Tang Mingming

Name: Tang Mingming

Academic title: Associate Professor

Research Area:Geological Resources and Geological Engineering

Contact:

Email: tangmingming@upc.edu.cn

Phone: 0532-86983091

QQ: 760291782

Research Interests:

Artificial Intelligence and Reservoir Sedimentology;

Sedimentation dynamics;

Reservoir Modeling and Simulation;

Digital Rock;

Reservoir Multi-Scale Fracture Modeling

Courses Offered：Natural Gas Geology

Scholarly Activities

Academic Paper:

[1] Mingming Tang; Boyang Huang; Rong Xie; Zhenzhen Chen. A Seismic Inversion Method Based on Multi-Scale Super-Asymmetric Cycle-JNet Network. Applied Sciences, 2024,14(1):1~12.

[2] Qian Zhang, Tang Mingming*, Shuangfang Lu, Xueping Liu, Sichen Xiong. Effects of Mud Supply and Hydrodynamic Conditions on the Sedimentary Distribution of Estuaries: Insights from Sediment Dynamic Numerical Simulation. Journal of Marine Science and Engineering. 2023,11(1),1-18.

[3] Huifang Ma; Mingming Tang*; Hao Ren; Wenyue Guo; Kexin Zhang; Yefei Chen; Wanshun Jiang; Ying Wang; Bin Wu. A novel frequency-dependent lattice Boltzmann model with a single force term for electromagnetic wave propagation in dispersive media. Scientific Reports, 2023,13:11182.

[4] Mingming Tang; Sichen Xiong; Qian Zhang; Ruifeng Hong; Chenyang Peng; Rone Xie. Study on Distribution Law of Sand Bodies and Interlayers in Shelf Type Tidal Delta Based on Numerical Simulation of Sedimentary Dynamics. Journal of Marine Science and Engineering. 2024

[5] Yefei Chen; Jinxiu Yang; Muhammad Tailha, Ying Xia, Mingming Tang*, Rong Xie. Sequence Stratigraphy of the Jurassic Strata and Occurrences of Potential Sandstone Reservoirs in the ST Gas Field, Northern West Siberia Basin. Applied Sciences, 2023,13:1~15.

[6] Chaoqian Zhang; Yongle Hu; Suwei Wu; Mingming Tang*; Kexin Zhang; Heping Chen; Xuepeng Wan; Wensong Huang; Di Han; Zheng Meng. Analysis of fine grained sand and shale sedimentary characteristics in estuary based on sediment dynamics. Frontiers in Earth Science, 2023,10:963290.

[7] Huifang Ma; Bin Wu; Liping Song; Hao Ren; Wanshun Jiang; Wenyue Guo; Mingming Tang*. A New Lattice Boltzmann Scheme for Photonic Bandgap and Defect Mode Simulation in One-Dimensional Plasma Photonic Crystals. Photonics, 2022,9(7):1~15.

[8] Huifang Ma; Bin Wu; Ying Wang; Hao Ren; Wanshun Jiang; Mingming Tang*; Wenyue Guo. A Novel Lattice Boltzmann Scheme with Single Extended Force Term for Electromagnetic Wave Propagating in One-Dimensional Plasma Medium. Electronics, 2022,11(6):882.

[9] Mingming Tang; Shuangfang Lu; Ying Xin; Hongkun Tan; Xueping Liu; Xian Shi; Hongliang Zhang. Displacement of tight sandstone based on lattice Boltzmann method. Journal of China University of Petroleum, 2020,44:10~18.

[10] Yixin Cao; Mingming Tang; Qian Zhang; Jiafan Tang; Shuangfang Lu. Dynamic capillary pressure analysis of tight sandstone based on digital rock model. Capillarity, 2020,3:28~35.

[11] Mingming Tang; Hongbin Zhan; Huifang Ma; Shuangfang Lu. Upscaling of dynamic capillary pressure of two-phase flow in sandstone. Water Resources Research,2019,55:426~443.

[12] Mingming Tang; Hongbin Zhan; Shuangfang Lu; Huifang Ma; Hongkun Tan. Pore-scale CO2 displacement simulation based on the three fluid phase lattice Boltzmann method. Energy & Fules, 2019,33: 10039~10055.

[13] Mingming Tang; Shuangfang Lu; Kexin Zhang; Xiangdong Yin; Huifang Ma; Xian Shi; Xueping Liu; Changhong Chu. A three dimensional high-resolution reservoir model of Napo formation in Oriente Basin, Ecuador, integrating sediment dynamic simulation and geostatistics. Marine and Petroleum Geology, 2019,110:240~253.

