十大老品牌网赌-欢迎您

十大老品牌网赌-欢迎您
更新日期:2015年6月30日
姓 名 程远平 性 别
出生年代 1962年9月 籍贯 通化市
民 族 汉族 政治相貌 中共党员
最初学历 博士研讨生 最初学位
技能职称 传授 导师种别 博、硕导
行政职务 副主任 Email ypc620924@163.com
任务单元 平安工程学院 邮政编码 221116
通讯地点 十大老品牌网赌
单元德律风 83885759
团体主页
团体简介

程远平,1990年结业于十大老品牌网赌,获工学博士学位。现任十大老品牌网赌煤矿瓦斯管理国度工程研讨中央常务副主任,平安工程学院副院长,平安学科传授、博士生导师。1995年~1997年在德国Dortmund大学做拜访学者,2001年在德国Karlsruhe大学从事协作科研任务,次要研讨偏向为煤矿瓦斯灾祸防管理论与技能。社会兼职包罗国度平安消费专家组专家、国度平安消费监视办理总局技能委员会委员、中国消防协会常务理事、《煤炭学报》编委、《采矿与平安工程学报》编委。曾8次担当国务院特殊严重瓦斯灾祸变乱观察专家组组长,担当国度煤矿平安技能专家会诊第二组副组长、国度煤矿瓦斯管理专家会诊苏皖片区组长。曾获国度科技提高二等奖2项、省部级科技提高一等奖8项、二等奖6项,在国际外有关学术刊物及国际学术集会论文集上发布学术论文200余篇,此中SCI论文60篇,EI论文85篇,出书学术专著7部。

获奖、荣誉称呼

     获国度科技提高二等奖2项、省部级科技提高一等奖8项、二等奖6项

社会、学会及学术兼职

国度平安消费专家组专家

国度平安消费监视办理总局技能委员会委员

中国消防协会常务理事

江苏省消防协会常务理事

《煤炭学报》编委

《采矿与平安工程学报》编委

《消防迷信与技能》编委

中国工程建立规范化协会消防条理专业委员会副主任委员

8次担当国务院特殊严重瓦斯灾祸变乱观察专家组组长,担当国度煤矿平安技能专家会诊第二组副组长、国度煤矿瓦斯管理专家会诊苏皖片区组长

研讨范畴

1、煤矿瓦斯根底参数查验检测

2、煤层煤与瓦斯突出风险性判定剖析与地区分别

3、煤矿瓦斯抽采可行性与瓦斯抽采结果评价

4、煤矿瓦斯灾祸综合管理总体计划

5、维护层开采与卸压瓦斯抽采

6、洼地应力低浸透性煤层增透瓦斯抽采

7、煤矿瓦斯灾祸综合管理企业技能规范

8、煤矿瓦斯灾祸综合管理智能化辅佐设计

科研项目

1 项目称号:煤与瓦斯突出进程中含瓦斯煤体粉化作用机理及气固两相流特性研讨,来路:国度天然迷信基金,经费:80万元,次要承当任务:实际及实行研讨,现场工程使用

2 项目称号:煤与瓦斯突出煤层外加水分条件下瓦斯解吸动力学特性及使用研讨,来路:国度天然迷信基金,经费:37万元,次要承当任务:实际及实行研讨,现场工程使用

3 项目称号:维护层采场下覆岩体透气性演化纪律及其在瓦斯抽采中的使用研讨,来路:国度天然迷信基金,经费:29万元,次要承当任务:实际及实行研讨,现场工程使用

4 项目称号:采动煤岩体卸压破断与瓦斯导向活动互相作用干系,来路:国度重点根底研讨开展方案(973方案),经费:156万元,次要承当任务:实际及实行研讨,现场工程使用

