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地质系
桑树勋
个人简介

    桑树勋,男,196711月生,河北滦南人,博士,教授(二级),博士生导师。主要研究方向为:碳中和地质技术(CO2地质封存、煤层甲烷减排、生态地质及矿区降污减碳协同控制)、煤系非常规天然气勘探开发(煤层气、煤系气、页岩气勘探与开发)、煤系战略性矿产与沉积地质。

   主要研究成果

   1.科研项目

   负责主持科研项目85项,其中国家级项目13项。代表性项目如下:

(1)中国工程院、中国工程科技宁夏研究院,中国工程院院地合作重大咨询研究项目(2021NXZD3),《宁夏碳达峰碳中和与可持续发展战略研究》,2021.6-2022.12184.81万元,项目联系人(执行负责人),正在进行

(2)国家自然科学基金委员会,自然科学基金重点项目(42030810),《煤系气高效勘探开发的岩石力学地层理论方法体系研究》,2021.01-2025.12,300万元,负责,正在进行

(3)科技部,国家重点研发计划项目课题(2018YFB0605601,《不同煤阶煤质及地质条件对CO2驱煤层气的影响规律研究》,2018.05-2021.04,205万元,负责,正在进行

(4)国家自然科学基金委员会,国家重大科研仪器研制项目(41727801), 《构造煤原位煤层气水平井洞穴卸压开发模拟试验系统》,2018.01-2022.12,948.3万元,负责,正在进行

(5)国家自然科学基金委员会,自然科学基金重点项目(41330638),《深部煤层CO2地质存储与CH4强化开采的有效性理论研究》,2014.01-2018.12,300万元,负责,已完成

(6)国家自然科学基金委员会,自然科学基金面上项目(41272154),《煤层气-煤型气叠合型气藏成藏机理与地质预测方法研究》,2013.01-2016.1282万元,负责,已完成

(7)科技部,国家高技术研究发展计划(863计划)(课题)项目,2007AA06Z2203F070964),《构造煤发育煤矿区卸压煤层气地面开发技术》,2007.12-2010.12130万元,负责,已完成

(8)教育部,科学技术研究重大项目(307014),《煤矿区地面直井原位-卸压煤层气一体化开发技术》,2007.1-2009.12100万元,负责,已完成

(9)国家发展和改革委员会,国土资源部,国家油气专项(XQ200403-03, 《华北东部石炭二叠系地层与沉积体系研究》, 2005.1-2006.12,159.44万元, 负责, 已完成

(10) 国家自然科学基金委员会,自然科学基金项目(40372069),《垃圾生物气资源化的地质处置与模拟成藏理论研究》,2004.1-2006.1230万元,负责,已完成

(11) 国家科技部,国家重点基础研究发展规划项目(2002CB211703),《煤层的吸附特征及储气机理》,2002.12-2007.8232万元,负责(2),已完成

(12) 国家自然科学基金委员会,自然科学基金青年项目(49902010),《碳酸盐岩地层中有害元素及生态效应-以徐州地区为例》,2000.1- 2002.1215万元,负责,已完成

(13) 国家发展和改革委员会,国土资源部,国家油气专项(ZP-M-04, 《重点矿区煤层气资源评价》, 2004.1-2005.12, 100万元,,负责(2, 已完成

   2. 著作

  出版学术专著12部,代表性著作如下:

(1)方辉煌 桑树勋 刘世奇 张守仁, 沁水盆地无烟煤储层CO2-ECBM流体连续性过程数值模拟. 武汉:中国地质大学出版社,2021

(2)桑树勋 刘世奇 王文峰等. 深部煤层CO2地质存储与煤层气强化开发有效性理论及评价. 北京:科学出版社,2020

(3)张群,桑树勋. 煤层吸附特征及储气机理. 北京:科学出版社,2013

(4)桑树勋,秦勇,傅雪海,范炳恒,姜波,朱炎铭. 陆相盆地煤层气地质-以准噶尔、吐哈盆地为例. 徐州: 中国矿业大学出版社, 2001

(5)刘焕杰,桑树勋,施健. 成煤环境的比较沉积学研究-海南岛红树林潮坪与红树林泥炭. 徐州: 中国矿业大学出版社, 1997

  3. 论文

 发表学术论文328篇,其中SCI检索论文92篇。第一作者和通讯作者SCI检索论文64篇,列表如下:

(1)Tian Wang, Shuxun Sang*, Shiqi Liu, Yi Du & Huihuang Fang. Study on the evolution of the chemical structure characteristics of high rank coals by simulating the ScCO2-H2O reaction. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 202143(2): 235-251, DOI: 10.1080

(2)Qinghe Niu, Liwen Cao, Shuxun Sang*, Wei Wang*, Xiaozhi Zhou, Wei Yuan, Zhongmin Ji, Jiangfang Chang, Mengyang Li, Experimental study on the softening effect and mechanism of anthracite with CO2 injection. International Journal of Rock Mechanics & Mining Sciences, 2021138 :104614

(3)Xiaozhi Zhou, Shuxun Sang,* Qinghe Niu,* Kun Zhang, Fayi Liu, Wei Wang, Jiangfang Chang, Changes of Multiscale Surface Morphology and Pore Structure of Mudstone Associated with Supercritical CO2‑Water Exposure at Difffferent Times, Energy Fuels 2021, 35, 42124223

(4)Yong Shu, Shu-Xun Sang* , Yu-Xiang Lin, Xiao-Zhi Zhou, He Wang, Zi-Liang Wang, The influence of magmatic-hydrothermal activities on porosity and permeability of sandstone reservoirs in the Linxing area, Ordos Basin, Northern China. Journal of Asian Earth Sciences, 2021, 213: 104741

(5)Kun Zhang1 , Shuxun Sang*,1 , Xiaozhi Zhou, Changjiang Liu, Mengya Ma, Qinghe Niu, Influence of supercritical CO2-H2O-caprock interactions on the sealing capability of deep coal seam caprocks related to CO2 geological storage: A case study of the silty mudstone caprock of coal seam no. 3 in the Qinshui Basin, China. International Journal of Greenhouse Gas Control, 2021, 106:103282

(6)Shiqi Liu, Huihuang Fang, Shuxun Sang*, Tripathy Ashutosh, Jianguang Wu, Shouren Zhang, Bing Zhang. CO2 injectability and CH4 recovery of the engineering test in Qinshui Basin, China based on numerical simulation. International Journal of Greenhouse Gas Control, 2020, 95: 102980.

(7)Shiqi Liu, Shuxun Sang*, Qiujia Hu, Huihuang Fang, Characteristics of highrank coal structure parallel and perpendicular to the bedding plane via NMR and Xray CT. Petroleum Science, 2020, 17:925-938.

(8)Huihuang Fang, Shuxun Sang*, Shiqi Liu, Threedimensional spatial structure of the macropores and flow simulation in anthracite coal based on Xray μCT scanning data. Petroleum Science, 2020, 17:1221-1236.

(9)Qinghe Nie, Liwen Cao*, Shuxun Sang*, Xiaozhi Zhou, Wei Wang, Wei Yuan, Zhongmin Ji, Haichao Wang, Yan Nie, Study on the anisotropic permeability in different rank coals under influences of supercritical CO2 adsorption and effective stress and its enlightenment for CO2 enhance coalbed methane recovery. Fuel, 2020, 262: ID116515.

(10) Hongjie Xu*, Zezhong Fang, Shuxun Sang*, Huihu Liu, Hai Ding, Xinzhao Dou, Qinjie Liu, Analysis of the shaer failure of surface methane capture boreholes for improving the drainage period efficiency:A lithological perspective. Energy Exploration & Exploitation, 2020,38(1): 92-110.

(11) Yong Shu, Shuxun Sang*, Yuxiang Lin, Huiming Zheng, Natural Gas Accumulation Characteristics in the Linxing Area, Ordos Basin, NW China: Revealed from the Integrated Study of Fluid Inclusions and Basin Modeling. Geofluids, 2020, ID 8695497.