[14] Mingming Tang; Kexin Zhang; Jixin Huang; Shuangfang Lu. Facies and the architecture of estuarine tidal bar in the lower cretaceous Mcmurray Formation, Central Athabasca oil sands, Alberta, Canada. Energies, 12,1769.

[15] Mingming Tang ; Shuangfang Lu; Hongbin Zhan; Guo Wenjie; Huifang Ma.The effect of a microscale fracture on dynamic capillary pressure oftwo phase flow in porous media, Advances in Water Resources,2018.1.31, 113: 272~284.

[16] Mingming Tang ; Zhao Hongyu; Ma Huifang; Lu Shuangfang ; Chen Yuming. Study on CO2 huff-n-puff of horizontal wells in continental tight oilreservoirs, Fuel, 2017.1.15, 188(15): 140~154.

[17] Mingming Tang ; Jinliang Zhang. Facture Modeling Research of Tight OilReservoir Based on Fracture Propagation Inversion Model, Journalof Southwest Petroleum University(Science & TechnologyEdition), 2017.2.1, 39(1): 63~72.

[18] Ailing Yang, Mingming Tang. Geochemistry Features of Oil-Gas Inclusionsand UV-VIS Micro-spectra Analysis of Single Oil-Gas Inclusions inBai 95 Oil Well，Journalof Geology & Geophysics，2017，6(1-10).

[19] Mingming Tang ; Shuangfang Lu; Hongru Liang; Bihui Yan; Huifang Ma;ShanShen. Numerical Modelling and Simulation of Seepage in TightSandstone Based on Parallel Lattice Boltzmann Method, ACTAGEOLOGICA SINICA(English edition), 2015.6.1, 89(1): 412~414 .

[20] Mingming Tang ; Shuangfang Lu ; Hongru Liang; Bihui Yan; Shen Shan. Study on the Fracturing Parameters and Productivity of Horizontal Wells,ACTA GEOLOGICA SINICA(English edition), 2015.6.1, 89(1): 321~323.

[21] Mingming Tang; Jinliang Zhang. Fracture modelling based on the stochastic extended finite element method, Petroleum Geoscience, 2013.10.16,19 (4): 343~355 (SCI Indexed).

[22] Mingming Tang ; Jinliang Zhang. A New Approach to Fracture Modeling Based on the Extended Finite Element Simulation Method and KrigingMethod, Petroleum Science and Technology, 2012.9.4, 30: 2266~2262(SCI Indexed)

[23] Tang Mingming, Zhang Jinliang. Fracture modeling and application based on fracture mechanics. SPE131305.(SPE&EI indexed)

[24] Tang Mingming, Zhang Jinliang. A new approach to fracture modeling based on extended finite element simulation method and krigingmethod. Petroleum science and technology. (SCI indexed journal).

[25] Tang Mingming, Zhang Jinliang. Fracture modeling based on the Stochastic Extended Finite Element method. Petroleum geosciences.(SCI indexed journal)

[26] Tang Mingming, Zhang Jinliang. A multiple adaptive wavelet recurrent neural network model to analyze crude oil prices. Journal of economics and business. 2012,64:275-286.(AEA  indexed)

[27] Tang Mingming, Yang Ailing, Zhang Jinliang. An optimal loss curve of a step index mono-mode fiber. International Pre-Olympic Workshop on Modeling and Simulation, 2008, 8. Proceedings of first international conference on modeling and

Simlulation 2008:236~240.

[28] Tang Mingming, Zhang Jinliang, Liu Baohua. Effects of thin meander dot dam inter-bed on efficiency and distribution of CO2 injectionflow. International

Conference on Future Computers and Communication 2009:482～453.(EI indexed)

[29] Tang Mingming, Zhang Jinliang, Tao Mingxin. Effects Simulation ofInternational Natural Gas Prices on Crude Oil Prices Based on the WBNNK Model. Sixth International Conference on Natural Computation2010:1643～1648.(EI indexed)

[30] Tang Mingming，YangAiling，ZhangJinliang. Fringe Mending Based on Wavelet Transformation and Maximum Extraction on Self-resemble of Interference Fringes. ActaPhotonica Sinica, 2008, 37(9):1896～1899.(EI indexed)

[31] Tang Mingming, Zhang Jinliang. Raman spectra of hydrocarbon in returned drilling fluid using co-focal laser Raman microscopy. Advanced materials research.(EI indexed)

[32] Yang Ailing, Tang Mingming. Based on MDCE to simulate bell-shaped interferograms produced by a capillary tube interferometer. Journal of physics. 2011,276:1-5.(SCI & EI indexed)

