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中国地质大学北京导师教师师资介绍简介-刘大锰教授

本站小编 Free考研考试/2020-05-03

基本情况:
刘大锰,男,汉族,博士,1965.10生,湖南桃源人,1987.01加入中国共产党,1994.06参加工作,
2001.05晋升为教授,2003.04被评为博士生导师,现任党委常委、副校长。
学习和培训经历:
1984.9—1988.7湘潭矿业学院地质系攻读学士学位
1988.9—1991.7焦作矿业学院地质系攻读硕士学位
1991.9—1994.6中国矿业大学(北京)攻读博士学位
1996.12—1997.1首都师范大学教育心理学培训班结业
2008.2—2008.5国家教育行政学院第29期中青年干部培训班结业
2013.5—2013.6中西部高校校长海外研修班结业
2018.9—2018.10国家教育行政学院第57期高校领导进修班结业
工作经历和担任职务:
1994.6—1996.6中国地质大学(北京)博士后,兼煤田教研室党支部书记
1996.7—2001.4中国地质大学(北京)能源系副教授
1998.10—1999.10美国伊利诺大学(香槟校区)访问
2001.5—2004.6中国地质大学(北京)能源系教授,兼任系学生党支部书记,
2003.3兼任系分工会主席,2003.04被评为博士生导师,
2004.1兼任系党总支纪检委员
2004.6—2007.1中国地质大学(北京)科技处副处长、期刊中心主任
2005.9—2007.1教辅直属党支部书记
2007.1—2010.5研究生院副院长
2010.5—2011.8教务处处长
2011.8—2016.7副校级干部、教务处长,其间:2011.8-2014.8新疆石河子大学党委常委、副校长(中央第七批援疆干部)
2016.7—2016.12党委常委、副校长、教务处长
2017.1—至今党委常委、副校长

社会兼职:
中国高等教育学会常务理事、中国煤炭学会/中国地质学会煤炭地质专业委员会副主任、中国地质学会地质教育研究分会秘书长、《现代地质》编委、《煤田地质与勘探》编委、《资源与产业》编委、《煤炭科学技术》编委。

招生专业:
1、矿产普查与勘探(博、硕):研究方向(1)油气储层地质与评价;(2)非常规油气地质理论与评价。

地址:北京市海淀区学院路29号中国地质大学(北京)能源学院
邮编:100083
联系电话:86-(O)
Email:dmliu@cugb.edu.cn/dmliu5188@126.com


