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青岛科技大学地质能源研究院科研团队
17-11-02 14:38

青岛科技大学地质能源研究院院长:翟佩斯利(国家外专千人专家)

青岛科技大学地质能源研究院副院长:杜东兴(机电工程学院副教授)

杜东兴

教育背景

1989-1993东北大学热能工程系,热能工程专业,本科

1993-1996东北大学热能工程系,热能工程专业,硕士

1996-2000清华大学工程力学系,工程热物理专业,博士(导师:过增元院士)

工作经历

2000-2003日本京都大学,JSPS博士后研究员、客座研究员

2003-2004日本产业技术综合研究所 客座研究员

2004-2007荷兰代尔夫特理工大学,博士后研究员

2007-2009青岛科技大学机电工程学院,教师

2010-至今 青岛科技大学机电工程学院,副教授

研究领域及特长

强化采油技术(EOR),泡沫液流变学分析,多孔介质内流体传输现象,微尺度流动及传热,强化传热技术,CT机测试技术。

承担科研项目情况(2009-2015)

杜东兴(排名第一)等,国家自然科学基金面上项目(51476081):《超临界二氧化碳泡沫在低渗多孔介质内的渗流特性及渗流机理研究》,经费80万元,2015-2018。

杜东兴(排名第一)等,国家自然科学基金面上项目(51176081):《二氧化碳泡沫液在多孔介质内的渗流特性及渗流机理研究》,经费60万元,2012-2015。

杜东兴(排名第一)等,中国石油科技创新基金(2014D-5006-0210):《CO2泡沫在储层孔隙介质内的驱替特性研究》,经费18万元,2014-2016.

杜东兴(排名第一)等,山东省优秀中青年科学家科研奖励基金(BS2009CL009):《二氧化碳泡沫液在多孔介质内的流动机理研究》,经费6万元,2009-2012。

杜东兴(独立承担),教育部留学回国人员科研基金(35批):《二氧化碳泡沫薄膜液的流动特性研究》,经费3万元,2009-2011。

杜东兴(独立承担),横向课题,《岩心孔隙度分布表征及三维重建测试》,经费2.86万元,2013。

杜东兴(独立承担)横向课题,《比对测试结果统计分析软件的开发》,经费4.8万元,2013-2014。

杜东兴(排名第一)等,横向课题,《LED封装模块在热湿耦合作用下的应力和温度场模拟及部分LED模块的加工封装》,2009-2011。

发表的主要论著(2012-2017

1. Du D X, Zhang N, Li Y G, Sun R, Wang C C. Parametric studies on foam displacement behavior in a layered heterogeneous porous media based on the stochastic population balance model. Journal of Natural Gas Science and Engineering, 2017.9.8 (SCI, IF=2.718)https://doi.org/10.1016/j.jngse.2017.08.035

2. Du Dongxing, Wang Chengcheng, Zhang Na, Wang Dexi, Zheng Shangji, Sun Rui, Li Yingge.Experimental Study on Pressure Distribution and Dynamic Propagation Behavior for CO2Foam Flow in Heterogeneous Porous Media.Special Topics & Reviews in Porous Media— An International Journal,2016, 7 (4): 357–363. (EI, ESCI)

3. Du D.X., Wang D. X., Jia N.H., lv W.F., Qin J.S., Wang C.C., Sun S.B., Li Y.G.Experiments on CO2 foam seepage characteristics in porous media.Petroleum Exploration and Development, 2016, 43(3): 499-505. (SCI)

杜东兴,王德玺,贾宁洪,吕伟峰,秦吉舜,王程程,孙盛彬,李莺歌.多孔介质内CO2泡沫液渗流特性实验研究.石油勘探与开发,2016, 43(3): 456-461.(中文版,EI)

4. Du D.X., Sun S.B., Zhang N., lv W.F., Wang D. X., Li Y.G. Pressure Distribution Measurements for CO2 Foam Flow in Porous Media. Journal of Porous media,2015, 18(11): 1119-1125.DOI: 10.1615/JPorMedia.2015012151. (SCI)

5. Du D.X., Zitha P.L.J. and Verlemon F.J.,Numerical Analysis of Foam Motion in Porous Media Using a New Stochastic Bubble Population Model,Transport in Porous Media,2011, 86(2): 491-504.(SCI)

