桑樹勛(中國礦業大學教授)

桑樹勛(中國礦業大學教授)

本詞條是多義詞,共2個義項
更多義項 ▼ 收起列表 ▲

博士、教授(二級)、博士生導師,中國礦業大學碳中和研究院院長,江蘇省煤基溫室氣體減排與資源化利用重點實驗室黨委書記、主任。主要從事碳中和科學與工程(CCUS與碳中和地質技術)、非常規油氣勘探開發(煤層氣/煤系氣)、甲烷減排與資源化利用、煤系關鍵礦產與沉積地質、生態地質與環境地球化學等領域的教學科研工作。

基本介紹

  • 中文名:桑樹勛
  • 外文名:Shuxun SANG
  • 民族:漢族
  • 出生日期:1967年11月
  • 畢業院校:中國礦業大學
  • 出生地:河北唐山
  • 性別:男
教育背景,工作經歷,研究項目,學術論著,獲獎與專利,人才培養,學術兼職,所獲榮譽,

教育背景

1984.09-1988.07 中國礦業大學 煤田地質與勘探 工學學士
1988.09-1990.12 中國礦業大學 煤田、油氣地質與勘探 工學碩士
1991.02-1994.03 中國礦業大學 煤田、油氣地質與勘探 工學博士

工作經歷

1994.04-1997.12 中國礦業大學資源與環境學科學院 講師
1998.01-2002.12 中國礦業大學資源與地球科學學院 副教授
2003.01- 今 中國礦業大學資源與地球科學學院 教授
2003.07- 今 中國礦業大學資源與地球科學學院 博士生導師
2010.08-2011.03 美國The University of Tulsa 地質系 訪問學者
2015.01-今 中國礦業大學資源與地球科學學院 二級教授
2020.08-2021.12 中國礦業大學低碳能源研究院、江蘇省碳減排重點實驗室 二級教授
2022.01-今 中國礦業大學碳中和研究院、江蘇省碳減排重點實驗室 二級教授

研究項目

負責主持科研項目90餘項,其中國家級、省部級重要項目18項。代表性項目如下:
  1. 國家自然科學基金委員會,國家自然科學基金碳中和專項項目(42141012),《CO2地質封存潛力與能源資源協同理論方法體系及其套用基礎》,2022.01-2025.12,負責,正在進行
  2. 國家自然科學基金委員會,自然科學基金重點項目(42030810),《煤系氣高效勘探開發的岩石力學地層理論方法體系研究》,2021.01-2025.12,負責,正在進行
  3. 中國工程院、中國工程科技寧夏研究院,中國工程院院地合作重大諮詢研究項目(2021NXZD3),《寧夏碳達峰碳中和與可持續發展戰略研究》,2021.6-2022.12,項目聯繫人(執行負責人),已完成
  4. 科技部,國家重點研發計畫項目課題(2018YFB0605601),《不同煤階煤質及地質條件對CO2驅煤層氣的影響規律研究》,2018.05-2021.04, 負責,正在進行
  5. 國家自然科學基金委員會,國家重大科研儀器研製項目(41727801), 《構造煤原位煤層氣水平井洞穴卸壓開發模擬試驗系統》,2018.01-2022.12, 負責,正在進行
  6. 國家自然科學基金委員會,自然科學基金重點項目(41330638),《深部煤層CO2地質存儲與CH4強化開採的有效性理論研究》,2014.01-2018.12, 負責,已完成
  7. 國家自然科學基金委員會,自然科學基金面上項目(41272154),《煤層氣-煤型氣疊合型氣藏成藏機理與地質預測方法研究》,2013.01-2016.12, 負責,已完成
  8. 科技部,國家高技術研究發展計畫(863計畫)(課題)項目,2007AA06Z220(3F070964),《構造煤發育煤礦區卸壓煤層氣地面開發技術》,2007.12-2010.12, 負責,已完成
  9. 教育部,科學技術研究重大項目(307014),《煤礦區地面直井原位-卸壓煤層氣一體化開發技術》,2007.1-2009.12, 負責,已完成
  10. 國家發展和改革委員會,國土資源部,國家油氣專項(XQ200403-03), 《華北東部石炭二疊系地層與沉積體系研究》, 2005.1-2006.12, 負責, 已完成
  11. 國家自然科學基金委員會,自然科學基金項目(40372069),《垃圾生物氣資源化的地質處置與模擬成藏理論研究》,2004.1-2006.12, 負責,已完成
  12. 國家科技部,國家重點基礎研究發展規劃項目(2002CB211703),《煤層的吸附特徵及儲氣機理》,2002.12-2007.8,負責(2),已完成
  13. 國家自然科學基金委員會,自然科學基金青年項目(49902010),《碳酸鹽岩地層中有害元素及生態效應-以徐州地區為例》,2000.1- 2002.12,負責,已完成
  14. 國家發展和改革委員會,國土資源部,國家油氣專項(ZP-M-04), 《重點礦區煤層氣資源評價》, 2004.1-2005.12, 負責(2), 已完成