[1] Liu Dameng, Hou Xiaoqiang and Jiang Jinpeng. A study on composition and structure of graptolites using micro-FTIR and TOF-SIMS. Sci. Geol. Sinica,1995, 4(1): 105-110.
[2] Liu Dameng, Jin Kuili, Mao Heling. Hydrocarbon generation models of marine monocomponents. Scientia Geologica Sinica. 1996, 5(1): 61-64.
[3] Liu Dameng, Jin Kuili, Mao Heling. Compositional and structural study of macerals in coals and source rocks using secondary ion mass spectrometric technique. Journal of China University of Mining and Technology, 1997, 7(1): 11-18.
[4] Liu Dameng, Yang Qi, Tang Dazhen. Reaction kinetics of coalification in the Ordos basin, China. In: Proc. 30th Int’l Geol. Congr., Geology of Fossil Fuels-Coal, Yang Qi (Ed), Vol.18, Part Ⅱ,VSP,1997, 147-159.
[5] Liu Dameng, Jin Kuili. Contrasting on hydrocarbon generation model and characteristics during pyrolysis of modern aquatic plant (Gloeocapsa) vs marine animal (Mantis Shrimp). J. China Univ. Geosci., 2000, 11(1): 28-36.
[6] Liu Dameng, Yang Qi, Tang Dazhen. Occurrence and geological genesis of pyrites in Late Paleozoic coal, North China. Chinese J. of Geochemistry, 2000, 19(4): 301-311.
[7] Zou Yanrong, Yang Qi, Liu Dameng et al. Maturity control on the patterns of hydrocarbon regeneration from coal. Acta Geologica Sinica, 2000, 74(2): 370-374[SCI].
[8] Liu DM, Yang Q, Tang DZ, et al. Geochemistry of sulfur and elements in coals from the Antaibao surface mine, Pingshuo, Shanxi Province, China. Int. J. Coal Geol., 2001, 46(1): 51-64[SCI & EI].
[9] Tang DZ, Yang Q, Zhou CG, Kang XD, Liu DM and Huang WH. Genetic relationship between coal swamp microenvironment and sulfur distribution of the Late Paleozoic coals in North China. Science in China (Series D), 2001, 44(6): 555-565 [SCI].
[10] Liu DM, Tu JQ, Jin KL. Organic petrology of potential source rocks in the Tarim Basin, NW China. J. Petroleum Geol., 2003, 26(1): 105-124[SCI & EI].
[11] Tang SH, Hao DH, Tang DZ, Liu DM. The component fractionation effect in binary-component gas adsorption isotherm experiments on coal. CHINESE SCIENCE BULLETIN, 2005, 50(suppl.): 72-78[SCI].
[12] Che Y, Huang WH, Liu DM. Micro-Goethite in Percolated Water from Fushui Reservoir in Hubei Province, China. Materials Science & Engineering: C, 2006, 26: 606-609[SCI].
[13] LIU Dameng, GAO Shaopeng, AN Xianghua. Distribution and Source Apportionment of Polycyclic Aromatic Hydrocarbons from Atmospheric Particulate Matter PM2.5 in Beijing City, PR China. Advances in Atmospheric Sciences, 2008,25(2): 297-305[SCI].
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[15] Yanjun Liu, Xiwu Liu, Dameng Liu, Yanjin Wang and Yingxin Zhao. Applications of seismic techniques to gas hydrates prediction. Applied Geophysics, 2008,5(1): 67-73[SCI].
[16] Yao YB, Liu DM, Tang DZ, Tang SH, Huang WH. Fractal characterization of adsorption-pores of coals from North China: an investigation on CH4 adsorption capacity of coals. International Journal of Coal Geology, 2008, 73(1): 27-42[SCI & EI].
[17] Yao Yanbin, Liu Dameng, Tang Dazhen, Huang Wenhui, Tang Shuheng, Che Yao. A Comprehensive Model for Evaluating Coalbed Methane Reservoirs in China. Acta Geologica Sinica, 2008, 82(6): 1253-1270[SCI].
[18] Liu DM, Yao YB, Tang DZ, Tang SH, Che Y and Huang WH. Coal reservoir characteristics and coalbed methane resource assessment in Huainan and Huaibei coalfields, Southern North China. Int J of Coal Geol, 2009, 79(3): 97-112[SCI & EI].
[19] Yao YB, Liu DM, Tang DZ, Tang SH, Che Y, Huang WH. Preliminary evaluation of the coalbed methane production potential and its geological controls in the Weibei Coalfield, Southeastern Ordos Basin, China. Int J of Coal Geol, 2009,78:1-15[SCI & EI].
[20] Yao YB, Liu DM, Tang DZ, Tang SH, Che Y, Huang WH. Fractal characterization of seepage-pores of coals from China: an investigation on permeability of coals. Computer & Geosciences, 2009, 35: 1159-1166[SCI & EI].
[21] Yao YB, Liu DM, Che Y, Tang DZ, Tang SH, Huang WH. No-destructive characterization of coal samples from China using microfocus X-ray computed tomography. Int J of Coal Geol, 2009, 80(2): 113-123[SCI & EI].
[22] YAO Yanbin, LIU Dameng, TANG Dazhen, HUANG Wenhui, TANG Shuheng. Evaluation of the coalbed methane potential by a GIS-based Fuzzy AHP Model. 2009 Sixth International Conference on Fuzzy Systems and Knowledge Discovery, 2009 IEEE, 281-285[EI].
[23] Yao Yan-bin, Liu Da-meng. Microscopic characteristics of microfractures in coals: an investigation into permeability of coal. The 6th International Conference on Mining Science & Technology. Procedia Earth and Planetary Science, 2009, 1(1): 903–910[EI].
[24] Dong Xueling, Liu Dameng. Determination of Heterocyclic Amines in Atmospheric Particles by Reversed Phase High Performance Liquid Chromatography. CHINESE JOURNAL OF ANALYTICAL CHEMISTRY, 2009, 37(10): 1415-1420[SCI].
[25] Yao YB, Liu DM, Che Y et al. Petrophysical characterization of coals by low-field nuclear magnetic resonance (NMR). Fuel, 2010,89(7): 1371-1380[SCI&EI].
[26] Yanbin YAO, Dameng LIU, Yidong CAI et al. Advanced characterization of pores and fractures in coals by nuclear magnetic resonance and X-ray computed tomography. Science China Earth Sciences, 2010, 53(6): 854-862[SCI&EI].