6. Du D.X. Zhang J. Sun S.B., Zhang N., Wang D.X. and Li Y.G.Mechanistic study on foam lamellae flowcharacteristics in tubes. Material Research Innovations, 2015, 19(S5): 526-529. (SCI)

7. DuD.X.,JiangS., WangZ., HuY. Y., HeZ. M.Effects of Suture Position on Left Ventricular Fluid Mechanics under Mitral Valve Edge-to-Edge Repair.Bio-medical Materials and Engineering, 2014, 24(1): 155-161 (SCI)

8. DuD.X., Zhang F. H., Ma X. J., Li Y. G.Numerical Study on Flow Characteristics of Moving Bubble Train in a Converging-Diverging Duct.Material Research Innovations,2014, 18(S2): 734-737 (SCI)

9. 杜东兴,张娜,孙芮,王程程,张健,李莺歌.泡沫薄膜液在变径管内的流变学特性.化工学报,2016 67 (S1): 181-185.DOI:10.11949/j.issn.0438-1157.20160570 (EI)

10. 杜东兴,马新军,张发虎,李莺歌.泡沫薄膜液在直管内的流变学特性.化工学报,2014, 65(S1):194-198 (EI)

11. Zitha P.L.J. and Du D.X., A New Stochastic Bubble Population Model for Foam Flow in Porous Media,Transport in Porous media, 2010, 83(3 603-621(SCI)

12. Hu Y. Y., Shi L, DuD.X., Parameswaran S, He Z M.An elongation model of left ventricle deformation in diastole.Computer Methods in Biomechanics and Biomedical Engineering, 2013, 16(1-3): 66-72 (SCI)

13. DuD.X., Zhang FH, Geng DC, Li YG,Numerical Study on Film Foam Flow Characteristics in a Straight Duct,Key Engineering Materials, 2013, 561, pp 472-477. (EI)

14. Du DX, Gen DC, Sun SJ, Li YG. Surface tension measurement by the drop volume method,Key Engineering Materials, 2012, 501, pp.407-412. (EI)

15. 李莺歌,马连湘,张娜,袁世魁,杜东兴.声表面波传感器温度频率特性的数值分析.化工学报, 2016, 67 (S1): 159-165.

16. Li Y G, Ma L X, DU D X. Programmed data extraction for frequency-temperature behaviour of AlN based SAW sensors. Proceedings of the 2015 symposium on Piezoelectricity,Acoustic Waves and Device Applications. 2015, 212-215.(EI)

17. Du Dongxing. Research and Exploration on the Bachelor Thesis Topic Selection and Guidance of Undergraduate Students. Advances in Social Science, Education and Humanities Research,2017,47:326-329(ISTP)

专利及软著:

杜东兴,张健:可观测超临界二氧化碳泡沫流动状态及压差测量的容器(实用新型:201520900503.4),2016.4.6

杜东兴,张娜:一种超临界CO2泡沫流体流变学特性实验系统(实用新型:201620319216.9),2016.10.05

杜东兴等:一种电动翻转式马桶(实用新型zl201220160015.0),2012.11

杜东兴:模拟泡沫液在二维多孔介质内两相非稳态渗流过程的计算程序V1.0 (2016SR145434),2016.6.16

杜东兴,孙芮:进行多孔介质内泡沫流体渗流特性计算的窗口化操作软件V1.0(2017SR011349),2017.1.12

李莺歌,杜东兴:模拟泡沫液在一维多孔介质内两相非稳态渗流过程的计算程序V1.0 (2016SR144005),2016.6.16

李莺歌,杜东兴:泡沫渗流数据采集系统V1.0(2015SR121623),2015.7.1

 

巢昆

Dr. Kun Chao, male, an assistant professor in the Geo-Energy Reserach Institute (GERI) of Qingdao University of Science and Technology (QUST, China), graduated from theChina University of Geosciences (Wuhan)in 2012, major is oil and gas field development engineering; research direction is about chemical recovery Technologies for tight oil and gas, heavy oil, Geo-thermal energy, etc.

2016/06- , working in the GERI of QUST, manager of experimental process validation

2012/07-2015/11, worked in the Shengli Oilfield of Sinopec, chemical EOR engineer,

2009/09-2012/06,China University of Geosciences, oil and gas field development engineering, PhD

2005/09-2008/06, QingdaoUniversity of Science and Technology, Nano-Materials in Chemistry, MS

2000/09-2004/07, ShandongUniversity of Technology, Material Chemistry, BS

Expertise& Skills

Familiar about the chemical EOR technologies on tight oil and gas, heavy oil,

Be good at chemical synthesis of profile control agents, viscosity reducers & thickers, scale inhibitors, foaming agents, etc.