5 项目称号:采动裂隙场与瓦斯活动场互相作用干系研讨,来路:国度重点根底研讨开展方案(973方案),经费:65万元,次要承当任务:实际及实行研讨,现场工程使用

6 项目称号:我国煤层气开辟应用战略研讨,来路:国度其他部委科技方案项目,经费:300万元,次要承当任务:实际及实行研讨,现场工程使用

7 项目称号:远间隔和薄煤层维护层开采的卸压作用与瓦斯强化抽采技能,来路:国度科技支持方案,经费:80万元,次要承当任务:实际及实行研讨,现场工程使用

8 项目称号:矿用可燃物火警进程中的热与烟气开释及对火警伸张的影响,来路:国度天然迷信基金,经费:18万元,次要承当任务:实际及实行研讨,现场工程使用

9 项目称号:平安消费技能支持体系瓦斯粉尘灾祸技能根底研讨实行室,来路:国度其他部委科技方案项目,经费:200万元,次要承当任务:实际及实行研讨,现场工程使用

10 项目称号:维护层开采技能标准,来路:国度其他部委科技方案项目,经费:5万元,次要承当任务:实际及实行研讨,现场工程使用

11 项目称号:高瓦斯低透气性煤层CO2置换瓦斯抽采要害技能研讨,来路:国度其他厅局科技项目,经费:30万元,次要承当任务:实际及实行研讨,现场工程使用

12 项目称号:“三软”不波动特厚突出煤层底板大面积预抽防突技能研讨,来路:科技部其他科技项目,经费:88万元,次要承当任务:实际及实行研讨,现场工程使用

13 项目称号:沈阳红菱矿极薄煤层上下维护层开采及强化瓦斯抽采实验研讨,来路:科技部其他科技项目,经费:205万元,次要承当任务:实际及实行研讨,现场工程使用

14 项目称号:煤层群维护层开采及强化瓦斯抽放技能美满与使用,来路:科技部其他科技项目,经费:60万元,次要承当任务:实际及实行研讨,现场工程使用

15 项目称号:维护层开采技能标准,来路:科技部其他科技项目,经费:15万元,次要承当任务:实际及实行研讨,现场工程使用

16 项目称号:“三软”不波动特厚突出煤层顺层钻孔瓦斯抽放技能研讨,来路:科技部其他科技项目,经费:10万元,次要承当任务:实际及实行研讨,现场工程使用

17 项目称号:火警增长和烟气活动剖析的准绳与办法,来路:科技部其他科技项目,经费:7万元,次要承当任务:实际及实行研讨,现场工程使用

 

发布论文

SCI论文:

An, F.H., Cheng, Y.P., 2014. The effect of a tectonic stress field on coal and gas outbursts. The Scientific World Journal 2014, 1-10.

An, F.H., Cheng, Y.P., Wang, L., Li, W., 2013a. A numerical model for outburst including the effect of adsorbed gas on coal deformation and mechanical properties. Computers and Geotechnics 54, 222-231.

An, F.H., Cheng, Y.P., Wu, D.M., Wang, L., 2013b. The effect of small micropores on methane adsorption of coals from Northern China. Adsorption-Journal of the International Adsorption Society 19, 83-90.

Chen, H., Cheng, Y., Ren, T., Zhou, H., Liu, Q., 2014. Permeability distribution characteristics of protected coal seams during unloading of the coal body. International Journal of Rock Mechanics and Mining Sciences 71, 105-116.

Chen, H.D., Cheng, Y.P., Zhou, H.X., Li, W., 2013a. Damage and Permeability Development in Coal During Unloading. Rock Mechanics and Rock Engineering 46, 1377-1390.

Chen, X.J., Cheng, Y.P., Wang, Z.F., Pan, R.K., 2013b. Impact of injected water on the gas desorption index of drill cuttings. Disaster Advances 6, 414-423.

Chen, X., & Cheng, Y., 2015. Influence of the injected water on gas outburst disasters in coal mine. Natural Hazards 76, 1093-1109.

Cheng, Y.P., Wang, L., Zhang, X.L., 2011. Environmental impact of coal mine methane emissions and responding strategies in China. International Journal of Greenhouse Gas Control 5, 157-166.

Cheng, Y., Wang, L., Liu, H., Kong, S., Yang, Q., & Zhu, J., et al., 2015. Definition, theory, methods, and applications of the safe and efficient simultaneous extraction of coal and gas. International Journal of Coal Science & Technology, 2.

Guo, H., Cheng, Y., Wang, L., Lu, S., & Jin, K., 2015. Experimental study on the effect of moisture on low-rank coal adsorption characteristics. Journal of Natural Gas Science & Engineering, 24, 245–251.

Guo, P.K., Cheng, Y.P., 2013. Permeability Prediction in Deep Coal Seam: A Case Study on the No. 3 Coal Seam of the Southern Qinshui Basin in China. Scientific World Journal.

Guo, P.K., Cheng, Y.P., Jin, K., Li, W., Tu, Q.Y., Liu, H.Y., 2014a. Impact of Effective Stress and Matrix Deformation on the Coal Fracture Permeability. Transport in Porous Media 103, 99-115.

Guo, P.K., Cheng, Y.P., Jin, K., Liu, Y.P., 2014b. The impact of faults on the occurrence of coal bed methane in Renlou coal mine, Huaibei coalfield, China. Journal of Natural Gas Science and Engineering 17, 151-158.