(12) Yi Du, Changqing Fu*, Zhejun Pan, Shuxun Sang*, Wenfeng Wang, Shiqi Liu, Yongchun Zhao, Junying Zhang*, Geochemistry effects of supercritical CO2 and H2O on the mesopore and macropore structures of high-rank coal from the Qinshui Basin, China. International Journal of Coal Geology, 2020, 223,103467.

(13) Shiqi Liu1Shuxun Sang1, *Jingsheng MaTian WangYi DuHuihuang FangEffects of supercritical CO2 on micropores in bituminous and anthracite coalFuel2019242: 96-108.

(14) Huihuang Fang1Shuxun Sang1, *Shiqi LiuShupei LiuExperimental simulation of replacing and displacing CH4 by injecting supercritical CO2 and its geological signicanceInternational Journal of Greenhouse Gas Control201981: 115-125.

(15) Kun Zhang1Shuxun Sang1*Changjiang LiuMengya MaXiaozhi ZhouExperimental study the influences of geochemical reaction on coal structure during the CO2 geological storage in deep coal seamJournal of Petroleum Science and Engineering2019178:1006-1017.

(16) Sijie Han1Shuxun Sang1*Jingjing LiangJinchao ZhangSupercritical CO2 adsorption in a simulated deep coal reservoir environment, implications for geological storage of CO2 in deep coals in the southern Qinshui Basin, ChinaEnergy Science & Engineering20197(2): 488-503.

(17) Huihuang Fang1,Shuxun Sang1*, Shiqi Liu, Establishment of dynamic permeability model of coal reservoir and its numerical simulation during the CO2-ECBM process, Journal of Petroleum Science and Engineering2019179:885-898.

(18) Sijie Han1, Shuxun Sang*, Jingjing Liang, Wenfeng Wang, Guanlong Zhang, Shengzhu Wang. Geochemistry, Petrology, and U-Pb dating of high-K volcanic rocks in wells WC-1 and Y-2 from the northern Junggar Basin, northwestern China: Implications for the closure of the Keramaili oceanic basin during the Carboniferous, Geological Journal, 2019, 54(6):3921-3939

(19) Huihuang FangShuxun Sang*Shiqi LiuCoupling mechanism of the thermal-hydraulic-mechanical fields in CH4-bearing coal and its application of CO2-enhanced coalbed methane recoveryJournal of Petroleum Science and Engineering2019181: 106177.

(20) Huihuang FangShuxun Sang*Shiqi LiuNumerical simulation of enhancing coalbed methane recovery by injecting CO2 with heat injectionPetroleum Science201916(1): 32-43.

(21) Hongjie XuShuxun Sang*Jingfen YangJun JinHuihu LiuXiaozhi ZhouWei GaoEvaluation of coal and shale reservoir in Permian coal-bearing strata for development potential: A case study from Well LC-1# in the northern Guizhou, ChinaEnergy Exploration & Exploitation201937(1): 194-218.

(22) Yi DuShuxun Sang*Zhejun PanWenfeng WangShiqi LiuChangqing FuYongchun ZhaoJunying ZhangExperimental study of supercritical CO2-H2O-coal interactions and the effect on coal permeabilityFuel2019, 253:369-382

(23) Huihuang Fang, Shuxun Sang*, Shiqi Liu, Yi Du, Methodology of three-dimensional visualization and quantitative characterization of nanopores in coal by using FIB-SEM and its application with anthracite in Qinshui basin, Journal of Petroleum Science and Engineering, 2019, 182:106283.

(24) Hongjie Xu,Zezhong Fang, Shuxun Sang*, Huihu Liu, Hai Ding,Xinzhao Dou, Liu Qinjie, Analysis of the shear failure of surface methane capture boreholes for improving the drainage period efficiency: A lithological perspective, Energy Exploration & Exploitation2019, DOI: 10.1177/0144598719884671.