Publications

1. Upgrading and Visbreaking of Super–heavy oil by Catalytic Aquathermolysis with Aromatic Sulfonic Copper, Fuel Proc. Tech. 2012, 104, 174–180, (IF 2.95);

2. Laboratory Experiments and Field Test of a Difunctional Catalyst for Catalytic Aquathermolysis of Heavy Oil, Energy & Fuels 2012, 26, 1152–1159, (IF 2.72);

3. Synthesis and photoluminescence properties of bundle–like CdS nanostructures assembled by high quality nanorods, Cryst. Res. Technol. 2011, 46, 99–102, (IF 0.95);

4. Synthesis of Urchin–like VO2 Nanostructures Composed of Radially Aligned Nanobelts and Their Disassembly, Inorg. Chem. 2009, 48, 1168–1172, (IF 4.60);

5. Facile synthesis of CePO4 nanowires incorporation into CeO2 octahedral micron crystals and their enhanced photoluminescence properties, J Phys. Chem. C 2008, 112, 16452–16456, (IF 4.81);

6. Hydrothermal Synthesis and Characterization of YVO4 and YVO4:Eu3+ Nanobelts and Polyhedral Micron Crystals, J Phys. Chem. C 2008, 112, 6228–6231, (IF 4.81);

7. One-step synthesis of Ag nanoparticles supported on AgVO3 nanobelts, Mater. Lett. 2008, 62, 735–738, (IF 2.49);

8. Low–Valent Vanadium Oxide Nanostructures with Controlled Crystal Structures and Morphologies, Inorg. Chem. 2007, 46, 5787–5790, (IF 4.60);

Patants

1. Experimental system for analysizing the dynamic fouling trend of Geothermal Water, 2017,publication number: CN107014972A (publicated);

2. An alkyl ester sulfonate complex with hydrogen donor structure and its preparation method, 2012, publication number: CN102492411A (authorized);

3. Transition metal sulfonate complex for catalytic aquathermolysis of heavy oil and its preparation method, 2011, publication number:CN102154000A (authorized);

 

李景哲

Research Interests

Sedimentology,Sequence Stratigraphy andReservoir Characterization

Education Background

2013.09-2016.07College of Resources Science & Technology,Beijing NormalUniversity;

2015.09-2016.03Computer, electrical and mathematical science and engineering,King Abdullah University of Science and Technology(KAUST);

2011.09-2013.07 College of Marine Geosciences,Ocean University of China;

2007.09-2011.07 College of Geosciences and Technology,China University of Petroleum (East China).

Working Experices

2016.07-2017.09: School of Geosciences and Engineering,Sun Yat-SenUniversity,Specially Appointed Asso. Prof.;

2017.09 till now: College of Electromechanical Engineering / Geo-Engergy Research Institute,Qingdao University of Science & Technology, researcher.

Academic Papers

[1]Jingzhe Li, Jinliang Zhang*, et al. Architecture and facies model in a non-marine to shallow-marine setting with continuous base-level rise: An example from the Cretaceous Denglouku Formation in the Changling Depression, Songliao Basin, China[J]. Marine and Petroleum Geology, 2015, 68: 381-393.(doi:10.1016/j.marpetgeo.2015.09.002)(SCI if = 2.893);

[2]Jingzhe Li, Yongzhang Zhou*, Jinliang Zhang, et al. Eustatic fluctuations of the Neogene K successions of Huizhou Sag-high resolution quantitative analysis and implications from big data[J]. ActaPetrologicaSinica, Accepted(SCI if = 1.89);

[3]Jingzhe Li, Jinliang Zhang*, et al. Sedimentology and sequence stratigraphy of the Paleogene lower second member of the Shahejie Formation, W79 Block, Wenliu Oilfield, Bohai Bay Basin, China[J]. Russian Geology and Geophysics, 2016, 57(6): 944-957.(SCI if = 1.308);

[4]Jinliang Zhang, Shasha Liu,Jingzhe Li*, et al. Identification of Sedimentary Facies with Well Logs: An Indirect Approach with Multinomial Logistic Regression and Artificial Neural Network. Arabian Journal of Geosciences, 2017, in press, DOI: 10.1007/s12517-017-3045-6 (SCI if = 1.223) ;