[27] Cai Yidong, Guo Pengchao, Liu Dameng*, Chen Shiyu, Liu Junlai. Comparative study on CO2 corrosion behavior of N80, P110, X52 and 13Cr pipe lines in simulated stratum water. Science China Technological Sciences, 2010, 53(9): 2342-2349[SCI & EI].
[28] LI Junqian, LIU Dameng, YAO Yanbin, CAI Yidong. Preliminary Evaluation of the Coal-gas Outburst Hazard of No. 13 Coal Seam in Wangfenggang Mine, Huainan Coalfield. Progress in Safety Science and Technology 2010, Vol.VIII, 1632-1638 [ISTP].
[29] Li JQ, Liu DM*, Yao YB, Cai YD, Qiu YK. Evaluation of the reservoir permeability of anthracite coals by geophysical logging data. Int J Coal Geol., 2011, 87(2): 121-127[SCI & EI].
[30] YAO YB, LIU DM, Huang WH. Influences of igneous intrusions on coal rank, coal quality and adsorption capacity in Hongyang, Handan and Huaibei coalfields, North China. Int J Coal Geol., 2011, 88(2-3): 135-146 [SCI & EI]
[31] Liu Dameng, Liu Zhihua, Li Yunyong. Distribution and Occurrence of Polycyclic Aromatic hydrocarbons from Coal Combustion and Coking and its Impact on the Environment. Energy Procedia, 2011,5(1): 734–741[EI].
[32] Dong Xueling, Liu Dameng. Seasonal Variations of Particle–Associated Polycyclic Aromatic Hydrocarbons from Different Functional Zones of Beijing. Progress in Environmental Science and Technology, 2011, 467-474[ISTP].
[33] Cai YD, Liu DM*, Yao YB, Li JQ, Qiu YK. Geological controls on prediction of coalbed methane of No. 3 coal seam in Southern Qinshui Basin, North China. Int J Coal Geol, 2011, 88(2-3): 101-112[SCI & EI].
[34] Cai YD, Liu DM*, Yao YB, Li JQ, Qiu YK. Fractal Characteristics of Coal Pores Based on Classic Geometry and Thermodynamics Models. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 2011, 85(5): 1150-1162[SCI].
[35] Yang C, Kazemeini SH, Fan WF, Juhlin C, Liu DM. Amplitude Variation with Offset Responses Modeling Study of Walkaway Vertical Seismic Profile Data at CO2 Geological Storage Site, Ketzin, Germany. ACTA GEOLOGICA SINICA-ENGLISH EDITION, 2011, 85(5): 1118-1126[SCI].
[36] Chen W, Liu DM*, Dong L, Zhang KM. Sequence filling patterns and petroleum implications of Lower Cretaceous series in South Tamtsag Depression. ENERGY EXPLORATION & EXPLOITATION, 2012, 30(4): 589-608[SCI].
[37] Xu H, Tang DZ, Liu DM, Tang SH, Yang F, Chen XZ, He W, Deng CM. Study on coalbed methane accumulation characteristics and favorable areas in the Binchang area, southwestern Ordos Basin, China. Int J Coal Geol, 2012, 95:1-11[SCI&EI].
[38] Yao YB, Liu DM. Comparison of low-field NMR and mercury intrusion porosimetry in characterizing pore size distributions of coals. Fuel, 2012, 95:152-158[SCI&EI].
[39] Yao YB, Liu DM. Effects of igneous intrusions on coal petrology, pore-fracture and coalbed methane characteristics in Hongyang, Handan and Huaibei coalfields, North China. Int J Coal Geol, 2012, 96-97:72-81[SCI&EI].
[40] Cai YD, Liu DM*, Pan ZJ, Yao YB, Li JQ, Qiu YK. Pore structure and its impact on CH4 adsorption capacity and flow capability of bituminous and subbituminous coals from Northeast China. Fuel, 2013,103: 258-268[SCI&EI].
[41] Li JQ, Liu DM*, Yao YB, Cai YD, Chen Y. Evaluation and modeling of gas permeability changes in anthracite coals. Fuel, 2013, 111: 606-612[SCI&EI].
[42] Dong XL, Liu DM, Gao SP. Seasonal variations of atmospheric heterocyclic aromatic amines in Beijing, China. Atmospheric Research, 2013,120: 287-297[SCI&EI].
[43] Li JQ, Liu DM*, Yao YB, Cai YD and Guo XQ. Physical characterization of the pore-fracture system in coals, Northeastern China. ENERGY EXPLORATION & EXPLOITATION, 2013, 31(2): 267–285[SCI].
[44] Cai YD, Liu DM*, Pan ZJ, Yao YB, Li JQ, Qiu YK. Petrophysical characterization of Chinese coal cores with heat treatment by nuclear magnetic resonance. Fuel, 2013, 108: 292-302[SCI&EI].
[45] Zhao Q, Liu DM, Wang HY, Liu DX, Yang S, Hao MX, Dong L. Identification of the depth range of in situ shale oil production. Oil Shale, 2013, 30(1):19-26[SCI].
[46] Yao YB, Liu DM, Qiu YK. Variable gas content, saturation, and accumulation characteristics of Weibei coalbed methane pilot-production field in the southeastern Ordos Basin, China. AAPG BULLETIN, 2013, 97(8): 1371-1393[SCI&EI].
[47] Cai YD, Liu DM*, Mathews JP, Pan ZJ, Elsworth D, Yao YB, Li JQ, Guo XQ. Permeability evolution in fractured coal - Combining triaxial confinement with X-ray computed tomography, acoustic emission and ultrasonic techniques. Int J Coal Geol, 2014, 122: 91-104[SCI&EI].
[48] Li JQ, Liu DM*, Yao YB, Cai YD, Xu LL, Huang SP. Control of CO2 Permeability Change in Different Rank Coals during Pressure Depletion: An Experimental Study. Energy & Fuels, 2014, 28: 987-996[SCI&EI].
[49] Yao YB, Liu DM, Yan TT. Geological and hydrogeological controls on the accumulation of coalbed methane in the Weibei field, southeastern Ordos Basin. Int J Coal Geol, 2014, 121: 148-159[SCI&EI].
[50] Cai YD, Liu DM*, Yao YB, Li ZT, Pan ZJ. Partial coal pyrolysis and its implication to enhance coalbed methane recovery, Part I: An experimental investigation. Fuel, 2014, 132: 12-19[SCI&EI].
[51] Yao YB, Liu DM, Xie SB. Quantitative characterization of methane adsorption on coal using a low-field NMR relaxation method. Int J Coal Geol, 2014, 131: 32-40[SCI&EI].
