科研队伍
  • 姓名: 许晶禹
  • 性别: 男
  • 职称: 副研究员
  • 学历: 博士
  • 电话: 010-82544179
  • 传真: 010-82545695
  • 电子邮件: xujingyu@imech.ac.cn
  • 通讯地址 北京北四环西路15号

    简历:

  •  2010-12--今,中国科学院力学研究所,副研究员;2007-07--2010-12,中国科学院力学研究所,助理研究员;2003-09--2007-05 中国科学院力学研究所,工学博士。

    目前主要从事油气混输技术中的多相流动研究,在气体/非牛顿幂律流体流动、油水乳化流变学、管道分离技术以及电阻层析成像技术等方面取得了较好的研究成果, 相关学术论文发表在International Journal of Multiphase Flow, Experimental Thermal and Fluid ScienceChemical Engineering Journal, Chemical Engineering Communications, et al. 已发表学术论文40余篇(其中第一作者或通讯作者SCI收录15篇),已申请发明专利12项。

    研究领域:

  • 多相流体力学

    社会任职:

    获奖及荣誉:

    代表论著:

  • 国际期刊

    [1]Zhang J., Xu, J.-y., Wu Y.-x., Li D.-h., Li H. Experimental validation of the calculation of phase holdup for an oil-water two-phase vertical flow based on the measurement of pressure drops. Flow Measurement and Instrumentation. FLOWMEASINST-D-11-00140R3, Accepted. (通讯作者)(SCI, EI收录 )

    [2]Zhang J., Xu, J.-y., Gao M.-c., Wu Y.-x. Apparent viscosity of oil-water (coarse) emulsion and its rheological characterization during the phase inversion region. Journal of Dispersion Science and Technology. http://dx.doi.org/10.1080/01932691.2012.735917. (通讯作者)(SCI, EI收录 )

    [3]Xu, J.-y. (2012): A simple correlation for prediction of the liquid slug holdup in gas/non-Newtonian fluids: horizontal to upward inclined flow. Experimental Thermal and Fluid Science, In press, http://dx.doi.org/10.1016/j.expthermflusci.2012.06.017 (SCI, EI收录 )

    [4]Xu J.-y., Zhang J., Liu H.-f., Wu Y.-x. (2012): Oil-gas-water three-phase upward flow through a vertical pipe: influence of gas injection on the pressure gradient, International Journal of Multiphase Flow 46, 1-8 (SCI, EI收录 )

    [5]Shi S.-y., Xu J.-y., Sun H.-q., Zhang J., Li D.-h., Wu Y.-y. (2012): Experimental study of a vane-type pipe separator for oil–water separation, Chemical Engineering Research and Design, 90: 1652-1659 (SCI, EI收录 )

    [6]LIU H.-f., XU J.-y., ZHANG J., SUN H.-q., ZHANG J., WU Y.-x. (2012):Investigation on Oil-Water Separation in a Liquid-Liquid Cylindrical Cyclone. Journal of Hydrodynamics, Ser. B, 24:116–123,2012 (SCI, EI收录 )

    [7]Xu, J.-y., Li, D.-h., Guo J., Wu, Y.-x., (2010): Investigations of phase inversion and frictional pressure gradients in upward and downward oil-water flow in vertical pipes. International Journal of Multiphase flow 36, 930-939 (SCI, EI收录 )

    [8]Xu, J.-y. (2010): Investigation on average void fraction for air/non-Newtonian power-law fluids two-phase flow in downward inclined pipes. Experimental Thermal and Fluid Science 34, 1484-1487 (SCI, EI收录 )

    [9]Xu, J., Wu, Y. and Chang, Y. (2009): Influence of gas injection on in-situ oil fraction of an oil-water flow in horizontal pipes. Chemical Engineering and Technology 32, 1922-1928 (SCI, EI收录 )

    [10]Xu, J.-y., Wu, Y.-x., Zheng Z.-c., Wang, M., Munir, B., Oluwadarey, H. I., Schlaberg, H.I. and Williams, R.A. (2009): Correlation of electromagnetic flow Meter, electrical resistance tomography and mechanistic modelling for a new solution of solid slurry measurement. Journal of Hydrodynamics 21, 557-563. (SCI, EI收录 )

    [11]Xu, J.-y., Wu, Y.-x. Li, H., Guo, J. and Chang, Y. (2009): Study of drag reduction by gas injection for power-law fluid flow in horizontal stratified and slug flow regimes. Chemical Engineering Journal 147, 235–244. (SCI, EI收录 )

    [12]Xu, J.-y., Wu, J.-x. (2009): A simple model for predicting the void fraction of gas/non-Newtonian fluid intermittent flows in upward inclined pipes. Chemical Engineering Communications 196, 746–753. (SCI, EI收录 )

    [13]Xu, J.-y., Wu, Y.-x., Feng, F.-f., Chang, Y. and Li, D.-h. (2008): Experimental investigation on the slip between oil and water in horizontal pipes. Experimental Thermal and Fluid Science 33, 178-183. (SCI, EI收录 )