學術論著

出版學術專著11部(合著),代表性著作如下:
1. 桑樹勛等. 深部煤層CO2地質存儲與煤層氣強化開發有效性理論及評價. 北京:科學出版社,2020
2. 易同生,桑樹勛,金軍等. 貴州省煤層氣地面抽采關鍵技術與工程套用. 徐州:中國礦業大學出版社,2019
3. 張群,桑樹勛等. 煤層吸附特徵及儲氣機理. 北京:科學出版社,2013
4. 桑樹勛,秦勇,傅雪海,范炳恆,姜波,朱炎銘. 陸相盆地煤層氣地質-以準噶爾、吐哈盆地為例. 徐州: 中國礦業大學出版社, 2001
5. 劉煥傑,桑樹勛,施健. 成煤環境的比較沉積學研究-海南島紅樹林潮坪與紅樹林泥炭. 徐州: 中國礦業大學出版社, 1997
發表學術論文355篇,其中SCI檢索論文133篇。第一作者和通訊作者SCI檢索論文74篇,SCI論文(第一作者和通訊作者)和近5年代表性中文論文列表如下:
中文論文
1. 桑樹勛, 劉世奇, 韓思傑等. 中國煤炭甲烷管控與減排潛力. 煤田地質與勘探, 2023, 51(01): 159-175.
2. 桑樹勛, 劉世奇, 陸詩建等. 工程化CCUS全流程技術及其進展. 油氣藏評價與開發, 2022, 12(05): 711-725+733.
3. 桑樹勛, 袁亮, 劉世奇等. 碳中和地質技術及其煤炭低碳化套用前瞻. 煤炭學報, 2022, 47(4): 1430-1451.
4. 桑樹勛, 周效志, 劉世奇等. 岩石力學地層理論方法及其煤系氣高效勘探開發套用基礎述評. 地質學報, 2022, 96(1): 304-316.
5. 桑樹勛, 韓思傑, 劉世奇等.高煤階煤層氣富集機理的深化研究. 煤炭學報, 2022, 47(1): 388-403.
6. 桑樹勛, 牛慶合, 曹麗文等. 深部煤層CO2注入煤岩力學回響特徵及機理研究進展. 地球科學, 2022, 47(5): 1849-1864
7. 桑樹勛, 鄭司建, 易同生等. 煤系疊合型氣藏及其勘探開發技術模式. 煤田地質與勘探, 2022, 50(09): 13-21.
8. 桑樹勛, 周效志, 劉世奇等. 應力釋放構造煤煤層氣開發理論與關鍵技術研究進展. 煤炭學報, 2020, 45(7) : 2531-2543.
9. 桑樹勛, 王冉, 周效志等. 論煤地質學與碳中和. 煤田地質與勘探, 2021, 49(01): 1-11.
SCI論文
10. Shu Yong, Sang SX*, Zhou XZ, Zhao FP. Coal Body Structure Detection Based on Logging and Seismic Data and Its Impacts on Coalbed Methane Development: A Case Study in the Dahebian Block, Western Guizhou, Southern China. Natural Resources Reserch, 2022, 32(2): 691-716.
11. Gao DY, Sang SX*, TM. Experimental study on the deformation behaviour, energy evolution law and failure mechanism of tectonic coal subjected to cyclic loads. International Journal of Mining Science and Technology, 2022, 32(06): 1301-1313.
12. Zhang Kun, Sang Shuxun*, Ma MY el. Permeability Response Characteristics of Primary Undeformed Coal and Tectonically Deformed Coal under Loading-Unloading Conditions in Huainan Coalfield, China. Acs Omega, 2022, 7(42): 37485-37498.
13. Liu Shiqi, Wang He, Sang Shuxun* el. Effects of pore structure changes on the CH4 adsorption capacity of coal during CO2-ECBM. Fuel, 2022, 330:125529.
14. Han Si-Jie, Sang Shu-Xun*, Duan Piao-Piao el. The effect of the density difference between supercritical CO2 and supercritical CH4 on their adsorption capacities: An experimental study on anthracite in the Qinshui Basin. Petroleum Science, 2022, 19(04): 1516-1526.
15. Zhao Fuping, Sang Shuxun*, Han Sijie el. Characteristics and Origins of the Difference between the Middle and High Rank Coal in Guizhou and Their Implication for the CBM Exploration and Development Strategy: A Case Study from Dahebian and Dafang Block. Energies, 2022, 15(09): 3181.
16. Zheng Sijian, Sang Shuxun*, Yao Yanbin el. A multifractal-based method for determination NMR dual T-2 cutoffs in coals. Journal of Petroleum Science and Engineering, 2022, 214,110488.
17. Wang Ziliang, Sang Shuxun*, Zhou Xiaozhi el. Numerical study on CO2 sequestration in low-permeability coal reservoirs to enhance CH4 recovery: Gas driving water and staged inhibition on CH4 output. Journal of Petroleum Science and engineering, 2022, 214, 110478.
18. Zheng Sijian, Sang Shuxun*, Liu Shiqi el. An NMR-Based Method for Multiphase Methane Characterization in Coals. Energies, 2022, 15(04):1532.
19. Kun Zhang , Shuxun Sang *, Mengya Ma , Xiaozhi Zhou and Changjiang Liu. 5 Experimental Study on the Influence of Effective Stress on the Adsorption–Desorption Behavior of Tectonically Deformed Coal Compared with Primary Undeformed Coal in Huainan Coalfield, China. Energies, 2022, 15,6501
20. 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, 2021, 43(2): 235-251.
