives at various rheological properties .Journal of Engineering Thermophysics, v 28, n 3, May, 2007, p 469-471  EI
108.黄启玉,张帆,张劲军. 原油乳状液制备条件研究. 油气储运,2007,26(6):49-51
109.黄启玉,张劲军. 取样剪切对管输原油流变性的影响. 管道技术与设备,2007,(6):3-4
110.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, 566:224-237        SCI , EI
111.Qian Jianhua, Zhang Jinjun, Li Hongying, et al. Study evaluates viscosity prediction of crude blends. Oil and Gas J., 2006, 104(39): 61-68        SCI , EI
112.Jianlin Ding, Jinjun Zhang, Hongying Li, et al. Flow Behavior of Daqing Waxy Crude Oil under Simulated Pipelining Conditions. Energy & Fuel, 2006,20:2531-2536  SCI , EI
113.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. 18 (2006) 11487–11506   SCI , EI
114.Jun Chen, Jinjun Zhang. Hydraulic Characteristics of Pipelines Transporting Hot Waxy Crudes. Proceedings of IPC2006, 6th International Pipeline Conference, September 25-29, 2006, Calgary, Alberta, Canada         EI
115.Jinjun Zhang, Jianlin Din, Kang Xu. Determination of safe pumping temperature for waxy crude pipelines. Proceedings of IPC2006, 6th International Pipeline Conference, September 25-29, 2006, Calgary, Alberta, Canada     EI
116.侯磊,张劲军。段亚青. 剪切作用对含蜡原油粘弹性的影响规律. 西安石油大学学报,2006,27(6):40-43              EI
117.黄启玉,张劲军. 大庆原油蜡沉积规律研究. 石油学报,2006,27(6):125-129  EI
118.朱英如,孙骥姝,李鸿英,张劲军. 大庆原油凝点温度附近屈服特性研究. 西安石油大学学报,2006,27(4):58-60,64                EI
119.张华林,涂明跃,张劲军. 影响我国战略石油储备经济效益若干因素分析. 天然气经济, 2006,(1):33-37
120.张华林,涂明跃,郝洪,张劲军. 战略石油储备的经济效益研究. 油气储运,2006,25(5):6-9
121.卜文平,帅健,王晓明,张劲军. 打孔管道焊接修复结构的残余应力测试. 中国石油大学学报,2006,30(3):81-84                  EI
122.王剑梅,卜文平,张劲军. 管输原油损耗原因与改进措施. 油气储运,2006,25(6):41-43
123.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    SCI, EI
124.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          SCI, EI
125.侯磊,张劲军. 大庆原油的粘弹性实验研究. 石油学报,2005,26(6):109-112  EI
126.许康,张劲军. 采用焓法方程计算埋地管道含蜡原油停输温降. 石油大学学报(自然科学版),2005,29(1):84-88      EI
127.侯磊,张劲军. 基于粘弹性分析的含蜡原油触变性研究. 石油大学学报(自然科学版),2005,29(4):84-86,94      EI
128.李伟,张劲军. 埋地热油管道停输后周围土壤温度场的数值模拟. 西安石油大学学报(自然科学版),2005,20(6):27-29,33   EI
129.侯磊,张劲军. 含蜡原油屈服应力的研究进展及分析. 油气储运,2005,24(3):5-9
130.陈俊,张劲军. 含蜡原油凝点与倾点的关系. 油气储运,2005,24(8):22-24
131.高鹏,张劲军. 幂律流体管内紊流摩阻系数计算式评价. 油气储运,2005,24(9):13-19
132.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  EI