    [14]Xu, J., Wu, Y., Chang, Y. and Guo, J. (2008): Experimental investigation on the holdup distribution of oil-water two-phase flow in horizontal parallel tubes. Chemical Engineering and Technology 31, 1536-1540. (SCI, EI收录 )

    [15]Xu, J.-y., Wu, Y.-x., Shi, Z.-h., Lao, L.-y. and Li, D.-h. (2007): Studies on two-phase co-current air/non-Newtonian shear-thinning fluid flows in inclined smooth pipes. International Journal of Multiphase flow 33, 948–969. (SCI, EI收录 )

    [16]Xu, J.-y., Wang, M., Wu, Y.-x., Schlaberg, H.I., Zheng, Z.-C. and Williams, R. A. (2007): An experimental study of in-situ phase fraction in jet-pump using electrical resistance tomography technique. Chinese Physics Letters 24, 512-515. (SCI收录 )

    [17]Xu, J.-y., Wu, Y.-x., Li, D.-h. And Dong, H.-L. (2007): Effects of non-Newtonian liquid properties on pressure drop during horizontal gas-liquid flow. Journal of Central South University of Technology. (SCI, EI收录 )

    国内期刊

    [1]魏丛达,许晶禹,王立洋,刘海飞, 吴应湘 (2012). T型管内油水两相流动研究油气储运. 稿件编号201201009. 已录用. (通讯作者)

    [2]许庆华,孙焕强,许晶禹,邓晓辉,吴应湘 (2012). 低含水W/O乳化液电脱水实验研究. 水动力学研究与进展 A卷 27(4):436-441. (通讯作者)

    [3]邓晓辉,许晶禹,吴应湘,罗东红 (2011). 动态微米气泡浮选除油技术研究. 工业水处理. 31 (4): 89-90.

    [4]李志彪,许晶禹,吴应湘 (2011). 气液混输管线间歇流动压降研究. 管道技术与设备 1: 5-8.

    [5]刘海飞,邓晓辉,罗东红,许晶禹,吴应湘,郑之初, (2010). 柱型旋流器内单相流场压降的实验研究. 水动力学研究与进展 A卷 25,127-132.

    [6]崔斌,吴应湘,许晶禹(2009): 油水井带压作业装置中环形密封胶芯的设计. 石油化工高等学报 22,79-82.

    [7]常英,许晶禹,吴应湘 (2008): 水平分支管路中油水两相流动研究. 水动力学研究与进展 A卷 23,702-708.

    [8]侯力群,吴应湘,许晶禹 (2008): 天然气水合物热激励法开采模型研究. 西安石油大学学报--自然科学版 23, 44-47.

    [9]许晶禹,吴应湘,李东晖 (2006): 液相介质对水平气液间歇流动的压降影响. 过程工程学报 6, 161-166. (EI收录 )

    [10]许晶禹,吴应湘,李东晖 (2005): 液相物性对气液两相管流流型和压降影响的研究. 应用基础与工程科学学报 13, 111-119. (EI收录 )

    [11]许晶禹,吴应湘,李东晖 (2005): 利用射流泵输送油水两相管流的实验研究. 实验流体力学 19, 49-55.

    国际会议

    [1]Zhang J., Xu J.-y., Wu Y.-x., et al. Experimental validation of the calculation of phase holdup for oil-water two phase vertical flows based on the measurement of pressure drop. 4th workshop on process tomography, 2011.

    [2]Xu J.-y., Wu Y.-x. Experimental validation of the model for calculating the drag reduction during gas/power-law fluid flow. 7th International Conference on Multiphase Flow, ICMF 2010, Tampa, FL, USA. May 30 – June 4. 2010.

    [3]Li, D.-h., Xu, J.-y., Feng, F.-f. and Wu, Y.-x. The Flow Rate Measurement of Oil-Water Two Phase Flow Using Turbine Flow Meter and γ Ray Densitometry. 7th International Conference on Multiphase Flow, ICMF 2010, Tampa, FL, USA. May 30 – June 4. 2010.

    [4]Liu H.-f., Xu J.-y. Wu Y.-x. and Zheng Zh.-c. Numerical study on oil and water two-phase flow in a cylindrical cyclone. 9th International Conference on Hydrodynamics. Shanghai, China. October 11-15, 2010. (EI收录 )

    [5]Wu Y.-x., Li D.-h., Li H., Xu J.-y. Oil-gas-water Three-phase Flow Measurement by Dual Gamma Ray Technique. 3rd International Workshop on Process Tomography (IWPT-3), Tokyo, Japan. Apr. 2009.