21. 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, 2021, 138: 104614
22. 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: 4212−4223
23. 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
24. Kun Zhang, Shuxun Sang, 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.
25. 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.
26. Shiqi Liu, Shuxun Sang, Qiujia Hu, Huihuang Fang, Characteristics of high‑rank coal structure parallel and perpendicular to the bedding plane via NMR and X‑ray CT. Petroleum Science, 2020, 17: 925-938.
27. Huihuang Fang, Shuxun Sang, Shiqi Liu, Three‑dimensional spatial structure of the macro‑pores and flow simulation in anthracite coal based on X‑ray μ‑CT scanning data. Petroleum Science, 2020, 17: 1221-1236.
28. 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.
29. 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.
30. 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.
31. 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.
32. Shiqi Liu, Shuxun Sang, Jingsheng Ma, Tian Wang, Yi Du, Huihuang Fang, Effects of supercritical CO2 on micropores in bituminous and anthracite coal. Fuel, 2019, 242: 96-108.
33. Huihuang Fang, Shuxun Sang, Shiqi Liu, Shupei Liu, Experimental simulation of replacing and displacing CH4 by injecting supercritical CO2 and its geological significance. International Journal of Greenhouse Gas Control, 2019, 81: 115-125.
34. Kun Zhang, Shuxun Sang, Changjiang Liu, Mengya Ma, Xiaozhi Zhou, Experimental study the influences of geochemical reaction on coal structure during the CO2 geological storage in deep coal seam. Journal of Petroleum Science and Engineering, 2019, 178: 1006-1017.
35. Sijie Han, Shuxun Sang, Jingjing Liang,Jinchao Zhang,Supercritical CO2 adsorption in a simulated deep coal reservoir environment, implications for geological storage of CO2 in deep coals in the southern Qinshui Basin, China. Energy Science & Engineering, 2019, 7(2): 488-503.
36. Huihuang Fang, Shuxun Sang, Shiqi Liu, Establishment of dynamic permeability model of coal reservoir and its numerical simulation during the CO2-ECBM process. Journal of Petroleum Science and Engineering, 2019, 179: 885-898.
37. Sijie Han, 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.
38. Huihuang Fang, Shuxun Sang, Shiqi Liu, Coupling mechanism of the thermal-hydraulic-mechanical fields in CH4-bearing coal and its application of CO2-enhanced coalbed methane recovery. Journal of Petroleum Science and Engineering, 2019, 181: 106177.
39. Huihuang Fang, Shuxun Sang, Shiqi Liu, Numerical simulation of enhancing coalbed methane recovery by injecting CO2 with heat injection. Petroleum Science, 2019, 16(1): 32-43.
40. Hongjie Xu, Shuxun Sang, Jingfen Yang, Jun Jin, Huihu Liu, Xiaozhi Zhou, Wei Gao, Evaluation of coal and shale reservoir in Permian coal-bearing strata for development potential: A case study from Well LC-1# in the northern Guizhou, China. Energy Exploration & Exploitation, 2019, 37(1): 194-218.
41. Yi Du, Shuxun Sang, Zhejun Pan, Wenfeng Wang, Shiqi Liu, Changqing Fu, Yongchun Zhao, Junying Zhang, Experimental study of supercritical CO2-H2O-coal interactions and the effect on coal permeability. Fuel, 2019, 253: 369-382.
42. 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.
43. 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 & Exploitation, 2019, DOI: 10.1177/0144598719884671.