[5]Jinliang Zhang*,Jing Zhe Liet al. Sedimentology and Sequence Stratigraphy of the Second Member of Shuangyang Formation, Y45 Block, Moliqing Oilfield, Yitong Basin, China 8(9):6697-6707 (DOI: 10.1007/s12517-014-1744-9) (Sci if = 1.223);

[6]Jing Zhe Li.High-resolution Sequence Stratigraphy of the 2nd Member of Shuangyang Formation in Moliqing Reservoir, Yitong Basin [D], Ocean University of China, 2013;

[7]Jing Zhe Li, Jing Liang Zhang, Yong Yuan et al., Sequence Stratigraphy of Jurassic Succession in Central Junggar Basin, China[J]. Advanced Materials Research,2013, 734-737, 440, EI;

[8]Jing Zhe Li, Jing Liang Zhang, Two Myths amid the Practice of Sequence Stratigraphy [J]. Special Oil&gasReservoirs(China A),2013,20(6):52-56.

[9]Ming Zhang, Jinliang Zhang, FaXu,Jingzhe Li, Jinshui Liu, GuoweiHou, and Penghui Zhang. "Paleocene sequence stratigraphy and depositional systems in the Lishui Sag, East China Sea Shelf Basin." Marine and Petroleum Geology 59 (2015): 390-405,(Sci if = 2.893);

[10]Peng-hui ZHANG, Jin-liang ZHANG, Wei-wei REN, Jun XIE, Ming LI, Jing-zhe LIet al., Identification of waterflooded zones and the impact of waterflooding on reservoir properties of the Funing Formation in the Subei Basin, China [J]. Journal of Zhejiang University SCIENCE A. 2013 Vol.14 No.2 P.147-154, SCI.

[11]Penghui Zhang, Jinliang Zhang, Yong Il Lee, Mingshui Song, Ming Zhang,Jingzhe Li, et al. Diagenesis of braided fluvial sandstones and its implications for prediction of reservoir quality: a case study on the NeogeneShawan Formation, Junggar Basin, NW China. Arabian Journal of Geosciences, 8(1), 29-37.;

[12]Penghui Zhang, Jinliang Zhang, Jun Xie, Yong Il Lee, Ming Zhang, Fang Ding, Yong Yuan,Jingzhe Li, et al. Deposition and diagenesis of steep-slope glutenitereservoirs:Shengtuo Field, eastern China. ENERG EXPLOR EXPLOIT, in press. (SCI)

Research Experience

2015.12-2017.09 < Oil & Gas Potential Evaluation in Lishui-Jiaojiang Depression, East China Shelf Basin, (National Science and Technology Major Project:2016ZX05027-001-006)>, main participant;

2012.12-2015.09 <Sequence stratigraphic and Sedimentary System of the East Sea Oil-bearing Basin, (National Science and Technology Major Project: 2011ZX05023-003)>, main participant;

2013.9-2014.7 < Study of The Sedimentary Facies and Hydrocarbon Occurrence Law, Changling Region, Jilin Oil Field>, main participant;

2013.7-2014.6 < Hydrocarbon Occurrence Law of Moliqing Reservoir, Jilin Oil Field >, main participant;

2013.3-2013.10 <Reservoir description of Youfangzhuang Area, Changqing Oil Field>, main participant;

2011.9-2012.7 < Reservoir Assessment of IV Shahejie Formation, Shengtuo Region ,Shengli Oil Field >, main participant;

2011.9-2011.12 <Sedimentary Facies and Reservoir Assessment of Li 32 Well Area ,Shengli Oil Field >, main participant;

2015.6.23-2015.6.25 Attended the 31st IAS Meeting in Poland.

 

 王飞

Address:Electromechanical, Qingdao University of Science and Technology

No. 99, Songling Road, Laoshan District

Qingdao, Shandong, China, 266580

E-mail:wangfeiupc@163.com

EDUCATION

Doctor of Philosophy 09/2013-07/2017

Major: Oil & Gas Field Development Engineering

School of Petroleum Engineering, China University of Petroleum (East China)

Ph.D. Thesis:Mechanism Study of Foam Transport and Its Flow Behavior in Porous Media

Master of Science09/2010-07/2013

Major: Mathematics

College of Science, China University of Petroleum (East China)

M.Sc. Thesis: A Mathematical Model Study on Foam Acidizing Diversion in Horizontal Well

Bachelor of Science 09/2006-07/2010

Major: Information and Computing Science

College of Mathematical and Computational Science, China University of Petroleum (East China)

B. Sc. Thesis: Research on Foam Acidizing Diversion in Horizontal Well

Ranking: Top 3% out of 180 students; GPA: 86/100

RESEARCH EXPERIENCE

In recent years, there are two main research directions: First, research on foams for EOR, Conducted experimental and theoretical studies of mechanisms of foam generation and propagation. Specific studies included fractal structure evolution model of foam and characterization of dynamic structure of foam transport in porous media. Second, enhancing oil recovery in tight oil reservoirs with supercritical CO2.