[52] Guo XQ, Yao YB, Liu DM. Characteristics of coal matrix compressibility: An investigation by mercury intrusion porosimetry. Energy & Fuels, 2014, 28: 3673-3678[SCI&EI].
[53] CAI YiDong, LIU DaMeng*, PAN ZheJun, YAO YanBin, LI JunQian, QIU YongKai.Pore structure of selected Chinese coals with heating and pressurization treatments. SCIENCE CHINA Earth Sciences, 2014, 57(7): 1567-1582[SCI&EI].
[54] Cai, YD, Pan ZJ, Liu DM et al. Effects of pressure and temperature on gas diffusion and flow for primary and enhanced coalbed methane recovery. ENERGY EXPLORATION & EXPLOITATION, 2014, 32(4): 601-619[SCI].
[55] Cai YD, Liu DM*, Zhang KM, Elsworth D, Yao YB, Tang DZ. Preliminary evaluation of gas content of the No.2 coal seam in the Yanchuannan area, southeast Ordos basin, China. Journal of Petroleum Science and Engineering, 2014, 122: 675-689[SCI&EI].
[56] Qiu YK, Liu DM. Elsworth D. Geological factors on gas entrapment mechanism and prediction of coalbed methane of the no. 6 coal seam in the Jungar coalfield, northeast Ordos Basin, China. INTERNATIONAL JOURNAL OF OIL GAS AND COAL TECHNOLOGY, 2014, 8(4): 449-467 [SCI].
[57] Li JQ, Liu DM*, Lu SF, Yao YB and Xue HT. Evaluation and Modeling of the CO2 Permeability Variation by Coupling Effective Pore Size Evolution in Anthracite Coal. Energy & Fuels, 2015, 29: 717-723 [SCI&EI].
[58] Teng J, Yao YB, Liu DM, Cai YD. Evaluation of coal texture distributions in the southern Qinshui basin, North China: Investigation by a multiple geophysical logging method. Int J Coal Geol, 2015, 140: 9-22 [SCI&EI].
[59] Yan TT, Yao YB, Liu DM, Bai YD. Evaluation of the coal reservoir permeability using well logging data and its application in the Weibei coalbed methane field, southeast Ordos basin, China. Arab J Geosci, 2015, 8: 5449–5458 [SCI].
[60] Yao YB, Liu DM, Liu JG, Xie SB. Assessing the Water Migration and Permeability of Large Intact Bituminous and Anthracite Coals Using NMR Relaxation Spectrometry. TRANSPORT IN POROUS MEDIA, 2015, 107(2): 527-542 [SCI&EI].
[61] Chen YX, Liu DM*, Yao YB, Cai YD, Chen LW. Dynamic permeability change during coalbed methane production and its controlling factors. Journal of Natural Gas Science and Engineering, 2015, 25: 335-346 [SCI].
[62] Cai YD, Liu DM*, Pan ZJ, Yao YB, Li CC. Mineral occurrence and its impact on fracture generation in selected Qinshui Basin coals: An experimental perspective. Int. J of Coal Geol.,2015, 150-151: 35-50 [SCI&EI].
[63] Li ZT, Liu DM*, Cai YD, Yao YB, Wang H. Pore structure and compressibility of coal matrix with elevated temperatures by mercury intrusion porosimetry. Energy Exploration & Exploitation, 2015, 33(6): 809-826,[SCI&EI].
[64] Yan TT, Yao YB, Liu DM. Critical tectonic events and their geological controls on gas generation, migration, and accumulation in the Weibei coalbed methane field, southeast Ordos basin. Journal of Natural Gas Science and Engineering, 2015, 27: 1367-1380[SCI].
[65] Wang H, Yao YB, Liu DM, Pan ZJ, Yang YH, Cai YD. Fault-sealing capability and its impact on coalbed methane distribution in the Zhengzhuang field, southern Qinshui Basin, North China.Journal of Natural Gas Science and Engineering, 2016, 28: 613-625[SCI].
[66] Cai YD, Liu DM*, Pan ZJ, Che Y, Liu ZH. Investigating the Effects of Seepage-Pores and Fractures on Coal Permeability by Fractal Analysis. Transp Porous Med, 2016, 111:479–497[SCI&EI].
[67] Li CC, Liu DM*, Cai YD, Yao YB.Fracture permeability evaluation of a coal reservoir using geophysical logging: A case study in the Zhengzhuang area, southern Qinshui Basin. Energy Exploration & Exploitation, 2016, 34(3): 378-399 SCI].
[68] Sun XX, Yao YB, Liu DM, Elsworth D, Pan ZJ. Interactions and exchange of CO2 and H2O in coals: an investigation by low-field NMR relaxation. Scientific Reports 6, 2016,doi:10.1038/srep19919[SCI].
[69] Zhou SD, Liu DM*, Cai YD, Yao YB. Fractal characterization of pore–fracture in low-rank coals using a low-field NMR relaxation method. Fuel, 2016, 181: 218-226[SCI&EI].
[70] Li ZT, Liu DM*, Cai YD, Shi YL. Investigation of methane diffusion in low-rank coals by a multiporous diffusion model. Journal of Natural Gas Science and Engineering, 2016, 33:97-107[SCI].
[71] Zhou SD, Liu DM*, Cai YD, Yao YB. Gas sorption and flow capabilities of lignite, subbituminous and high volatile bituminous coals in the Southern Junggar Basin, NW China. Journal of Natural Gas Science and Engineering, 2016, 34:6-21[SCI].
[72] Ouyang ZQ, Liu DM*, Cai YD, Yao YB. Fractal Analysis on Heterogeneity of Pore–Fractures in Middle–High Rank Coals with NMR. Energy & Fuels, 2016,30: 5449-5458[SCI].
[73] Ouyang ZQ, Liu DM*, Cai YD, Yao YB. Investigating the Fractal Characteristics of Pore-Fractures in Bituminous Coals and Anthracites through Fluid Flow Behavior. Energy & Fuels, 2016,30: 10348-10357[SCI].
[74] Zhou SD, Tang JG, Liu DM*, Cai YD. Shale oil potential of the Upper Cretaceous in the Changling area, Southern Songliao Basin, NE China: perspectives of geochemistry and petrology. Int. J. Oil, Gas and Coal Technology, 2016, 13(3): 215-242[SCI].