    [6]Li, D.-h., Feng, F.-f., Wu, Y.-x., Xu, J.-y. Investigation of the mixture flow rates of oil-water two-phase flow using the turbine flow meter. The 6th International Symposium on Measurement Techniques for Multiphase Flows, Okinawa, Japan, December 2008, Ref. No: D087

    [7]Xu, J.-y., Wang, M., Munir, B., Oluwadarey, H. I., Schlaberg, H.I., WU, Y.-x. and Williams, R.A.: Correlation of electromagnetic flow Meter, electrical resistance tomography and mechanistic modelling for a new solution of solid slurry measurement. 5th World Congress on Industrial Process Tomography, Bergen, Norway, September 2007, IPS27.

    [8]Xu, J.-y., Wang, M., Wu, Y.-x., Schlaberg, H.I., Zheng, Z.-C. and Williams, R. A. (2006): In-situ measurement of two-phase fraction in jet pump using the ERT Technique. Proceedings of the 5th International Symposium on Measurement Techniques for Multiphase Flows, Macau, China, December 2007, 890-895. (ISPT收录)

    [9]Xu, J.-y., Wu, Y.-x. Li, D.-h. and Dong H.-l. (2005): An effect of non-Newtonian liquid phase on pressure drop during horizontal gas-liquid intermittent flow. The 4th Pacific Rim Conference on Rheology (PRCR4), Shanghai, China, August 2005, 199-202. (ISPT收录)

    [10]Xu, J.-y., Wu, Y.-x., Li, D.-h. Ma, N.-q, Yuan, M.-z. and Ma, R.-h. (2004): Pressure drop studies of gas-liquid bubbly flow in vertical upward pipeline. 2nd International Symposium on Multiphase, Non-Newtonian and Reacting Flows, Hangzhou, China, September 2004, 321-324. (ISPT收录)

    国内会议

    [1]许晶禹,唐池,呼和敖德 (2012). 连云港深水航道淤泥流变特性研究. 连云港淤泥质海岸深水航道建设理论与实践(前期基础篇).人民交通出版社 (ISBN978-7-114-0966107) : 154-161.

    [2]呼和敖德,杨兵,许晶禹,唐池 (2012). 连云港深水航道淤泥起动试验研究. 连云港淤泥质海岸深水航道建设理论与实践(前期基础篇).人民交通出版社 (ISBN978-7-114-0966107) : 162-171

    [3]张健,许晶禹,朱平辉,高梦忱,郭军,王淑京,吴应湘 (2012). 乳化剂对油水乳化液流变性的影响. 第十一届全国水动力学学术会议大会文集:614-620. (通讯作者)

    [4]孙焕强,许晶禹,张军,吴应湘,郭军 (2012). 水平管道中油水旋流稳定性研究. 第十一届全国水动力学学术会议大会文集:665-670.

    [5]史仕荧,吴应湘,许晶禹,李华,李东晖,马乃庆 (2012). 除水孔结构对管道式导流片型分离器油水分离影响研究. 第十一届全国水动力学学术会议大会文集:671-678.

    [6]刘海飞,朱平辉,许晶禹 (2012). 倾斜管路中超稠油水两相流动研究. 第十一届全国水动力学学术会议大会文集 693-699. (通讯作者)

    [7]刘海飞,钟兴福,许晶禹,吴应湘 (2010). 柱型旋流器油水分离特性的数值模拟研究. 中国造船 50, 362-368.

    [8]李东辉,丰飞飞,许晶禹,吴应湘. 油水两相流粘度变化对涡轮流量计测量影响的实验研究. 中国造船. 2008.49(增2):433~440

    [9]许晶禹,吴应湘,李东晖 (2004): 油水两相流动压降的实验研究. 中国造船 45, 275-280.

    承担科研项目情况:

  • [1]2011.10~2016.10.国家重大科学仪器设备开发专项: 水下油气水高效分离与计量装置(SSM),二级任务"高效管道式多相分离系统"(项目编号:2011YQ120048-02)二级任务负责人

    [2]2012.01~2012.10.国家高技术研究发展计划(863计划)课题 :三角形多功能张力腿平台设计建造及应用关键技术研究,子课题七流花16-2油田油气水高效分离系统概念设计SS2012AA090308-07),子课题负责人

    [3]2010.01~2012.12.国家自然科学基金青年基金:倾斜管内气体/非牛顿液体弹状流动时液弹区域的流动特性研究(基金编号:10902114),项目负责人

    [4]2009.012012.12.中国科学院知识创新工程重大项目石油开采中的若干关键科学问题与技术应用示范”(KJCX1-YW-21), 任该项目中的三级课题油气水高效分离技术研究,三级任务负责人

    [5]2010.06~2011.06.连云港30万吨级航道工程徐圩港区航道浮泥流变特性试验,项目负责人

    [6]2008.012010.12.国家科技重大专项 大型油气田及煤层气开发 中,海洋深水油气田开发工程技术的外协子课题:管道式油气水高效分离技术(2008ZX05026-004-07, 任该项课题的课题副组长

    [7]2011.08~2014.07. 力学研究所优秀青年人才培育计划B 项目"稠油/水两相混合溶液有效粘度研究",课题负责人。
     
    招生信息:
     
    欢迎对 多相流体力学 研究方向感兴趣的学生报考硕士研究生!