(25) Huihu Liu, Shuxun Sang*, Shimin Liu, Haiyan Wu, Tianhe Lan, Hongjie Xu, Bo Ren, Supercritical-CO2 Adsorption Quantification and Modeling for a Deep Coalbed Methane Reservoir in the Southern Qinshui Basin, China, ACS OMEGA, 20194(7):11685-11700.

(26) Sijie Han, Shuxun Sang*, Jinging Liang, Wenfeng Wang, Guanlong Zhang, Shengzhu Wang, Characteristics and genesis of diachronous Carboniferous volcano-sedimentary sequences: insights from geochemistry, petrology and U-Pb dating in the North Junggar basin, China, International Geology Review, 2019, 61(4):404-423

(27) Sijie Han, Shuxun Sang*, Peiming Zhou, Jingjing Liang, Geological characteristics of the Carboniferous-Permian coal-measures superimposed reservoir and its favourable zones in the Jiyang Sub-basin, Himalayan Geology, 2019, 40(1):1-15

(28) Shiqi LiuJingsheng MaShuxun Sang*Tian WangYi DuHuihuang FangThe effects of supercritical CO2 on mesopore and macropore structure in bituminous and anthracite coalFuel2018223: 32-43.

(29) Shiqi LiuShuxun Sang*Tian WangYi DuJinlong JiaHuihuang FangThe effects of CO2 on organic groups in bituminous coal and high-rank coal via Fourier Transform Infrared SpectroscopyEnergy Exploration & Exploitation201836(6): 1566-1592.

(30) Jinlong JiaShuxun Sang*Liwen CaoShiqi LiuCharacteristics of CO2/supercritical CO2 adsorption-induced swelling to anthracite: An experimental studyFuel2018216638-647.

(31) Yi DuShuxun Sang*Wenfeng WangShiqi LiuTian WangDissolution of illite in supercritical CO2-saturated water: Implications for clayey caprock stability in CO2 geological storageJournal of Chemical Engineering of Japan201851(1): 116-122.

(32) Yi DuShuxun Sang*Wenfeng WangShiqi LiuTian WangHuihuang FangExperimental study of the reactions of supercritical CO2 and minerals in high-rank coal under formation conditions. Energy & Fuels201832(2): 1115-1125.

(33) Qinghe NiuLiwen Cao*Shuxun Sang*Xiaozhi ZhouZhenzhi WangAnisotropic adsorption swelling and permeability characteristics with injecting CO2 in coalEnergy & Fuels201832(2): 1979-1991.

(34) Huihuang FangShuxun Sang*Jilin WangWei JuPore characteristics and its significance on shale gas reservoir: a case study of the Longmaxi shale in the Nanchuan region, Chongqing, South ChinaInternational Journal of Oil, Gas and Coal Technology201818(3/4): 512-536.

(35) Huihu LiuShuxun Sang*Junhua XueTianhe LanHongjie XuBo RenShiqi LiuEvolution and geochemical characteristics of gas phase fluid and its response to inter-well interference during multi-well drainage of coalbed methaneJournal of Petroleum Science and Engineering2018162: 491-501.

(36) Huihu LiuShuxun Sang*Junhua XueTianhe LanHongje XuBo RenQiao ChengExperimental study on the velocity sensitivity of coal reservoir during coalbed drainage in southern Qinshui BasinEnergy Exploration & Exploitation201836(6): 1593-1608.

(37) Huihuang FangShuxun Sang*Jilin WangShiqi LiuWei JuSimulation of paleotectonic stress fields and distribution prediction of tectonic fractures at the Hudi coal mine, Qinshui basinACTA GEOLOGICA SINICA (English Edition)201791(6): 2007-2023.

(38) Qinghe NiuLiwen Cao*Shuxun Sang*Xiaozhi ZhouZhenzhi WangZhiyong WuThe adsorption-swelling and permeability characteristics of natural and reconstituted anthracite coalsEnergy2017141: 2206-2217.

(39) Shiqi LiuShuxun Sang*Geoff WangJingsheng MaXin WangWenfeng WangYi DuTian WangFIB-SEM and X-ray CT characterization of interconnected pores in high-rank coal formed from regional metamorphismJournal of Petroleum Science and Engineering2017148: 21-31.