[75]Cai YD, Liu DM*, Liu ZH, Zhou YF, Che Y. Evolution of pore structure, submaceral composition and produced gases of two Chinese coals during thermal treatment. Fuel Processing Technology, 2017,156: 298–309[SCI].
[76] Zhou SD, Liu DM*, Cai YD, Yao YB. Effects of the coalification jump on the petrophysical properties of lignite, subbituminous and high-volatile bituminous coals. Fuel, 2017, 199: 219–228[SCI].
[77] Zhou SD, Liu DM*, Cai YD, Yao YB, Li ZT. 3D characterization and quantitative evaluation of pore-fracture networks of two Chinese coals using FIB-SEM tomography. Int J Coal Geol, 2017, 174: 41-54[SCI&EI].
[78] Huang SP, Liu DM, Yao YB, Gan Q, Cai YD*, Xu LL. Natural fractures initiation and fracture type prediction in coal reservoir under different in-situ stresses during hydraulic fracturing. Journal of Natural Gas Science and Engineering, 2017, 43:69-80[SCI].
[79] Zhou SD, Liu DM*, Cai YD, Yao YB, Che Y, Liu ZH. Multi-scale fractal characterizations of lignite, subbituminous and high-volatile bituminous coals pores by mercury intrusion porosimetry. Journal of Natural Gas Science and Engineering, 2017, 44:338-350[SCI].
[80] Liu J, Yao YB, Liu DM, Elsworth D. Experimental evaluation of CO2 enhanced recovery of adsorbed-gas from shale. Int J Coal Geol, 2017, 179: 211-218[SCI&EI].
[81] Wang XQ, Qin HB, Ma QL, Sun ZF, Yan KL, Song ZY, Guo K, Liu DM, Chen GJ, and Sun CY. Hydrate Antiagglomeration Performance for the Active Components Extracted from a Terrestrial Plant Fruit. Energy & Fuels, 2017,31: 287-298[SCI].
[82] Cai YD, Liu DM, and Pan ZJ. Partial Coal Pyrolysis and Its Implication To Enhance Coalbed Methane Recovery: A Simulation Study. Energy & Fuels, 2017,31: 4895-4903[SCI].
[83] Liu J, Liu DM*, Cai YD, Gan Q, Yao YB. Effects of water saturation on P-wave propagation in fractured coals: An experimental perspective. J Applied Geophy, 2017, 144: 94-103[SCI].
[84] Yin TT, Liu DM*, Cai YD, Zhou YF, Yao YB. Size distribution and fractal characteristics of coal pores through nuclear magnetic resonance cryoporometry. Energy & Fuels, 2017, 31: 7746-7757[SCI].
[85] Li ZT, Liu DM*, Cai YD, Ranjith PG, Yao YB. Multi-scale quantitative characterization of 3-D pore-fracture networks in bituminous and anthracite coals using FIB-SEM tomography and X-ray μ-CT. Fuel, 2017, 209: 43–53[SCI&EI].
[86] Zhang JY, Liu DM*, Cai YD, Pan ZJ, Yao YB, Wang YJ. Geological and hydrological controls on the accumulation of coalbed methane within the No. 3 coal seam of the southern Qinshui Basin. Int J Coal Geol, 2017, 182: 94-111[SCI&EI].
[87] Liu J, Yao YB, Elsworth D, Liu DM, Cai YD and Dong L. Vertical Heterogeneity of the Shale Reservoir in the Lower Silurian Longmaxi Formation: Analogy between the Southeastern and Northeastern Sichuan Basin, SW China. Minerals, 2017, 7, 151; doi: 10.3390/min**[SCI].
[88] Liu J, Yao YB, Liu DM, Pan ZJ and Cai YD. Comparison of Three Key Marine Shale Reservoirs in the Southeastern Margin of the Sichuan Basin, SW China. Minerals 2017, 7, 179; doi: 10.3390/min**[SCI].
[89] Wang YJ, Liu DM*, Cai YD, Yao YB, Zhou YF. Evaluation of structured coal evolution and distribution by geophysical logging methods in the Gujiao Block, northwest Qinshui basin, China. Journal of Natural Gas Science and Engineering, 2018, 51: 210-222[SCI].
[90] Li ZT, Liu DM*, Ranjith PG, Cai YD, Wang YJ. Geological controls on variable gas concentrations: A case study of the northern Gujiao Block, northwestern Qinshui Basin, China. Marine and Petroleum Geology, 2018, 92: 582-596[SCI].
[91] Zou Z, Liu DM, Cai YD, Wang YJ, Li JP. Geological factors and reservoir properties affecting the gas content of coal seams in the Gujiao area, Northwest Qinshui Basin, China. Energies 2018, 11, 1044; doi:10.3390/en**[SCI].
[92] Liu J, Yao YB, Liu DM, Cai YD, Cai JC. Comparison of pore fractal characteristics between marine and continental shales. Fractals, 2018, Vol.26, No.2, **; DOI: 10.1142/S**X**[SCI].
[93] Sun XX, Yao YB, Liu DM, Zhou YF. Investigations of CO2-water wettability of coal: NMR relaxation method. Int J Coal Geol, 2018, 188: 38-50 [SCI&EI].
[94] Liu Y, Yao YB, Liu DM, Zheng SJ, Sun GX, Chang YH. Shale pore size classification: An NMR fluid typing method. Marine and Petroleum Geology, 2018, 96: 591-601[SCI&EI].
[95] Liu J, Yao YB, Liu DM, Xu LL, Elsworth D, Huang SP, Luo WJ. Experimental simulation of the hydraulic fracture propagation in an anthracite coal reservoir in the southern Qinshui basin, China. Journal of Petroleum Science and Engineering, 2018, 168: 400–408[SCI&EI].
[96] Sun XX, Yao YB, Ripepi N, Liu DM. A Novel Method for Gas–Water Relative Permeability Measurement of Coal Using NMR Relaxation. Transp Porous Med, 2018, https://doi.org/10.1007/s11242-018-1053-y[SCI&EI].
[97] Fang XL, Cai YD, Liu DM, Zhou YF. A mercury intrusion porosimetry method for methane diffusivity and permeability evaluation in coals: A comparative analysis. Appl. Sci. 2018, 8(6), 860; https://doi.org/10.3390/app**[SCI].
[98] Zhou SD, Liu DM*, Cai YD, Karpyn Z, Yao YB. Petrographic controls on pore and fissure characteristics of coals from the Southern Junggar Coalfield, Northwest China. Energies 2018, 11, 1556; doi:10.3390/en**[SCI].