Jiang, H.N., Cheng, Y.P., Yuan, L., An, F.H., Jin, K., 2013. A fractal theory based fractional diffusion model used for the fast desorption process of methane in coal. Chaos 23.

Jiang, H., Cheng, Y., Yuan, L., Jiang, H., Cheng, Y., & Yuan, L., 2014. A langmuir-like desorption model for reflecting the inhomogeneous pore structure of coal and its experimental verification. Rsc Advances, 4, 2434-2440.

Jiang, J.Y., Cheng, Y.P., 2014. Effects of Igneous Intrusion on Microporosity and Gas Adsorption Capacity of Coals in the Haizi Mine, China. Scientific World Journal.

Jiang, J.Y., Cheng, Y.P., Wang, L., Li, W., Wang, L., 2011. Petrographic and geochemical effects of sill intrusions on coal and their implications for gas outbursts in the Wolonghu Mine, Huaibei Coalfield, China. International Journal of Coal Geology 88, 55-66.

Jiang, J., Cheng, Y., Zhang, P., Jin, K., Cui, J., & Du, H., 2015. Cbm drainage engineering challenges and the technology of mining protective coal seam in the dalong mine, tiefa basin, china. Journal of Natural Gas Science & Engineering, 24, 412–424.

Jin, K., Cheng, Y., Wang, L., Dong, J., Guo, P., & An, F., et al., 2015. The effect of sedimentary redbeds on coalbed methane occurrence in the xutuan and zhaoji coal mines, huaibei coalfield, china. International Journal of Coal Geology, 137, 111–123.

Kong, S., Cheng, Y., Ren, T., Liu, H., 2014. A sequential approach to control gas for the extraction of multi-gassy coal seams from traditional gas well drainage to mining-induced stress relief. Applied Energy 131, 67-78.

Li, D.Q., Cheng, Y.P., 2014. Evaluation of gas control ability of a coal and gas outburst mine. Energy Sources Part A Recovery Utilization & Environmental Effects, 36, 2401-2409.

Li, W., Cheng, Y.-p., Guo, P.-k., An, F.-h., Chen, M.-y., 2014a. The evolution of permeability and gas composition during remote protective longwall mining and stress-relief gas drainage: a case study of the underground Haishiwan Coal Mine. Geosciences Journal 18, 427-437.

Li, W., Cheng, Y.P., Wang, L., 2011. The origin and formation of CO2 gas pools in the coal seam of the Yaojie coalfield in China. International Journal of Coal Geology 85, 227-236.

Li, W., Cheng, Y.P., Wang, L., Zhou, H.X., Wang, H.F., Wang, L.G., 2013. Evaluating the security of geological coalbed sequestration of supercritical CO2 reservoirs: The Haishiwan coalfield, China as a natural analogue. International Journal of Greenhouse Gas Control 13, 102-111.

Li, W., Zhu, J.T., Cheng, Y.P., Lu, S.Q., 2014b. Evaluation of coal swelling-controlled CO2 diffusion processes. Greenhouse Gases-Science and Technology 4, 131-139.

Li, W., Younger, P. L., Cheng, Y., Zhang, B., Zhou, H., & Liu, Q., et al., 2015. Addressing the co 2 emissions of the world's largest coal producer and consumer: lessons from the haishiwan coalfield, china. Energy, 80(C), 400–413.

Liu, H., Liu, H., & Cheng, Y., 2014. The elimination of coal and gas outburst disasters by ultrathin protective seam drilling combined with stress-relief gas drainage in xinggong coalfield. Journal of Natural Gas Science & Engineering, 837–844.

Liu, H., Mou, J., & Cheng, Y., 2015. Impact of pore structure on gas adsorption and diffusion dynamics for long-flame coal. Journal of Natural Gas Science & Engineering, 22, 203–213.

Liu, Q., Cheng, Y., Wang, H., Zhou, H., Liang, W., Wei, L., Liu, H., 2015. Numerical assessment of the effect of equilibration time on coal permeability evolution characteristics. Fuel 140, 81-89.

Liu, Q., Cheng, Y., Yuan, L., Tong, B., Kong, S., Zhang, R., 2014. CMM capture engineering challenges and characteristics of in-situ stress distribution in deep level of Huainan coalfield. Journal of Natural Gas Science and Engineering 20, 328-336.