44. 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, 2019, 4(7): 11685-11700.
45. 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.
46. 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.
47. Shiqi Liu, Jingsheng Ma, Shuxun Sang, Tian Wang, Yi Du, Huihuang Fang, The effects of supercritical CO2 on mesopore and macropore structure in bituminous and anthracite coal. Fuel, 2018, 223: 32-43.
48. Shiqi Liu, Shuxun Sang, Tian Wang, Yi Du, Jinlong Jia, Huihuang Fang, The effects of CO2 on organic groups in bituminous coal and high-rank coal via Fourier Transform Infrared Spectroscopy. Energy Exploration & Exploitation, 2018, 36(6): 1566-1592.
49. Jinlong Jia, Shuxun Sang, Liwen Cao, Shiqi Liu, Characteristics of CO2/supercritical CO2 adsorption-induced swelling to anthracite: An experimental study. Fuel, 2018, 216: 638-647.
50. Yi Du, Shuxun Sang, Wenfeng Wang, Shiqi Liu, Tian Wang, Dissolution of illite in supercritical CO2-saturated water: Implications for clayey caprock stability in CO2 geological storage. Journal of Chemical Engineering of Japan, 2018, 51(1): 116-122.
51. Yi Du, Shuxun Sang, Wenfeng Wang,S hiqi Liu, Tian Wang,Huihuang Fang,Experimental study of the reactions of supercritical CO2 and minerals in high-rank coal under formation conditions. Energy & Fuels, 2018, 32(2): 1115-1125.
52. Qinghe Niu, Liwen Cao,Shuxun Sang, Xiaozhi Zhou, Zhenzhi Wang, Anisotropic adsorption swelling and permeability characteristics with injecting CO2 in coal. Energy & Fuels, 2018, 32(2): 1979-1991.
53. Huihuang Fang, Shuxun Sang, Jilin Wang, Wei Ju, Pore characteristics and its significance on shale gas reservoir: a case study of the Longmaxi shale in the Nanchuan region, Chongqing, South China. International Journal of Oil, Gas and Coal Technology, 2018, 18(3/4): 512-536.
54. Huihu Liu, Shuxun Sang, Junhua Xue, Tianhe Lan, Hongjie Xu, Bo Ren, Shiqi Liu, Evolution and geochemical characteristics of gas phase fluid and its response to inter-well interference during multi-well drainage of coalbed methane, Journal of Petroleum Science and Engineering, 2018, 162: 491-501.
55. Huihu Liu, Shuxun Sang, Junhua Xue, Tianhe Lan, Hongje Xu, Bo Ren, Qiao Cheng, Experimental study on the velocity sensitivity of coal reservoir during coalbed drainage in southern Qinshui Basin. Energy Exploration & Exploitation, 2018, 36(6): 1593-1608.
56. Huihuang Fang, Shuxun Sang, Jilin Wang, Shiqi Liu, Wei Ju, Simulation of paleotectonic stress fields and distribution prediction of tectonic fractures at the Hudi coal mine, Qinshui basin. ACTA GEOLOGICA SINICA (English Edition), 2017, 91(6): 2007-2023.
57. Qinghe Niu, Liwen Cao, Shuxun Sang, Xiaozhi Zhou, Zhenzhi Wang, Zhiyong Wu, The adsorption-swelling and permeability characteristics of natural and reconstituted anthracite coals. Energy, 2017, 141: 2206-2217.
58. Shiqi Liu, Shuxun Sang, Geoff Wang, Jingsheng Ma, Xin Wang, Wenfeng Wang, Yi Du, Tian Wang, FIB-SEM and X-ray CT characterization of interconnected pores in high-rank coal formed from regional metamorphism. Journal of Petroleum Science and Engineering, 2017, 148: 21-31.
59. Jinlong Jia, Shuxun Sang, Liwen Cao, Sijie Han, Shiqi Liu, Xiaozhi Zhou, Characteristics of the superposed gas reservoirs of coal-bearing series and its pool-forming dynamic mechanism in Jiyang depression, Bohai Bay Basin, China. Himalayan Geology, 2017, 38(2): 141-155.
60. 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.