[99] Zhou SD, Liu DM*, Cai YD, Karpyn Z, Yao YB. Comparative analysis of nanopore structure and its effect on methane adsorption capacity of Southern Junggar coalfield coals by gas adsorption and FIB-SEM tomography. Microporous and Mesoporous Materials, 2018, 272: 117–128[SCI].
[100] Ge X, Liu DM, Cai YD and Wang YJ. Gas Content Evaluation of Coalbed Methane Reservoir in the Fukang Area of Southern Junggar Basin, Northwest China by Multiple Geophysical Logging Methods. Energies 2018, 11, 1867; doi:10.3390/en**[SCI].
[101] Zheng SJ, Yao YB, Liu DM, Cai YD, Liu Y. Characterizations of full-scale pore size distribution, porosity and permeability of coals: A novel methodology by nuclear magnetic resonance and fractal analysis theory. Int J Coal Geol, 2018, 196: 148-158 [SCI&EI].
[102] Liu XB, Fu XF, Liu DM*, Wei W, Lu XS, Liu CB, Wang WA, Gao HJ. Distribution of mantle-derived CO2 gas reservoir and its relationship with basement faults in Songliao Basin, China. Journal of Natural Gas Science and Engineering, 2018, 56: 593–607[SCI].
[103] Liu ZS, Liu DM, Cai YD, Pan ZJ. The impacts of flow velocity on permeability and porosity of coals by core flooding and nuclear magnetic resonance: Implications for coalbed methane production. Journal of Petroleum Science and Engineering, 2018, 171: 938-950[SCI&EI].
[104] Zhang JY, Liu DM*, Cai YD, Yao YB, Ge X. Carbon isotopic characteristics of CH4 and its significance to the gas performance of coal reservoirs in the Zhengzhuang area, Southern Qinshui Basin, North China. Journal of Natural Gas Science and Engineering, 2018, 58: 135-151[SCI].
[105] Chen Y, Liu DM, Cai YD, Gan Q. Insights into fractal characteristics of pores in different rank coals by nuclear magnetic resonance (NMR). Arabian Journal of Geosciences, 2018, 11:578-589[SCI].
[106]Zhou SD, Liu DM, Karpyn ZT, Cai YD, Yao YB. Effect of coalification jumps on petrophysical properties of various metamorphic coals from different coalfields in China. Journal of Natural Gas Science and Engineering, 2018, 60: 63-76[SCI].
[107] Cui J, Liu DM, Cai YD, Pan ZJ, Zhou YF. Insights into fractures and minerals in subbituminous and bituminous coals by FESEM-EDS and X-ray μ-CT. Fuel, 2019, 237: 977-988[SCI&EI].
[108] Huang SP, Liu DM, Cai YD, Gan Q. In situ stress distribution and its impact on CBM reservoir properties in the Zhengzhuang area, southern Qinshui Basin, North China. Journal of Natural Gas Science and Engineering, 2019, 61: 83-96[SCI].
[109] Cai YD, Li Q, Liu DM, Zhou YF, Lv DW. Insights into matrix compressibility of coals by mercury intrusion porosimetry and N2 adsorption. Int J Coal Geol, 2018, 200: 199-212 [SCI&EI].
[110] Yao YB, Liu J, Liu DM, Chen JY, Pan ZJ. A new application of NMR in characterization of multiphase methane and adsorption capacity of shale. Int J Coal Geol, 2019, 201: 76-85 [SCI&EI].
[111] Zheng SJ, Yao YB, Liu DM, Cai YD, Liu Y, Li XW. Nuclear magnetic resonance T2 cutoffs of coals: A novel method by multifractal analysis theory. Fuel, 2019, 241: 715-724 [SCI&EI].
[112] Yin TT, Liu DM, Cai YD, Zhou YF. Methane adsorption constrained by pore structure in high-rank coals using FESEM, CO2 adsorption, and NMRC techniques. Energy Sci Eng. 2019; 00:1-17. https://doi.org/10.1002/ese3.275 [SCI].
[113] Zheng SJ, Yao YB, Liu DM, Cai YD, Liu Y.Nuclear magnetic resonance surface relaxivity of coals.Int J Coal Geol, 2019, 205: 1-13 [SCI&EI].
[114] Wang YJ, Liu DM*, Cai YD, Li XW. Variation of Petrophysical Properties and Adsorption Capacity in Different Rank Coals: An Experimental Study of Coals from the Junggar, Ordos and Qinshui Basins in China. Energies 2019, 12, 986; doi:10.3390/en** [SCI].
[115] Yuan XH, Yao YB, Liu DM, Pan ZJ. Spontaneous imbibition in coal: Experimental and model analysis.Journal of Natural Gas Science and Engineering, 2019, 67: 108-121 [SCI].
[116] Li ZT, Liu DM*, Cai YD, Wang YP, Teng J. Adsorption pore structure and its fractal characteristics of coals by N2 adsorption/desorption and FESEM image analyses. Fuel, 2019, 257, https://doi.org/10.1016/j.fuel.2019.116031 [SCI].
[117] Li ZT, Liu DM*, Cai YD, Wang YP, Si GY. Evaluation of coal petrophysics incorporating fractal characteristics by mercury intrusion porosimetry and low-field NMR. Fuel, 2020, https://doi.org/10.1016/j.fuel.2019.116802 [SCI].
[118] Liu ZS, Liu DM, Cai YD, Yao YB, Pan ZJ, Zhou YF. Application of nuclear magnetic resonance (NMR) in coalbed methane and shale reservoirs: A review. Int J Coal Geol, 2020, 218, https://doi.org/10.1016/j.coal.2019.103261 [SCI].
[119] Yin TT, Liu DM*,Cai YD, Liu ZH, Gutierrez M. A new constructed macromolecule-pore structure of anthracite and its related gas adsorption: A molecular simulation study. Int J Coal Geol, 2020, 220, https://doi.org/10.1016/j.coal.2020.103415 [SCI].
[120] Lu YJ, Liu DM*, Cai YD, Li Q, Jia QF. Pore-Fractures of Coalbed Methane Reservoir Restricted by Coal Facies in Sangjiang-Muling Coal-Bearing Basins, Northeast China. Energies, 2020, 13(5), 1196; doi:10.3390/en** [SCI].
[121] Li ZT, Liu DM*, Cai YD, Si GY, Wang YP. Pore Structure and Compressibility Characteristics of Heat-Treated Coals by N2 Adsorption/Desorption and Mercury Intrusion Porosimetry. Energy Fuels, 2020, 34(3): 3173-3187 https://dx.doi.org/10.1021/acs.energyfuels.0c00135 [SCI].