133.许康,张劲军. 埋地含蜡原油管道流动安全性评价方法. 油气储运,2005,24(增刊):59-62
134.张劲军,潘道兰等. 剪切作用对加剂原油凝点影响的数学模型. 石油学报,2004,25(2):96-99      EI
135.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)   EI
136.陈俊,张劲军. Determining the wax content of waxy crudes using differential scanning calorimetry. Thermochimica Acta, 2004,410:23-26   SCI
137.李玉凤,张劲军,黄启玉. 剪切作用与加剂原油粘度关系的数学模型. 石油学报,2004, 25(4):109-112         EI
138.李伟,张劲军. 埋地含蜡原油管道停输温降研究. 油气储运,2004,23(1):4-8 
139.崔秀国,张劲军. 埋地热油管道稳定运行条件下热力影响区的确定. 石油大学学报(自然科学版),2004,28(2):75-78       EI
140.许康,张劲军,陈俊,李鸿英. 预测模型可靠性的模糊数学评价方法. 石油大学学报(自然科学版),2004,28(4):102-104      EI
141.许康,张劲军. 管输含蜡原油粘度的不确定性及概率分布研究. 西安石油大学学报(自然科学版),2004,28(6):35-37        EI
142.侯磊,张劲军. 含蜡原油低温粘弹性研究的现状与分析. 石油大学学报(自然科学版),2004,28(6):140-144            EI
143.李玉凤,张劲军,黄启玉,涂华明. 剪切作用对加剂大庆原油粘度和凝点的影响. 油气储运,2004,23(10):29-32
144.侯磊,张劲军. 基于流动保障的海底油气管道安全策略与技术. 中国海上油气. 2004,16(4):285-288
145.李鸿英,张劲军,高鹏. 蜡晶形态、结构与含蜡原油流变性的关系. 油气储运,2004,23(9):19-23
146.许康,张劲军. 含蜡原油管道停输再启动的安全性问题. 油气储运,2004,23(11):12-15
147.崔秀国,张劲军. 冷热油交替顺序输送过程热力问题的研究. 油气储运,2004,23(11):15-19
148.李玉凤,张劲军.  管输过程中加剂原油粘度变化的预测方法. 油气储运,2004,23(11):33-36
149.陈宏健,张帆,张劲军. 触变性原油再启动压力的计算. 油气储运,2004,23(6):20-22
150.陈国群,张帆,张劲军. 含蜡原油凝点附近的胶凝特性. 油气储运,2004,23(8):28-31
151.张劲军, 黄启玉, 严大凡. 管输剪切模拟搅拌槽中流体平均剪切率的计算. 石油学报,2003,24(2):94-96.    EI
152.张劲军  严大凡:幂律流体在圆管内湍流流动剪切率的近似计算,水动力学研究与进展,2003, 18(2):248-252.
153.张劲军. 对原油流变学研究现状及其发展方向的若干思考. 油气储运,2003,22(9):11-17
154.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.  SCI, EI
155.Jun Chen, Jinjun Zhang. New approach developed for estimating pour point of crude oil blends. Oil & Gas J., Aug.11,2003:60-64       SCI, EI
156.陈俊,张劲军. 计算混合原油凝点的一种新方法. 石油大学学报(自然科学版),2003,27(5):76-80.    EI
157.陈俊,张劲军. 提高VT500-D100/300系统测量结果的准确性. 油气储运,2003,22(3):35-38.
158.陈俊,张劲军. 原油及石油产品倾点测定规范分析. 油气储运,2003,22(10):4-8
159.陈俊,张劲军,李鸿英. 含蜡原油粘度预测模型的可靠性分析. 油气储运,2003,22(12):16-18
160.陈俊,张劲军.用表观粘度计算幂律流体摩阻的方法及其应用[J].西安石油大学学报(自然科学版), 2003,18(6):58-62
161.崔秀国,张劲军. 埋地热含蜡原油管道的非稳态传热问题. 中国工程科学,2003,5(7):77-82
162.桂平,张劲军. 凝点附近含蜡原油的粘弹性研究. 石油大学学报(自然科学版),2003,27(2):90-92.
163.李鸿英,张劲军,陈俊. 确定含蜡原油析蜡点方法的对比研究. 油气储运,2003,22(10):28-30,39
164.黄启玉,张劲军,严大凡. 一种新的蜡沉积模型. 油气储运,2003,22(11):22-25
165.张维智,张劲军. 管输过程中加剂原油流动参数的预测. 石油规划设计,2003, 14(3): 11-13
166.张帆,张劲军,孙红彦等. 圆环管道管流剪切模拟装置及流变性实时测量. 油气储运,2003,22(9):56-57
167.穆欣,黄启玉,张劲军. 管壁剪切应力对蜡沉积的影响. 油气储运,2003,22(3):1-3.