(40) Jinlong JiaShuxun Sang*Liwen CaoSijie HanShiqi LiuXiaozhi ZhouCharacteristics of the superposed gas reservoirs of coal-bearing series and its pool-forming dynamic mechanism in Jiyang depression, Bohai Bay Basin, ChinaHimalayan Geology201738(2): 141-155.

(41) Sijie Han, Shuxun Sang*, Peiming Zhou, Jingjing Liang, The evolutionary history of methane adsorption capacity with reference to deep Carboniferous-Permian coal seams in the Jiyang Sub-basin: Combined implementation of basin modeling and adsorption isotherm experiments, Journal of Petroleum Science and Engineering, 2017, 158:634-646

(42) Huihu LiuShuxun Sang*Junhua XueGuoxiong WangHongje XuBo RenChangjiang LiuShiqi LiuCharacteristics of an in situ stress field and its control on coal fractures and permeability in the Gucheng block, southern Qinshui Basin, ChinaJournal of Natural Gas Science and Engineering201636: 1130-1139.

(43) Shiqi LiuShuxun Sang*Zhejun PanZhonglan TianHenglin YangQiujia HuGuangjie SangMaopo QiaoHuihu LiuJinlong JiaStudy of characteristics and formation stages of macroscopic natural fractures in coal seam #3 for CBM development in the east Qinnan block, Southern Quishui Basin, ChinaJournal of Natural Gas Science and Engineering201634: 1321-1332.

(44) Xianzheng ZhaoShiqi Liu*Shuxun Sang*Zhejun PanWenxiu ZhaoYanhui YangQiujia HuYanlei YangCharacteristics and generation mechanisms of coal fines in coalbed methane wells in the southern Qinshui Basin, ChinaJournal of Natural Gas Science and Engineering201634: 849-863.

(45) Tian WangShuxun Sang*Shiqi LiuYi DuOccurrence and genesis of minerals and their influences on pores and fractures in the high-rank coalsEnergy Exploration & Exploitation201634(6): 899-914.

(46) Hongjie XuShuxun Sang*Jingfen YangJun JinYoubiao HuHuihu LiuJianshuo LiXiaozhi ZhouBo RenSelection of suitable engineering modes for CBM development in zones with multiple coalbeds: A case study in western Guizhou Province, Southwest ChinaJournal of Natural Gas Science and Engineering201636: 1264-1275.

(47) Shiqi LiuShuxun Sang*Qipeng ZhuJiefang ZhangHefeng GaoHuihu LiuLixing LinTriple medium physical model of post fracturing high-rank coal reservoir in Southern Qinshui BasinJournal of Earth Sciences201526(3): 407-415.

(48) Shiqi LiuShuxun Sang*Huihu LiuQipeng ZhuGrowth characteristics and genetic types of pores and fractures in a high-rank coal reservoir of the southern Qinshui basinOre Geology Reviews201564: 140-151.

(49) Shiqi Liu, Shuxun Sang*, Qipeng Zhu, Jiefang Zhang, Hefeng Gao, Huihu Liu, Lixing Lin. Triple medium physical model of post fracturing high-rank coal reservoir in Southern Qinshui Basin. Journal of Earth Science, 2015, 26(03): 140-151.

(50) S.J.HAN, X.S.SANG*, W.F.WANG, Z.F.LI, W.LIU, K.H.ZHANG, G.L.ZHANG. Geochemical characteristics and tectonic setting of Lower Carboniferous volcanic rocks from Wunan-Ludong area, Junggar basin, China. Himalayan Geology, 2015,36(2):118-125.

(51) Shiqi LiuShuxun Sang*Qipeng ZhuHuihu LiuHefeng GaoStructure and production fluid flow pattern of post-fracturing high-rank coal reservoir in Southern Qinshui BasinJournal of Central South University201421(10): 3970-3982.

(52) Shiqi LiuShuxun Sang*Qipeng ZhuHuihu LiuResponse characteristics and mechanisms of dynamic fluid field for well interference of coal bed methane group wells in production blockEnergy Exploration & Exploitation201432(5): 771-790.