61. Huihu Liu, Shuxun Sang, Junhua Xue, Guoxiong Wang,Hongje Xu, Bo Ren, Changjiang Liu, Shiqi Liu, Characteristics of an in situ stress field and its control on coal fractures and permeability in the Gucheng block, southern Qinshui Basin, China. Journal of Natural Gas Science and Engineering, 2016, 36: 1130-1139.
62. Shiqi Liu, Shuxun Sang, Zhejun Pan,Zhonglan Tian,Henglin Yang,Qiujia Hu,Guangjie Sang,Maopo Qiao,Huihu Liu,Jinlong Jia,Study of characteristics and formation stages of macroscopic natural fractures in coal seam #3 for CBM development in the east Qinnan block, Southern Quishui Basin, China. Journal of Natural Gas Science and Engineering, 2016, 34: 1321-1332.
63. Xianzheng Zhao, Shiqi Liu, Shuxun Sang, Zhejun Pan, Wenxiu Zhao, Yanhui Yang, Qiujia Hu, Yanlei Yang, Characteristics and generation mechanisms of coal fines in coalbed methane wells in the southern Qinshui Basin, China. Journal of Natural Gas Science and Engineering, 2016, 34: 849-863.
64. Tian Wang, Shuxun Sang, Shiqi Liu, Yi Du, Occurrence and genesis of minerals and their influences on pores and fractures in the high-rank coals. Energy Exploration & Exploitation, 2016, 34(6): 899-914.
65. Hongjie Xu, Shuxun Sang, Jingfen Yang,Jun Jin,Youbiao Hu,Huihu Liu,Jianshuo Li,Xiaozhi Zhou,Bo Ren,Selection of suitable engineering modes for CBM development in zones with multiple coalbeds: A case study in western Guizhou Province, Southwest China, Journal of Natural Gas Science and Engineering, 2016, 36: 1264-1275.
66. 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 Sciences, 2015, 26(3): 407-415.
67. Shiqi Liu, Shuxun Sang, Huihu Liu,Qipeng Zhu,Growth characteristics and genetic types of pores and fractures in a high-rank coal reservoir of the southern Qinshui basin. Ore Geology Reviews, 2015, 64: 140-151.
68. 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.
69. 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.
70. Shiqi Liu, Shuxun Sang, Qipeng Zhu, Huihu Liu, Hefeng Gao, Structure and production fluid flow pattern of post-fracturing high-rank coal reservoir in Southern Qinshui Basin. Journal of Central South University, 2014, 21(10): 3970-3982.
71. Shiqi Liu, Shuxun Sang, Qipeng Zhu, Huihu Liu, Response characteristics and mechanisms of dynamic fluid field for well interference of coal bed methane group wells in production block. Energy Exploration & Exploitation, 2014, 32(5): 771-790.
72. Huihu Liu, ShuxunSang, Geoff G.X.Wang, Mengxi Li, Hongjie Xu, Shiqi Liu, Junjun Li, Bo Ren, Zhigen Zhao, Yan Xie, Block scale investigation on gas content of coalbed methane reservoirs in southern Qinshui basin with statistical model and visual map. Journal of Petroleum Science and Engineering, 2014, 114: 1-14.
73. 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.
74. 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.
75. 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.
76. 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.
77. 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.
78. 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.
79. 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.
80. 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.Ⅰ, Science Press USA Inc. 2007, 1208-1211.
81. 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.
82. SX 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, Holland, 2004, 279-282.
83. 桑樹勛,鄭永飛,張華,徐磊,范炳恆.徐州地區下古生界碳酸鹽岩的碳、氧同位素研究.岩石學報,2004,20(3):707-716.