168.陈国群,张帆,张劲军. 含蜡原油触变性与温度关系的研究. 油气储运,2003,22(12):28-31
169.李鸿英,黄启玉,张帆,张劲军.用差示扫描量热(DSC)法确定原油的含蜡量.石油大学学报(自然科学版),2003,27(1):60-62.    EI
170.张劲军,严大凡. 利用能量耗散率计算管流的平均剪切率. 石油学报,2002, 23(5):88~90
171.张劲军,张帆,黄启玉,严大凡. 绝热搅拌槽内流体平均剪切速率的一种计算方法. 工程热物理学报,2002, 23(6):703~706      EI
172.张劲军. 易凝高粘原油管输技术及其发展. 中国工程科学,2002,4(6):71~76
173.张劲军,严大凡. 牛顿流体在圆管内湍流流动剪切率的近似计算. 石油大学学报(自然科学版),2002, 26(4):63~65      EI
174.张劲军,严大凡. 管内湍流流动能量耗散率近似算法的分析. 石油大学学报(自然科学版),2002, 26(6):82-85
175.上远新,张劲军. 含蜡原油-柴油顺序输送中柴油对蜡沉积物的冲刷作用. 石油大学学报(自然科学版),2002, 26(5):71~73
176.李鸿英,张劲军. 剪切作用对加剂原油低温流动性影响的研究现状及进展. 油气田地面工程,2002,21(1):96~97
177.李鸿英,张劲军.蜡对原油流变性的影响.油气储运,2002,21(11):6~12
178.双凯,梁华庆,张劲军. 含蜡原油蜡晶形态和结构的定量表征. 石油大学学报(自然科学版),2002, 26(5):100~103
179.上远新,张劲军. 含蜡原油与成品油顺序输送工艺方案研究. 油气储运,2001,20(11):17~20
180.夏惠芳,张劲军. 低速剪切影响加剂原油流动性机理的研究. 油气储运,2001,20(2):32~34
181.黄启玉,张劲军. 处理温度对原油加剂改性效果的影响. 油气储运,2000, 19(8):46~47
182.黄启玉,吴海浩,张劲军. 新疆原油蜡沉积规律研究. 油气储运,2000, 19(1):29~32  EI
183.黄启玉,张劲军,严大凡. 高速剪切后加剂原油低温流动性的恢复. 油气储运,1999,18(10):6-8         EI
184.杜国敏,张劲军. 管流剪切对加剂原油低温流动性的影响. 油气储运,1998,17(12):5-7
185.杜国敏,张劲军. 加剂原油轻组分挥发对低速剪切效应的影响. 油气储运,1998,17(9):1-2       EI
186.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 Academic Press, 1997:7-15~7-20    EI
187.张劲军, 严大凡. 为管输应用的原油降凝剂评价的研究. 石油学报,1997, 18(4): 126~130  EI
188.张劲军, 严大凡. 原油流动性测量及在管输应用中的若干问题. 油气储运,1997, 16(4):5~9       EI
189.张劲军, 王宝昌,张鹏. 含蜡原油的动屈服应力. 油气储运,1996,15(3): 5-8
190.刘忠晖,张劲军. 降温剪切率对加降凝剂原油流动性的影响. 油气储运,1996,15(2):
191.李闯文,张劲军,严大凡. 混合原油凝点相关规律的研究. 管道运输,1996,No.3
192.李闯文,严大凡,张劲军. 新疆混合原油凝点变化规律研究. 石油规划设计,1996,7(6):24~26,31
193.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, 12-17 Feb., 1995),vol. 2, pp.545-549   EI
194.张劲军,蔡一全,严大凡,吴海浩. 长距离管输添加降凝剂的含蜡原油的模拟试验研究.石油规划设计,1995, 2:43~46
195.张劲军,黄启玉. 剪切作用对含蜡原油低温流变性的影响. 油田地面工程,1993, 12(4):14~18
196.张劲军,赵堂华,刘忠晖,黄启玉. 剪切作用对条件降凝剂后新疆混合原油流变性的影响. 石油大学学报,1993, 17(6): 74~78       EI
197.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    EI
198.杨筱蘅,张劲军,李传宪. 单家寺稠油输送方式的研究. 石油大学学报,1990,14(2):40~47  EI