(53) Huihu LiuShuxunSang*Geoff G.X.WangMengxi LiHongjie XuShiqi LiuJunjun LiBo RenZhigen ZhaoYan XieBlock scale investigation on gas content of coalbed methane reservoirs in southern Qinshui basin with statistical model and visual mapJournal of Petroleum Science and Engineering2014114: 1-14.

(54) Mao Yingming, Sang Shuxun*, Liu Shiqi, Jia Jinlong. Spatial distribution of pH and organic matter in urban soils and its implications on site-specific land uses in Xuzhou, China. Comptes Rendus Biologies, 2014,337:332-337.

(55) Liu Huihu, Sang Shuxun*, Formolo Michael, Li Mengxi, Liu Shiqi, Xu Hongjie, An Shikai, Li Junjun, Wang Xingzhen. Production characteristics and drainage optimization of coalbed methane wells: A case study from low-permeability anthracite hosted reservoirs in southern Qinshui Basin, China. Energy for Sustainable Development, 2013, 17(12): 412-423.

(56) Huihu L, Shuxun S*, Hongjie X, Shiqi L. Variational Characteristics of Water Quality of Produced Formation Water in Coalbed Methane Production Area. Advanced Materials Research, 2013(726-731):1560-1565.

(57) Huihu Liu, Shuxun Sang*, Geoff G.X. Wang, Yangmin Li, Mengxi Li, Shiqi Liu. Evaluation of the synergetic gas-enrichment and higher-permeability regions for coalbed methane recovery with a fuzzy model. Energy, 2012, 39,426-439.

(58) Sang Shuxun*, Xu Hongjie, Fang Liangcai, Li Guojun, Huang Huazhou. Stress relief coalbed methane drainage by surface vertical wells in China. International Journal of Coal Geology. 2010, 82(3-4): 196-203.

(59) XU Hongjie, SANG Shuxun*, FANG Liangcai, HUANG Huazhou. Production characteristics and the control factors of surface wells for relieved methane drainage in Huainan mining area. Acta Geologica Sinica-English Edition, 2010, 85(4): 932-941.

(60) Hui-Hu Liu, Shu-Xun Sang. Study on the law of heavy metal leaching in municipal solid waste landfill. Environmental Monitoring and Assessment, 2010, 165(1-4): 349-363.

(61) SANG Shuxun*, CAO Liwen, SHI Jixiang, LI Encai, HONG Lei. Experimental Research on Geotechincal Properties of Compacted Clay Liner Influenced by Leachate[C]. Progress in Environment Science and Technology Vol., Science Press USA Inc. 2007, 1208-1211.

(62) Sang Shuxun*, Zhu Yanming, Zhang Jing, Zhang Xiaodong, Zhang Shiyin. Influence of liquid water on coalbed methane adsorption: An experimental research on coal reservoirs in the south of Qinshui Basin. China Science Bulletin, 2005, 50(B10):79-85.

(63) S X SANG*, Y Qin, Y M Zhu, J. Zhang. Coalbed methane storage and pooling of continental basins in northwestern China. In: Xie Heping(ed), Mining Science and Technology,2004, A.A. Balkema, Holland2004,279-282.

(64) 桑树勋*,郑永飞,张华,徐磊,范炳恒.徐州地区下古生界碳酸盐岩的碳、氧同位素研究.岩石学报,2004203):707-716.

   4. 其他

   已授权美国发明专利4项、澳大利亚发明专利4项(均为第一发明人),中国发明专利34项,其中第一发明人授权国家发明专利11项。代表性发明专利列表如下:

(1)Shuxun Sang; Shiqi Liu; Liwen Cao; Xiaozhi Zhou; Haiwen Wang; Huihu Liu; Zicheng Li; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Jinlong Jia; Shuyun Zhu; Method of extracting gas from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2020-11-10, U.S.A., US10830018 (B1).

