»Name: TANG Mingming | »Department: Research Center of Unconventional Petroleum |
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»Degree: Doctor | »Title: Lecturer | |
»Major: Petroleum Geology | »Tutor type: Master Tutor | |
»Email:tangmingming@upc.edu.cn | ||
»Address:NO.66 Changjiangxi Road, Huangdao District, Qingdao, China.(Zip code: 266580) | ||
»Profile | ||
◎Research interests Unconventional reservoir modeling and simulation Pore scale multi-phase flow simulation Multi-scale fracture modeling Nano-scale flow simulation based on molecular dynamics ◎Education background 2008.9, Ocean University of China, Bachelor's degree in physics 2010.9, Ocean University of China, Master degree in mineral prospecting and exploration 2013.9, Beijing Normal University, PhD degree in Natural resources ◎Work Experience 2013.7-, China University Petroleum. 2016.12-2018.1, Visiting scholar at Texas A&M University. ◎Part-time Academic Job Reviewer of JCRQ1 class journals, as 《Advances in Water Resource》、《FUEL》、《International Journal of Rock Mechanics and Mining Sciences》 etc.. ◎Instructing postgraduates and postdoctoral candidates Assist more than 17 postgraduates and postdoctoral candidates ◎Project 1. Government sponsored research projects (1) Reservoir development optimization of tight sand-gravel reservoir, National Science and Technology Major Project, 2017-2020. (2)Study on the mechanism and model of tight oil charging and accumulation, National Science and Technology Major Project, 2017-2020. (3)The deformation of shale and gas enrichment in the progress of tectonic evolution, National Natural Science Foundation of China, 2016-2020. (4)Research on the mechanism of hydro fracturing network and discrete element simulation, Innovation Fund, 2018-2020. (5)Research on multi scale fracture modelling of shale gas reservoir, National Natural Science Foundation of China, 2015-2017. (6)THM coupling of enhanced geothermal system and evolution of rock mass rupture, independent innovation fund, 2016-2018. (7)In-situ assembly of N2 end-base complexes in MOF molecular reactors and high-selectivity methane/nitrogen separation studies, National Natural Science Foundation of China, 2015-2017. (8)Analysis of micro-crack propagation mechanism and multiscale modeling of shale reservoirs, natural Science Foundation of Shandong Province, 2014-2017 (9)Characterization of single channel in composite sand body and quantitative representation of sand body connectivity between rivers, Shandong Natural Science Foundation, 2014-2016. (10)Research on multi-scale tight sandstone reservoir fracture modeling and multiphase flow, China University of Petroleum Talent Introduction Fund, 2014-2015. 2. Enterprise sponsored projects: (1) Study on microscopic characteristics and seepage mechanism of tight oil reservoirs in Longhupao-Qijia area, Daqing Oilfield Ninth Oil Production Plant, 2017-2018. (2) Research on the EOR method of the tight reservoir based on digital core modelling, of the energy supplement method of the dense reservoir of digital core, Daqing oilfield ninth oil production plant, 2016-2017. (3) Research on the seepage mechanism and productivity prediction method of tight oil in Long-26, Daqing oilfield ninth oil production plant, 2015-2016. (4) Detailed description of the sedimentary micro-facies in Johannaeast and Alicewest, Institute of Petroleum Exploration and development, 2016-2017. (5)Description of micro-facies in Dorine-fanny Oilfield, Institute of Petroleum Exploration and development, 2014-2015. (6)Fine geological modeling and numerical simulation of horizontal well development target area of Honggangbei area, Jilin oilfield Exploration and Development Institute, 2013-2014. (7)Study on the stratigraphy and depositional system of Mackay Oil Sand block, Institute of Petroleum Exploration and development, 2013-2014. ◎Government Award (1)Science and Technology Progress award of Ministry of Education "key technology and application of China shale oil enrichment condition and resource potential evaluation", 2017. (2)Shandong Science and Technology progress "effective identification technology and fine exploration method of deep complex lithologic reservoirs", 2011. ◎Published article (1)Mingming Tang ; Shuangfang Lu; Hongbin Zhan; Guo Wenjie; Huifang Ma,Theeffect of a microscale fracture on dynamic capillary pressure oftwo phase flow in porous media, Advances in Water Resources,2018.1.31, 113: 272~284 (SCI) (2)Mingming Tang ; Zhao Hongyu; Ma Huifang; Lu Shuangfang ; Chen Yuming,Studyon CO2 huff-n-puff of horizontal wells in continental tight oilreservoirs, Fuel, 2017.1.15, 188(15): 140~154 (SCI) (3)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 (4)AilingYang, 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), (5)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 . (6)Mingming Tang ; Shuangfang Lu ; Hongru Liang; Bihui Yan; Shen Shan,Study onthe Fracturing Parameters and Productivity of Horizontal Wells,ACTA GEOLOGICA SINICA(English edition), 2015.6.1, 89(1): 321~323. (7)Mingming Tang; Jinliang Zhang ,Fracture modelling based on the stochasticextended finite element method, Petroleum Geoscience, 2013.10.16,19 (4): 343~355 . (8)Mingming Tang ; Jinliang Zhang ,A New Approach to Fracture Modeling Basedon the Extended Finite Element Simulation Method and KrigingMethod, Petroleum Science and Technology, 2012.9.4, 30: 2266~2262(SCI) (9)Tang Mingming, Zhang Jinliang. Fracture modeling and application basedon fracture mechanics. SPE 131305.(SPE&EI indexed) (10)Tang Mingming, Zhang Jinliang. A new approach to fracture modelingbased on extended finite element simulation method and krigingmethod. Petroleum science and technology. (SCI indexed journal). (11)TangMingming, Zhang Jinliang. Fracture modeling based on theStochastic Extended Finite Element method. Petroleum geosciences.(SCI indexed journal) (12)TangMingming, Zhang Jinliang. A multiple adaptive wavelet recurrentneural network model to analysze crude oil prices. Journal ofeconomics and business. 2012,64:275-286.(AEA indexed) (13)TangMingming, Yang Ailing, Zhang Jinliang. An optimal loss curve of astep index mono-mode fiber. International Pre-Olympic Workshop onModeling and Simulation, 2008, 8. Proceedings of firstinternational conference on modeling and simulation 2008:236~240.(EIindexed) (14)TangMingming, Zhang Jinliang, Liu Baohua. Effects of thin meander dotdam inter-bed on efficiency and distribution of CO2 injectionflow. International Conference on Future Computers andCommunication 2009:482~453.(EIindexed) (15)TangMingming, Zhang Jinliang, Tao Mingxin. Effects Simulation ofInternational Natural Gas Prices on Crude Oil Prices Based on theWBNNK Model. Sixth International Conference on Natural Computation2010:1643~1648.(EIindexed) (16)TangMingming,YangAiling,ZhangJinliang. Fringe Mending Based on Wavelet Transformation andMaximum Extraction on Self-resemble of Interference Fringes. ActaPhotonica Sinica, 2008, 37(9):1896~1899.(EI indexed) (17)TangMingming, Zhang Jinliang. Raman spectra of hydrocarbon in returneddrilling fluid using co-focal laser Raman microscopy. Advancedmaterials research.(EI indexed) (18)YangAiling, Tang Mingming. Based on MDCE to simulate bell-shapedinterferograms produced by a capillary tube interferometer.Journal of phycis. 2011,276:1-5.(SCI & EI indexed) (19)YangAiling, Tang Mingming. Investigation of the Ultraviolet visiblemicro fluorescence spectra chromaticity of single oil inclusion.Photonica Sinica Year,2011,3:0318002-1.(SCI & EI indexed) (20)RenWeiwei, Tang Mingming. Visible analysis of fluorescencecharacteristic of crude oil based on chromaticityinversion.CINIC,2010: 21-24.