* corresponding author


1. 动物碎屑化学组成与结构演化在光性变化研究中的意义. 国家自然科学基金项目(**). 负责人,1996--1998
2. 羌塘盆地源岩有机岩石学与有机地球化学特征. 中国石油天然气总公司“九五”攻关子课题. 负责人,1997--1999
3. 煤及燃烧产物中PAHs分布赋存特征及环境意义. 地矿部青年地质学家基金. 负责人,1999--2001
4. 燃煤环境中PAHs的分布赋存特征和环境评价. 教育部留学回国人员基金. 负责人,2000--2002
5. 西北地区煤层气资源综合评价. 中国地质调查局综合研究项目(003). 负责人,2000--2002
6. 临清坳陷东部烃源岩及其生排烃作用研究. 山东胜利油田分公司资助项目. 课题骨干,2001--2003
7. 华北晚古生代煤系形成大中型气田的地质地球化学条件. 国家“九五”科技攻关课题(96-110-01-02). 课题骨干,1996--1999
8. 粉煤灰综合性试验及可行性研究. 湖南资兴焦电公司资助课题. 负责人,2000--2001
9. 鄂尔多斯盆地古生界成藏地球化学研究. 中石油股份公司廊坊分院资助项目. 负责人,2002--2003
10. 北京市大气颗粒物PM2.5中多环芳烃的分布特征及来源判识. 北京市自然科学基金项目(**). 负责人,2003--2005
11. 煤储层非均质性区域分布规律及有利储层预测. 国家973计划专题. 负责人,2003--2007
12. 酒泉盆地中下侏罗统藻纹层形成机理与油气生成潜力. 中石油股份公司勘探开发研究院资助项目. 负责人,2004--2005
13. 红连-胜北地区上侏罗统喀拉扎组及白垩系层序地层研究. 中石油股份公司吐哈分公司资助项目. 负责人,2004--2005
14. 北京大气可吸入颗粒物中含氮杂环化合物分布赋存规律及来源判识. 国家自然科学基金项目(**). 负责人,2005--2007
15. 华北中高变质区煤层气资源综合评价. 中国地质调查局项目(4). 负责人,2002--2004
16. 多热源叠加变质作用对煤层气储层物性的控制机理研究. 国家自然科学基金项目(**). 负责人,2006--2008
17. 新元古代早期动物演化的分子生物学及硫同位素研究. 中国地质大学(北京)《地质过程与矿产资源》国家重点实验室开放基金资助项目(GPMR0534). 负责人,2006--2007
18. 鄂尔多斯盆地煤层气资源评价及靶区优选. 中国地质调查局项目. 负责人,2006--2008
19. 阜新煤田CO2置换煤层气实验研究. 辽河石油勘探局资助项目. 负责人,2006--2007
20. 沈阳南部煤田煤层气赋存规律研究. 辽河石油勘探局资助项目. 负责人,2006--2007
21. 三肇凹陷宋芳屯油田扶杨油层储层特征评价研究. 大庆油田有限责任公司资助项目. 负责人,2006--2007
22. 奈曼旗凹陷区域储层综合研究. 辽河石油勘探局资助项目. 负责人,2006--2007
23. 红连-园艺场中浅层骨架砂体沉积微相与储层预测. 吐哈石油分公司资助项目. 负责人,2007--2008
24. 大庆采油八厂地区滚动评价潜力研究及部署——升平油田. 大庆油田有限责任公司资助项目. 负责人,2007--2008
25. 大庆肇35区块葡萄花油层储层预测研究. 大庆油田有限责任公司资助项目. 负责人,2008--2009
26. 大庆庆深气田CO2腐蚀机理与防腐措施研究. 大庆油田有限责任公司资助项目. 负责人,2008--2009
27. 大庆朝阳沟油田朝59区块开发潜力研究. 大庆油田有限责任公司资助项目. 负责人,2008--2009
28. 辽河油田欢喜岭锦612-欢16排304井区精细油藏描述及井位部署建议研究. 辽河石油分公司资助项目. 负责人,2008--2009
29. 深部煤炭资源综合地质评价理论与方法. 国家973课题(2006CB202202), 课题骨干,2006-2010
30. 高产煤层气储层的孔渗定量表征及动态预测. 中国石油科技创新基金(2008D-5006-01-04). 负责人,2008-2009
31. 沁南地区煤储层精细描述与预测. 中石油勘探开发研究院廊坊分院资助项目. 负责人,2008-2009
32. 煤层气储层精细描述和评价. 国家大型油气田及煤层气开发科技重大专项课题(2008ZX05034-01). 负责人,2008-2020
33. 煤层气开发储层动态地质效应. 国家973课题(2009CB219604). 负责人,2009-2013
34. 新区开发布井方案规范研究. 大庆油田有限责任公司资助项目. 负责人,2009--2010
35. 塔19-3、19-19、19-34区块精细油藏描述及初期开发效果评价. 大庆油田有限责任公司资助项目. 负责人,2009--2010
36. 榆东地区树25-尚2区块石油富集规律研究. 大庆油田有限责任公司资助项目. 负责人,2009--2010
37. 柳林地区煤层气富集高产区预测研究. 国家大型油气田及煤层气开发科技重大专项示范工程(2008ZX05062-001). 负责人,2008-2010
38. 韩城示范区及周边煤层气富集规律与有利区预测研究. 国家大型油气田及煤层气开发科技重大专项示范工程(2008ZX05062). 负责人,2008-2010
39. 高产煤层气储层物性精细定量表征与动态预测. 国家自然科学基金项目(**). 负责人,2010-2012
40. 西北地区典型盆地煤层气成藏条件及有利区块评价. 中石化华东石油局资助项目. 课题骨干,2010-2011
41. 三江-穆棱河含煤区煤层气勘探目标评价. 中石油勘探开发研究院廊坊分院资助项目. 负责人,2010-2011
42. 阿南洼槽阿尔善-腾一段层序地层及沉积相研究. 中石油华北油田分公司资助项目. 负责人,2010-2011
43. 中高煤级煤储层孔裂隙演化及对渗透性的控制机理研究. 中国石油科技创新基金研究项目(2010D-5006-0101). 负责人,2010-2011
44. 锦607块综合地质研究. 中石油辽河油田分公司资助项目. 负责人,2010-2011
45. 朝长地区葡萄花油层成藏规律及有利区优选. 大庆油田有限责任公司资助项目. 负责人,2011--2012
46. 升22区块油藏描述及扩边潜力评价. 大庆油田有限责任公司资助项目. 负责人,2011--2012
47. 煤储层特性区块尺度精细描述技术. 国家大型油气田及煤层气开发科技重大专项课题(2011ZX05034-001). 负责人,2011-2015
48. 渭北示范区及周边煤层气有利开发区块优选. 国家大型油气田及煤层气开发科技重大专项示范工程(2011ZX05062-001). 负责人,2011-2015
49. 低煤级煤层气储层孔裂隙非均质性及对甲烷吸附/渗流的控制机理. 国家自然科学基金项目-中石油石油化工联合基金(U**). 负责人,2013-2015
50. 增产入井液与煤岩的性能测试及技术服务. 中石油华北油田分公司资助项目. 负责人,2013-2014
51. 高阶煤煤层气吸附、解吸、渗流机理及影响因素研究. 中石油华北油田分公司资助项目. 负责人,2013-2014
52. 杏南周边地区葡萄花油层井震结合砂体预测技术研究. 大庆油田有限责任公司资助项目. 负责人,2013--2014
53. 沁南地区煤储层物性平面分布特征及开发中的动态变化规律. 中石油华北油田分公司资助项目. 负责人,2014-2016
54. 山西省不同构造单元煤层气储层特征及定量描述. 山西省煤基重点科技攻关项目(MQ2014-01)课题. 负责人,2015-2017
55. 煤储层微纳米尺度孔隙中流体传输机制研究. 国家自然科学基金项目(**). 负责人,2018-2021
56. 煤层气储层流体微观动力学机理研究.国家自然科学基金重点项目(**). 负责人,2019-2023