(2)Shuxun Sang; Shiqi Liu; Liwen Cao; Xiaozhi Zhou; Haiwen Wang; Huihu Liu; Zicheng Li; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Jinlong Jia; Shuyun Zhu; System for extracting gas from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2021-03-02, U.S.A., US10934817 (B2).

(3)Shuxun Sang; Xiaozhi Zhou; Liwen Cao; Shiqi Liu; Haiwen Wang; Huihu Liu; Zicheng Li; Jinlong Jia; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Shuyun Zhu. Simulation test method for gas extraction from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2021-04-04, U.S.A., US10995572 (B2).

(4)Shuxun Sang; Haiwen Wang; Xiaozhi Zhou; Liwen Cao; Shiqi Liu; Huihu Liu; Zicheng Li; Jinlong Jia; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Shuyun Zhu. Simulation test system for gas extraction from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2021-06-15, U.S.A., US11035228 (B2).

(5)Shuxun Sang; Shiqi Liu; Liwen Cao; Xiaozhi Zhou; Haiwen Wang; Huihu Liu; Zicheng Li; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Jinlong Jia; Shuyun Zhu. Method of extracting gas from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2021-04-07, Australia, 2018421310.

(6)Shuxun Sang; Shiqi Liu; Liwen Cao; Xiaozhi Zhou; Haiwen Wang; Huihu Liu; Zicheng Li; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Jinlong Jia; Shuyun Zhu. System for extracting gas from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2021-04-07, Australia, 2018421311.

(7)Shuxun Sang; Haiwen Wang; Xiaozhi Zhou; Liwen Cao; Shiqi Liu; Huihu Liu; Zicheng Li; Jinlong Jia; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Shuyun Zhu. Simulation test system for gas extraction from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2021-04-01, Australia, 2018420473.

(8)Shuxun Sang; Xiaozhi Zhou; Liwen Cao; Shiqi Liu; Haiwen Wang; Huihu Liu; Zicheng Li; Jinlong Jia; Huazhou Huang; Changjiang Liu; Hongjie Xu; Ran Wang; Shuyun Zhu. Simulation test method for gas extraction from tectonically-deformed coal seam in-situ by depressurizing horizontal well cavity, 2021-03-19, Australia, 2018420472.

(9)桑树勋; 刘世奇; 曹丽文; 周效志; 王海文; 刘会虎; 李自成; 黄华州; 刘长江, 徐宏杰; 王冉; 贾金龙; 朱术云, 2020.08.04,一种构造煤原位煤层气水平井洞穴卸压开采方法,中国发明专利:ZL 201810404470.2

(10) 桑树勋; 刘世奇; 曹丽文; 周效志; 王海文;刘会虎;李自成;黄华州;刘长江;徐宏杰;王冉;贾金龙;朱术云. 2019.12.18, 一种构造煤原位煤层气水平井洞穴卸压开采系统,中国发明专利:ZL 201810404478.9

(11) 桑树勋;曹丽文;郭玉良;郝江涛;蔡念;丁远大;原俊红. 2019.07.02, 一种构造煤大口径成井双向往复式钻进三级扩孔钻具及钻孔方法.中国发明专利:ZL 2006 1 1332283.X

(12) 桑树勋,刘世奇,刘长江,赵刚强,贾金龙,王文峰,曹丽文,刘会虎,徐宏杰,周效志,黄华州,王冉. 2017.05.24,一种超临界CO2注入与煤层气强化驱替模拟试验装置.中国发明专利,ZL 201510131256.0

(13) 桑树勋,刘世奇,刘长江,赵刚强,贾金龙,王文峰,曹丽文,刘会虎,徐宏杰,周效志,黄华州,王冉. 2017.01.04,一种CO2注入与煤层气强化开采地球化学效应模拟试验装置.中国发明专利,ZL 201510036505.8

(14) 桑树勋,刘世奇,贾金龙,赵刚强,王文峰,曹丽文,刘会虎,徐宏杰,刘长江,周效志,黄华州,王冉. 2016.08.31,一种超临界CO2注入与煤层气强化驱替模拟试验方法.中国发明专利,ZL 201510130087.9