獲獎與專利

獲得省部級及行業協會科技獎勵總計11項,代表性獎勵如下:
  1. 2021.6,山西省科技進步獎,《煤層氣排采關鍵參數監測方法創新及水平井無桿排采工藝規模化套用》,山西省人民政府,二等獎,2020-J-2-026, (3)
  2. 2015.10,國土資源科技進步獎,《中國典型盆地聚煤理論體系、資源預測及其勘探實踐與套用》,國土資源科學技術獎勵評審委員會,二等獎,KJ2015-2-50-3,(3)
  3. 2013.10,中國煤炭工業科學技術獎,《鐵法礦區煤層氣增產關鍵理論技術與工程實踐》,中國煤炭工業協會、中國煤炭學會,二等獎,2013-2100-R02,(2)
  4. 2003.1,教育部科技成果獎,《高煤級煤物質結構演化及其地球化學機理》,教育部,一等獎,2002-023,(3)
已授權美國發明專利4項、澳大利亞發明專利4項(均為第一發明人),中國發明專利34項,其中第一發明人授權國家發明專利11項。,代表性發明專利列表如下
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 insitu 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 insitu 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 insitu 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 insitu 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. 桑樹勛; 劉世奇; 曹麗文; 周效志; 王海文等. 2020.0114,一種構造煤原位煤層氣水平井洞穴卸壓開採系統. 中國發明專利:ZL201810404478.9
10. 桑樹勛;曹麗文;郭玉良;郝江濤;蔡念等. 2019.07.02, 一種構造煤大口徑成井雙嚮往複式鑽進三級擴孔鑽具及鑽孔方法.中國發明專利:ZL 2017 1 1332283.X
11.桑樹勛,劉世奇,劉長江,趙剛強,賈金龍等. 2017.05.24,一種超臨界CO2注入與煤層氣強化驅替模擬試驗裝置.中國發明專利,ZL 201510131256.0
12.桑樹勛,劉世奇,劉長江,趙剛強,賈金龍等. 2017.01.04,一種CO2注入與煤層氣強化開採地球化學效應模擬試驗裝置.中國發明專利,ZL 201510036505.8
13.桑樹勛,劉世奇,賈金龍,趙剛強,王文峰等. 2016.08.31,一種超臨界CO2注入與煤層氣強化驅替模擬試驗方法.中國發明專利,ZL 201510130087.9
14.桑樹勛,黃華州,曹麗文,周效志,徐宏傑等. 2011.08.31, 煤的軸向加卸載氣體滲透率測試裝置. 中國發明專利:ZL 201010142331.0
15.桑樹勛,劉世奇,劉長江,趙剛強,賈金龍等. 2016.06.08,一種CO2注入與煤層氣強化開採地球化學效應模擬試驗方法.中國發明專利,ZL 2015 1 0036895.9
16.桑樹勛,曹麗文,周效志,程雲環,劉長江等. 2009.03.11, 垃圾填埋氣液收集疏排裝置及其施工工藝. 中國發明專利:ZL 200610166464.5
17.桑樹勛,周效志,曹麗文,程雲環,張時音等. 2009.08.12, 垃圾填埋場生物氣與滲濾液一體化抽排系統.中國發明專利:ZL 200610166465.X
18.桑樹勛,曹麗文,程雲環,張 靜,周效志. 2009.09.02, 城市生活垃圾地質填埋模擬實驗方法及裝置. 中國發明專利:ZL 200610040497.5

人才培養

1. 指導博士後12人
2. 指導博士研究生40人
3. 指導碩士研究生87人
4. 講授本科生課程12門
岩石學、沉積環境分析、岩石學與礦床學、資源與環境地學基礎、地質學基礎、地球科學概論、地球化學、地球科學導論、煤層氣地質學、煤層氣抽采技術、煤礦地質學、新能源概論

學術兼職

2022.01-今 中國環境科學學會,理事
2022.09-今 中國煤炭學會碳中和科學與工程專業委員會副主任兼秘書長
2023.01-今 中國石油學會非常規油氣專業委員會委員
2022.10-今 中國石油學會智庫專家
2018.01-今 中國地質學會沉積專業委員會,委員
2021.06-今 中國地質學會煤炭綠色勘查開發專業委員會,委員
2021.01-今 中國煤炭工業技術委員會碳中和與資源綜合利用專家委員會,委員
2019.01-今 全國煤炭標準化技術委員會煤岩分會,副主任
2018.01-今 江蘇省低碳技術學會,副理事長兼CCUS專業委員會主任委員

所獲榮譽

曾入選教育部、江蘇省人才計畫4次,代表性人才計畫:
教育部新世紀優秀人才支持計畫入選者,教育部,2005

相關詞條

熱門詞條

聯絡我們