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2. 中国煤变质作用. 杨起、吴冲龙、汤达祯、康西栋、刘大锰、潘治贵、陈基娘、周春光. 地质矿产部科技进步一等奖,1997
3. 北京优秀青年地质论文二等奖. 刘大锰· 北京地质学会,1997
4. 有机岩石学研究——以塔里木为例. 金奎励、刘大锰、涂建琪、方家虎、韩光照、王凌志. 教育部科技进步二等奖,1999
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6. 优秀共产党员. 刘大锰. 中国地质大学(北京),2001
7. “211工程”一期建设集体贡献三等奖. 中国地质大学(北京),2001
8. 教学优秀二等奖. 刘大锰. 中国地质大学(北京),2003
9. 抗非典先进个人. 刘大锰. 中国地质大学(北京),2003
10. 优秀工会干部. 刘大锰. 中国地质大学(北京),2004
11. 优秀共产党员. 刘大锰. 中国地质大学(北京),2005
12. 优秀工会干部. 刘大锰. 中国地质大学(北京),2006
13. 优秀共产党员. 刘大锰. 中国地质大学(北京),2007
14. 地矿行业工程硕士培养机制研究与实践. 邓 军、张寿庭、刘大锰、段红梅、杜杨松. 中国地质大学(北京)高等教育教学成果一等奖,2008
15. 《环境地质学》双语教学改革与探索. 黄文辉、刘大锰、唐书恒、汤达祯、肖建新. 中国地质大学(北京)高等教育教学成果一等奖,2008
16. 北京市优秀博士论文指导教师. 刘大锰. 北京市教委,2010
17. 全国优秀博士论文指导教师. 刘大锰. 教育部,2011
18. 行业特色型大学创新型本科人才培养的探索与实践. 王果胜、刘大锰、李杰、白浩、肖万. 中国地质大学(北京)高等教育教学成果一等奖,2012
19. 行业特色型大学创新型本科人才培养的探索与实践. 王果胜、刘大锰、李杰、白浩、肖万. 北京市高等教育教学成果二等奖,2013
20. 首届研究生指导名师. 刘大锰. 中国地质大学(北京),2014
21. 兵团优秀援疆干部并荣记二等功. 刘大锰. 新疆生产建设兵团,2014
22. 煤层气储层开发地质动态评价关键技术与探测装备.中国煤炭工业科学技术一等奖,2016-103-R03,中国煤炭工业协会,2016.
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24. 行业特色型大学本科人才培养能力的建设与实践. 王果胜、刘大锰、邓雁希、肖万、张建增.中国地质大学(北京)高等教育教学成果特等奖,2017
25. 行业特色型大学本科人才培养能力的建设与实践. 王果胜、刘大锰、邓雁希、肖万、张建增.北京市高等教育教学成果一等奖,2018
26. 中-高煤阶煤层气储层地质与开发一体化理论与关键技术. 刘大锰、姚艳斌、蔡益栋、常锁亮、王 勃、聂志宏、陈 强、毛得雷. 国土资源科学技术奖一等奖,2019




[1] 蔡益栋,刘大锰,姚艳斌. 煤页岩中封闭孔隙度的测量方法. 发明专利,2015年7月授权,专利号:ZL3.1
[2] 蔡益栋,刘大锰,姚艳斌. 一种多粒径筛选装置. 新型实用专利,2013年4月授权,专利号:ZL7.6
[3] 姚艳斌,刘俊刚,刘大锰,等. 一种测量煤芯孔隙度的方法. 发明专利,专利号:ZL5.3


主讲课程

研究生:曾主讲《煤与有机岩石学》、《有机岩石学》、《煤层气地质学》

现主讲《表面分析技术及应用》、《能源开发与环境研究新进展》(博士生)

本科生:《油田化学》

招生专业:1、矿产普查与勘探(博、硕):研究方向(1)非常规油气地质理论与评价:(2)煤与煤层气地质。

2、资源与环境(专硕):研究方向:化石能源勘查与评价。



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