07/2017–present Research on Dynamic Transport and Oil Displacement Mechanisms with Supercritical CO2 Foam in Tight Oil Resevoir.Post-Doctor. Qingdao University of Science and Technology Geo-Energy Research Institute, Supervisor:Pacelli Lidio Jose ZITHA

01/2015–12/2016 Mechanism study of foam transport in porous media, supported by the FundamentalResearch Funds for the Central Universities. (Project Leader)

10/2011–12/2013 A mathematical model study on foam acidizing diversion in horizontal well, supported by the Fundamental Research Funds for the Central Universities. (Project Leader)

05/2014 – 06/2015 The Experimental Study of Chem-Thermogenic-Foam system, supported by China Oilfield Services Limited. (Project Leader)

01/2015 – 03/2016 Study on the mechanism and method of enhancing oil recovery in tight oil reservoirs, supported by theNational Basic Research Program of China(Project Participant)

10/2013–12/2014 Fundamental research on the application of supercritical CO2in unconventional reservoirs, supported by the key project of the National Natural Science Foundation. (Project Participant)

12/2013–05/2014 Optimization researches of foam plug removal and sand-flushing technology in offshore fields, supported by Shengli Oil Field. (Project Leader)

PUBLICATIONS

Fei Wang, Zhaomin Li, Hailong Chen et al. Establishment and Application of Structure Evolution Model for Aqueous Foam based on Fractal Theory. RSC Advances, 2017, 7, 3650–3659.(SCI,IF=3.109)

Fei Wang, Zhaomin Li, Hailong Chen et al. Fractal Characterization of Dynamic Structure of Foam Transport in Porous Media.Journal of Molecular Liquids,2017, 241.. (SCI, IF=3.648).

Hailong Chen, Zhaomin Li,Fei Wanget al.Extrapolation of Surface Tensions of Electrolyte and Associating Mixtures Solutions. Chemical Engineering Science, 2017, 162:10–20. (SCI, IF=2.895)

Hailong Chen, Zhaomin Li,Fei Wanget al.Investigation of surface properties for electrolyte solutions: Measurement and prediction of surface tension for aqueous concentrated electrolyte solutions.Journal of Chemical & Engineering Data, 2017.(SCI, IF=2.323,Accepted)

Fei Wang, Zhaomin Li, Hailong Chen, et al. Foam Fluid Flow Analysis in Helical Coiled Tubing Using CFD [J]. Procedia Engineering, 2015, 126:696-700.(EI

Fei Wang, Li Zhaomin, Li Songyan, et al. Mechanism study of a chem-pyrogenic-foam system in porous media [J]. Journal of China University of Petroleum. 2016, 40(3):130-135.(EI)

Fei Wang, Li Zhaomin, Li Songyan, et al [J]. Experimental study of profile control mechanism of self-generated heat and foam system. Journal of China University of Petroleum. 2017, 41(2):116-123 .(EI)

Shengtian Zhou, Zhaomin Li,Fei Wang. Numerical simulation on the foam acidizing diversion in horizontal well [J]. ACTA PETROLEI SINICA, 2012, 3: 448-452. (EI)

Fei Wang, Zhaomin Li, Songyan Li, et al. Mathematical model and numerical simulation of foam plug removal [J].Chinese journal of computational physics.2015, 32 (1): 58-64.

Fei Wang,Shengtian Zhou, Zhaomin Li.Distribution model of foamed acid in horizontal well[J].Fault-block Oil &Gas Field. 2013, 20(4):539-542.

PATENTS&SOFTWARE

Zhaomin Li,Fei Wang, GuanhuWang a, et al. A method of preparation and application of the Chem-Thermogenic-Foam system.China Patent Grant (CN201410294574.4).

Songyan Li, Zhaomin Li,Fei Wang, et al. A method and device of measuring the temperature of core during displacement.China Patent Grant (CN201410295021.0).