(EI indexed) (21)ZhangJinliang, Tang Mingming, Tao Mingxin. Effects simulation ofinternational gold prices on crude oil prices based on the WBNNKModel. International Conference on Future Computers andCommunication 2009:501~505.(EI indexed) (22)ZhangJinliang, Tang Mingming,Tao Mingxin. Based on wavelet-boltzmanneural network and kernel density estimate, predict internationalcrude oil prices. International Conference on Future Computer andCommunication 2009:150~156.(EIindexed) (23)ZhangJinliang, Tang Mingming, Tao Mingxin. Effects simulation ofinternational gold prices on crude oil prices based on the WBNNKmodel. International Colloquium on Computing, Communication,Control, and Management 2009:459~464.(EIindexed) (24)YangAiling, Tang Mingming, Interpolation calculation of an opticalpath surface based on Delaunay triangulation and sector boundaryalgorithm. Proceeding of the First International Conference onModeling and Simulation-Modeling and Simulation in Electronics,Computing, and Bio-Medicine 2008: 86~90.(EI indexed) (25)YangAiling, Tang Mingming, Guo Xing. Interferograms of plasticstep-index fiber illuminated by a focused laser sheet of light.The National Symposium on the Optical Properties of CondensedMatter 2007:35~40.(EIindexed) (26)LiCunlei, Ren Weiwei, Tang Mingming. Preliminary study on gravityflow depositional system based on fluid properties conversiontheory. Geological review. 2012,3:285-296.(EI indexed) (27)YangAiling, Zhang Jinliang, Tang Mingming. Micro-spectroscopy systemusing a common inverted microscope to measure the UV-VIS spectraof a micro-area. The International Society for OpticalEngineering: 200~205,2009 .(EI indexed) (28)YangAiling, Zhang Jinliang,Tang Mingming. Measurement of RefractiveIndices of Semi-transparent Oils Using the LFI Method. ActaPhotonica Sinca, 2009,38(3): 699~703(EI indexed). ◎Patent (1)A method for predicting the length of sediment mud layer in marine facies reservoirs, 2015.4.8, Patent number:201510161926.3 (authorized) (2)A method of pore calibration for rock nano-CT, 2015.6.24, Patent number: 201510161929.7 (authorized) (3)A calculation method of mud content in mud-rich reservoir based on core scanning, 2015.10.8, Patent number: 2015106464841 (authorized) ◎Software (1) Shale multi-scale fracture simulation system software, 2017SR566500, original acquisition, all rights, 2016.6.1 (2) Reservoir microscopic pore flow simulation system software, 2017sr530230, original acquisition, all rights, 2016.6.1 (3) Inclusions oil and gas reservoir analysis system software (pis/v1.0), original acquisition, all rights, registration number: 2009sr036603,2009.9 (4) International oil price Forecasting and Analysis system software (cops/v1.0), original acquisition, all rights, registration number: 2009sr036602,2009.9 (5) Adaptive Oilfield Development and Analysis system software (pad/v1.0), original acquisition, all rights, registration number: 2009sr035105,2009.8 (6) Reservoir dynamic Analysis System (prdas/v1.0), original acquisition, all rights, registration number: 2009sr02965,2009.1 (7) Reservoir stochastic modeling system software (rsm/v1.0), original acquisition, all rights, registration number: 2012sr038292,2011.7 (8) Reservoir seismic Data property processing software (rspa/v1.0), original acquisition, all rights, registration number: 2012sr038170,2012.5 (9) Reservoir extended finite element (XFEM) mesh generation system software (gess/v1.0), original acquisition, all rights, registration number: 2012sr038296,2012.5. (10) Reservoir corner grid Multi-attribute reading system software prdas/v1.0), the original acquisition, all rights, registration number: 2012sr038299,012.5. (11) Reservoir extended finite element(XFEM) model visualization software (refm/v1.0), original acquisition, all rights, registration number: 2012sr038301,2012.5 (12) Fracture modeling system software (fress/v1.0), original acquisition, all rights, registration number: 2011sr053600,2012.5 | ||