[33] Yang Ailing, Tang Mingming. Investigation of the Ultraviolet visible micro fluorescence spectra  chromaticity of single oil inclusion. Photonica Sinica Year,2011,3:0318002-1.(SCI & EI indexed)

[34] Ren Weiwei, Tang Mingming. Visible analysis of fluorescence characteristic of crude oil based on chromaticityinversion.CINIC,2010: 21-24.(EI indexed)

[35] Zhang Jinliang, Tang Mingming, Tao Mingxin. Effects simulation of international gold prices on crude oil prices based on the WBNNK Model. International Conference on Future Computers and Communication 2009:501～505.(EI indexed)

[36] Zhang Jinliang, Tang Mingming,Tao Mingxin. Based on wavelet-boltzman neural network and kernel density estimate, predict internationalcrude oil prices. International Conference on Future Computer and Communication 2009:150～156.(EI indexed)

[37] Zhang Jinliang, Tang Mingming, Tao Mingxin. Effects simulation of international gold prices on crude oil prices based on the WBNNK model. International Colloquium on Computing, Communication, Control, and Management 2009:459～464.(EI indexed)

[38] Yang Ailing, Tang Mingming, Interpolation calculation of an optical path surface based on Delaunay triangulation and sector boundary algorithm. Proceeding of the First International Conference on Modeling and Simulation-Modeling and Simulation in Electronics, Computing, and Bio-Medicine 2008: 86～90.(EI indexed)

[39] Yang Ailing, Tang Mingming, Guo Xing. Interferograms of plastic step-index fiber illuminated by a focused laser sheet of light.The National Symposium on the Optical Properties of Condensed Matter 2007:35～40.(EI indexed)

[40] Li Cunlei, Ren Weiwei, Tang Mingming. Preliminary study on gravity flow depositional system based on fluid properties conversion theory. Geological review. 2012,3:285-296.(EI indexed)

[41] Yang Ailing, Zhang Jinliang, Tang Mingming. Micro-spectroscopy system using a common inverted microscope to measure the UV-VIS spectra of a micro-area. The International Society for Optical Engineering: 200～205,2009 .(EI indexed)

[42] Yang Ailing, Zhang Jinliang, Tang Mingming. Measurement of Refractive Indices of Semi-transparent Oils Using the LFI Method. Acta Photonica Sinca, 2009,38(3): 699～703(EI indexed).

Research Project：

[1] National Natural Science Foundation of China (No. 42174146).

[2] CNPC Major Forward-looking Basic Science and Technology Projects (No. 2021DJ0204).

[3] Research on shale holographic minimalistic digital core reconstruction and gas-water flow law based on deep learning, National Natural Science Foundation of China, 2021-2024(Host).

[4] Oxygen transport mechanism and numerical simulation under groundwater level fluctuation in variable saturation zone, National Natural Science Foundation of China Project (Cooperation), 2020-2023.

[5] Multi-scale Collaborative Modeling of shale gas reservoir fractures, Youth Project of National Natural Science Foundation of China, 2015-2017(Host).

[6] Research on the coupling mechanism of micro-stress and seepage in shale based on digital core Technology, Project of Natural Science Foundation of Shandong Province, 2020-2023(Host).

[7] Simulation study on shale oil exploitation in low-frequency electric field heating reservoirs: A case study of Shahejie Formation in Jiyang Depression, Bohai Bay Basin, National Natural Science Foundation of China, 2019-2023(Participation).

[8] Micro-occurrence of pore water in shale matrix and its control mechanism on shale gas production, National Natural Science Foundation of China, 2019-2023(Participation).

[9] Research on micro-fracture propagation mechanism and Multi-scale modeling of shale reservoir, Joint Project of Shandong Natural Science Foundation, 2015-2017(Host).

[10] Optimal selection and modeling of favorable reservoirs in sand conglomerate tight oil Demonstration Area, National Science and Technology Major Project, 2017-2020.

[11] Study on the mechanism and model of tight oil charging and accumulation, National Science and Technology Major Project, 2017-2020(Participation).

[12] Study on shale deformation and gas-rich mechanism during tectonic evolution, National Natural Science Foundation of China, 2016-2020(Participation).

[13] Basic Research on the formation mechanism of hydraulic fracture network and discrete element numerical Simulation, Independent Innovation Foundation, 2018-2020(Participation).

[14] Multi-scale collaborative modeling of shale gas reservoir fractures, National Natural Science Foundation of China, 2015-2017.

[15] Research on THM coupling and rock mass fracture evolution of enhanced geothermal systems, Independent Innovation Foundation, 2016-2018(Participation).