Li Zhaomin,Chao Zhang, TengLu,Fei Wang, et al.An experimental apparatus& method for measuring the dissolving capacity of supercritical CO2based on the microscopic visual technology.China Patent Grant(ZL201510227074.3)

Software: The simulation of foam fluid pipe flow. (2014SR042952)

SKILLS

Lab work: Expert on designing and conducting foamcoredisplacement experiments, interfacial tension experiments, foaming agent evaluation experiments with Foamscan, and microscopic experiments of foam in porous media

Computer abilities: National Computer Rank Examination (NCRE): Level 4(Database Engineer); Familiarly with some

programming languages such asMatlab ,Fortran, VB, C++

Other Software and Packages: Origin,Fluent(Computational Fluid Dynamics Engineer), COMSOL

Foreign language proficiency: Basic English communication ability.

HONORS AND AWARDS

First Scholarship (3 times). Second Scholarship (1 time). Outstanding Graduate (2 times)

The Second Place in the Qilu Software Design Competition with the works “Human-Computer Interaction navigation system”.

The Second Place in American National College Mathematical Contest in Modeling.

The Third Place in National Postgraduate Mathematic Contest in Modeling.

 

董旭

E-mail: 382234706@qq.com dongxu@qust.edu.cn

Address:Qingdao University of Science & Technology, No.99Songling Road, Laoshan Distinct, Qingdao, Shandong province

Educational Background

Jul.2017- Now,Post-Doc in EOR, Geo-Energy Resource Institute of Qingdao University of Science & Technology. Work with Prof. Pacelli J. Zitha.

Sep.2015- Mar.2017,PhDjoint-training in University of Alberta.

Work with Prof. Douglas R. Schmitt.

Sep.2013 - Jul.2017,PhD degree in geological resources and geological engineering (well logging), China University of Petroleum (mainly on rockphysics experimental analysis).

Work with Prof. Sun Jianmeng

Sep.2010 - Jul.2012,Master degree in control engineering, China University of Petroleum.

Work with Prof. TianXuemin

Sep.2006 - Jul.2010, Bachelor degree inautomation,Nanyang Institute of Technology.

Work with Associate Prof. Zhai Tiansong.

Major ResearchInterest

Core analysis, ScCO2 flooding, EOR

Paper & Patent (* corresponding author)

Sun J. M.,Dong X.*, Wang J. J., D. R. Schmitt., et al. Measurement of total porosity for gas shales by gas injection porosimetry (GIP) method[J]. Fuel. 2016, 186:694-707.IF: 4.6)

Dong X.*, Sun J., Li J., et al. Experimental research of gas shale electrical properties by NMR and the combination of imbibition and drainage[J]. Journal of Geophysics and Engineering.2015, 12(4):610-619.

Dong X.*, Sun J., Bao X., et al. Experimental research of shale gas electrical properties based on fluid distribution. 77th EAGE Conference and Exhibition, Madrid, Spain, 1-6 June, 2015.

Dong X.*, Sun J., Xu C., et al. Evaluation method for hydrocarbon cleaning effect in kerogen-rich gas shale. AAPG Annual Convention and Exhibition (ACE), Houston, America, 1-5 April, 2017.

Wang J. J.*,Dong X., Long F., et al. Experimental measurement and mathematical model for intrinsic permeability of tight rocks and shale at low pressure. 7th EAGE Saint Petersburg International Conference and Exhibition, Saint Petersburg, Russian, 2016.

Sun Jianmeng, Zhang Jinyan, Zhao Jianpeng, Yun Huayun, Cui Likai,Dong Xu. A high resolution digital core modeling method. ZL201410105012.0.

Research Experience

【Experiment research on rock physics propertiesof fracture---From SINOPEC

(Permeability, acoustic velocity, Archie formula)*(fracture imaging, width, number and angle)

Anisotropy experiment research on deep igneous rock---From CNPC

(Square core, acoustic sensitivity factor)

Special rock physics experiment research on tight oil reservoir in Ordos basin

(Rate-controlled mercury penetration, semi-permeable plate)

Well logging evaluation research on reservoir pollution parameters】---From CNOOC

(Mud invasion, NMR, MICP, CT)

Rock physics measurement and saturation model research on shale gas---From SINOPEC

(Total porosity, free gas content, micro-structure, NMR, MICP, FIB-SEM)

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