(15) 桑树勋,刘世奇,刘长江,赵刚强,贾金龙,王文峰,曹丽文,刘会虎,徐宏杰,周效志,黄华州,王冉. 一种CO2注入与煤层气强化开采地球化学效应模拟试验方法. 2016.06.08,中国发明专利,ZL 2015 1 0036895.9

(16) 桑树勋,曹丽文,周效志,程云环,刘长江,黄华州. 2009.03.11, 垃圾填埋气液收集疏排装置及其施工工艺. 中国发明专利:ZL 200610166464.5

(17) 桑树勋,周效志,曹丽文,程云环,张时音,刘会虎. 2009.08.12, 垃圾填埋场生物气与渗滤液一体化抽排系统.中国发明专利:ZL 200610166465.X

(18) 桑树勋,曹丽文,程云环,张 静,周效志. 2009.09.02, 城市生活垃圾地质填埋模拟实验方法及装置. 中国发明专利:ZL 200610040497.5

(19) 桑树勋,黄华州,曹丽文,周效志,徐宏杰,刘会虎. 2011.08.31, 煤的轴向加卸载气体渗透率测试装置. 中国发明专利:ZL 201010142331.0

  获奖及荣誉称号

  1. 获奖

  获得省部级及行业协会科技奖励共计10项,代表性奖励如下:

(1)2021.6,山西省科技进步奖,《煤层气排采关键参数监测方法创新及水平井无杆排采工艺规模化应用》,山西省人民政府,二等奖,2020-J-2-026,中国石油天然气股份有限公司山西煤层气勘探开发分公司,中国石油天然气股份有限公司华北油田分公司,中国矿业大学,中国石油大学(华东),新乡市夏烽电器有限公司,胡秋嘉,李梦溪,桑树勋,毛崇昊,张先敏,刘世奇,贾慧敏,樊彬,张庆,覃蒙扶

(2)2003.1,教育部自然科学奖,《高煤级煤物质结构演化及其地球化学机理》,教育部,一等奖,2002-023,中国矿业大学,中国石油大学(北京),秦勇,姜波,桑树勋,朱炎铭,范炳恒,傅雪海,宋党育,钟宁宁,张有生,韦重韬,金法礼,杨永国,李壮福,张井,李贵中

  2. 人才计划与荣誉

(1)江苏省“333高层次人才培养工程”首批中青年科学技术带头人,江苏省,2007

(2)江苏省“青蓝工程”高校中青年学术带头人,江苏省教育厅,2006

(3)教育部新世纪优秀人才支持计划入选者,教育部,2005

  3. 人才培养

(1)指导博士后5

(2)指导博士研究生34

(3)指导硕士研究生76

(4)讲授本科生课程12

岩石学、沉积环境分析、岩石学与矿床学、资源与环境地学基础、地质学基础、地球科学概论、地球化学、地球科学导论、煤层气地质学、煤层气抽采技术、煤矿地质学、新能源概论

  4. 学术兼职与社会服务

   2021.01-今 《中国煤炭地质》编委会,委员

   2019.01-今 《煤田地质与勘探》编委会,委员

   2019.01-今 《煤炭科学技术》编委会,委员

   2018.01-今 《沉积学报》编委会,委员

   2018.01-今 中国地质学会沉积专业委员会,委员

   2021.06-今 中国地质学会煤炭绿色勘查开发专业委员会,委员

   2021.01-今 中国煤炭工业技术委员会碳中和与资源综合利用专家委员会,委员

   2019.01-今 全国煤炭标准化技术委员会煤岩分会,副主任

   2018.01-今 江苏省低碳技术学会,副理事长

   2020.08-今 中国矿业大学低碳能源研究院院长

   中国矿业大学交叉学科分学术委员会主任

  联系方式

电子邮箱:shxsang@cumt.edu.cn

QQ1550747507

办公电话:051683995969



    • 本科招生:0516-83590960、0516-83590999
    • 研究生招生:0516-83591012
    • 就业工作:0516-83590980

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