[16] In situ assembly of N2 end-group complexes in MOF molecular reactors and highly selective methane/nitrogen separation, National Natural Science Foundation of China, 2015-2017(Participation).

[17] Research on micro-fracture propagation mechanism and multi-scale modeling of shale reservoirs, Natural Science Foundation of Shandong Province, 2014-2017(Host).

[18] Characterization of single channel in composite sand body and quantitative characterization of interchannel sand body connectivity, Natural Science Foundation of Shandong Province, 2014-2016(Participation).

[19] Multi-scale tight sandstone reservoir fracture modeling and its coupling technology with multi-phase flow, Talent Introduction Fund of China University of Petroleum (East China), 2014-2015(Host).

[20] Research and Development Service Contract of Integrated fracturing Geological Optimization Design Software for tight sandstone Gas Reservoirs, CNOOC Energy Development Co., LTD.,2023-2024(Host).

[21] Detailed interpretation of seismic data in the Lower Yamal Cretaceous, Research Institute of Exploration and Development, CNPC,2023-2024(Chair).

[22] Fine reservoir characterization and New well potential Analysis in the MarSur area of the Andean Project, Research Institute of Exploration and Development, CNPC,2023-2024(Chair).

[23] Research Services on water production Mechanism and Gas Water Co-production Index prediction of water-bearing tight gas reservoirs in engineering and technology companies, CNOOC Energy Development Co., LTD.,2023-2024(Host).

[24] Fine Description of Western reservoir and Potential Analysis of New well in Block T of Andean Project, Exploration and Development Research Institute of CNPC,2022-2023(Chair).

[25] Detailed interpretation of seismic data of the Upper Yamal Cretaceous, Research Institute of Exploration and Development, CNPC,2022-2023(Chair).

[26] Study on Sequence stratigraphy and sedimentary characteristics of Marine and continental transitional sandstone, Research Institute of Exploration and Development, China National Petroleum Corporation,2022-2023(Chair).

[27] Study on sedimentary dynamics and sand body characteristics of Yamal Jurassic, Research Institute of Exploration and Development, petrochina, 2020-2021(Chair).

[28] Reservoir Description and geological Modeling of LU Formation in Central Block T of Andean Project, petrochina Research Institute of Exploration and Development, 2020-2021(Chair).

[29] Sedimentary Dynamics Simulation and reservoir Evaluation of M1 Formation in JohannaEast Oilfield, Andean Project, Research Institute of Exploration and Development, petrochina, 2019-2020(Host).

[30] Key Technologies of Shale gas Exploration and Development in Nanchuan Complex Structural Belt, China Petroleum & Chemical Corporation, 2019-2020(Participation).

[31] Detailed description of tide-controlled sedimentary model and reservoir in the western Andean Block T, petrochina Research Institute of Exploration and Development, 2018-2019(Chair).

[32] Study on microscopic characteristics and seepage mechanism of tight oil reservoir in Gaotaizi Oil Formation in Longhubao-Qijia Area, No.9 Oil Production Plant, Daqing Oilfield, 2017-2018(Host).

[33] Research on energy supplement method based on digital core tight reservoir, No.9 Oil Production Plant, Daqing Oilfield, 2016-2017(Host).

[34] Study on seepage mechanism and productivity prediction method of tight oil in Block Long26 and Qiping2, No.9 Oil Production Plant, Daqing Oilfield, 2015-2016(Host).

[35] Detailed description of sedimentary microfacies and reservoirs in JohannaEast and AliceWest Andean projects, petrochina Research Institute of Exploration and Development, 2016-2017(Chair).

[36] Detailed description of sedimentary microfacies and reservoir in Dorine-Fanny Oilfield, Andean Project, petrochina Research Institute of Exploration and Development, 2014-2015(Chair).

[37] Fine Geological modeling and numerical value of Honggang North Horizontal Well Development Target Area, Jilin Oilfield Exploration and Development Research Institute, 2013-2014(Host).

[38] Study on Sequence Stratigraphy and sedimentary system of Mai Kai River Oil Sands Block, petrochina Research Institute of Exploration and Development, 2013-2014(Chair).

Scholarship and Prize:

[1] Key Technologies and Applications for Sustainable Development of Sandstone Oil Fields, Second Prize of Provincial and Ministerial Level, China Federation of Commerce,2023.

[2] Key Technologies and Applications of Shale/Tight Oil and Gas Enrichment Conditions and "sweet spot" Evaluation, China Petroleum and Chemical Industry Federation, First Prize of Provincial and Ministerial Level,2022.

[3] Key Technologies and Applications for Efficient Development of low-amplitude sandstone reservoirs in Ecuador during ultra-high water cut period, China Petroleum and Chemical Automation Application Association, Second Prize, 2022.

[4] Hydrocarbon Kinetics Theory and Application of Organic Matter, Second Prize of Provincial and Ministerial Level, Ministry of Education, 2019.

[5] Key Technologies and Applications of Shale Oil Enrichment Conditions and Resource Potential Evaluation in China, Second Prize of Provincial and Ministerial Level, Ministry of Education, 2018.

[6] Effective Identification Technology and Fine Exploration Method of Deep Complex Lithology Reservoir, Shandong Provincial People's Government, Second Prize of Science and Technology Progress, "Effective Identification Technology and fine Exploration Method of Deep Complex Lithology Reservoir", 2011.

-Patent:

[1] Isotope nuclear magnetic method for analyzing ineffective water absorption of rock pores, NO: US-2019-0257733-A1 (Authorization)

[2] Method for reconstruction pore structure of core with micro-CT, NO:US-2019-0251715-A1 (Authorized)

 Chinese invention patents:

[3] Core dynamic capillary pressure coefficient experimental test method and core cleaning device and cleaning method, Patent No. : ZL201810398964.4 (authorized)

[4] Isotope nuclear magnetic method for the analysis of ineffective water absorption in rock pores, Patent No. : ZL20181050383.0(authorized)

[5] Core micron CT pore structure reconstruction method, Patent No. : ZL201810397176.3(authorized)

[6] Calculation method of shale content of mud-coated reservoir based on core scanning, Patent No. ZL201510646484.1(Authorized)

[7] A method for predicting the length of mud sag of Marine reservoir, Patent No. ZL201510161926.3(authorized)

[8] A rock nano-CT pore calibration method, patent No. : ZL201510161929.7(authorized)

-Software Copyright:

[1] Reservoir Sedimentation Dynamics Simulation System Software,2022SR1348224, Original acquisition, All Rights,2022.3.18

[2] Shale Digital Core Intelligent reconstruction System software,2022SR1348238, original acquisition, all rights,2022.1.14

[3] Marine Sedimentary Dynamics Simulation System Software,2020SR0707833, Original acquisition, All rights,2020.3.26

[4] Intelligent Digital Core reconstruction simulation System software,2020SR0709437, original acquisition, all rights,2020.3.12

[5] Reservoir Micro-pore fracture flow Simulation System software,2017SR530230, original acquisition, All rights,2016.6.1

[6] Reservoir Well Location Automatic Optimization System software,2020SR0706179, original acquisition, All rights,2020.3.31

[7] Shale Multi-scale Fracture Simulation System software,2017SR566500, Original acquisition, Full rights,2016.6.1

[8] Shale Multi-scale Fracture Simulation System software,2017SR566500, Original acquisition, Full rights,2016.6.1

[9] Inclusion oil and gas accumulation analysis System software (PIS/V1.0), original acquisition, all rights, registration number :2009SR036603,2009.9

[10] International Oil Price Prediction and Analysis System software (COPS/V1.0), originally obtained, all rights, Registration number :2009SR036602,2009.9

[11] Adaptive Oilfield Development Analysis System software (PAD/V1.0), original acquisition, all rights, Registration number :2009SR035105,2009.8

[12] Reservoir Performance Analysis System (PRDAS/V1.0), Original acquisition, all rights, Registration No. 2009SR02965,2009.1

[13] Reservoir Stochastic Modeling System Software (RSM/V1.0), original acquisition, all rights, Registration number :2012SR038292,2011.7

[14] Reservoir seismic data volume Attribute Processing software (RSPA/V1.0), original acquisition, all rights, Registration No. :2012SR038170,2012.5

[15] Reservoir Extension Finite Element Mesh Generation System software (GESS/V1.0), original acquisition, all rights, Registration No. :2012SR038296,2012.5.

[16] Reservoir corner Grid multi-attribute reading system software PRDAS/V1.0), original acquisition, all rights, registration number :2012SR038299,012.5.

[17] Reservoir Extension Finite Element Model Visualization software (REFM/V1.0), original acquisition, all rights, Registration No. :2012SR038301,2012.5

[18] Crack modeling system software (FRESS/V1.0), original acquisition, all rights, registration number :2011SR053600,2012.5

-Academic Monograph:

[1] Study on quantitative reservoir characterization techniques of tidal controlled sedimentary system, Zhang Kexin, Tang Mingming and Zhang Xianxian, 2024 (CIP:2024-051867).

[2] Sedimentary Dynamics, Tang Mingming, 2022 (CIP:2022-117791).

[3] Reservoir fracture modeling and multi-phase flow coupling theory, Tang Mingming, 2019 (CIP:2019-032951).