Liu, Q.Q., Cheng, Y.P., 2014. Measurement of pressure drop in drainage boreholes and its effects on the performance of coal seam gas extraction: a case study in the Jiulishan Mine with strong coal and gas outburst dangers. Natural Hazards 71, 1475-1493.

Liu, Q., Cheng, Y., Yuan, L., Fang, Y., Shi, D., & Kong, S., 2014. A new effective method and new materials for high sealing performance of cross-measure cmm drainage boreholes. Journal of Natural Gas Science & Engineering, 805–813.

Lu, S., Cheng, Y., Ma, J., Zhang, Y., 2014. Application of in-seam directional drilling technology for gas drainage with benefits to gas outburst control and greenhouse gas reductions in Daning coal mine, China. Natural Hazards 73, 1419-1437.

Liu, Q., Cheng, Y., Zhou, H., Guo, P., An, F., & Chen, H., 2014. A mathematical model of coupled gas flow and coal deformation with gas diffusion and klinkenberg effects. Rock Mechanics & Rock Engineering, 48, 1-18.

Pan, R., Cheng, Y., Yuan, L., Yu, M., Dong, J., 2014. Effect of bedding structural diversity of coal on permeability evolution and gas disasters control with coal mining. Natural Hazards 73, 531-546.

Pan, R.K., Cheng, Y.P., Yu, M.G., Lu, C., 2012. Experimental study of new composite material to restraining coal oxidation. Research Journal of Chemistry and Environment 16, 35-38.

Wang, F., Cheng, Y., Lu, S., Jin, K., Zhao, W., 2014a. Influence of Coalification on the Pore Characteristics of Middle High Rank Coal. Energy & Fuels 28, 5729-5736.

Wang, H., Cheng, Y., Wang, W., Xu, R., 2014b. Research on comprehensive CBM extraction technology and its applications in China's coal mines. Journal of Natural Gas Science and Engineering 20, 200-207.

Wang, H.F., Cheng, Y.P., Yuan, L., 2013a. Gas outburst disasters and the mining technology of key protective seam in coal seam group in the Huainan coalfield. Natural Hazards 67, 763-782.

Wang, K., Wang, G., Ren, T., & Cheng, Y. (2014). Methane and CO2 sorption hysteresis on coal: a critical review. International Journal of Coal Geology, 132, 60–80.

Wang, L., Cheng, L.B., Cheng, Y.P., Yin, G.Z., Cai, C.C., Xu, C., Jin, K., 2014c. Thermal effects of magmatic sills on coal seam metamorphism and gas occurrence. Bulletin of Volcanology 76.

Wang, L., Cheng, Y.P., An, F.H., Zhou, H.X., Kong, S.L., Wang, W., 2014d. Characteristics of gas disaster in the Huaibei coalfield and its control and development technologies. Natural Hazards 71, 85-107.

Wang, L., Y Cheng, Y.P., 2012. Drainage and utilization of Chinese coal mine methane with a coal–methane co-exploitation model: Analysis and projections. Resources Policy 37, 315-321.

Wang, L., Cheng, Y.P., Ge, C.G., Chen, J.X., Li, W., Zhou, H.X., Wang, H.F., 2013b. Safety technologies for the excavation of coal and gas outburst-prone coal seams in deep shafts. International Journal of Rock Mechanics and Mining Sciences 57, 24-33.

Wang, L., Cheng, Y.P., Liu, H.Y., 2014e. An analysis of fatal gas accidents in Chinese coal mines. Safety Science 62, 107-113.

Wang, L., Cheng, Y.P., Wang, L., Guo, P.K., Li, W., 2012. Safety line method for the prediction of deep coal-seam gas pressure and its application in coal mines. Safety Science 50, 523-529.

Wang, L., Cheng, Y.P., Xu, C., An, F.H., Jin, K., Zhang, X.L., 2013c. The controlling effect of thick-hard igneous rock on pressure relief gas drainage and dynamic disasters in outburst coal seams. Natural Hazards 66, 1221-1241.

Wang, L.G., Cheng, Y.P., Wang, Y.K., 2014f. Laboratory Study of the Displacement Coalbed CH4 Process and Efficiency of CO2 and N2 Injection. Scientific World Journal.

Wang, L.y., Cheng, L.-b., Cheng, Y.-p., Yin, G.-z., Xu, C., Jin, K., Yang, Q.-l., 2014g. Characteristics and evolutions of gas dynamic disaster under igneous intrusions and its control technologies. Journal of Natural Gas Science and Engineering 18, 164-174.

Wang, W., Cheng, Y.P., Wang, H.F., Liu, H.Y., Wang, L., Li, W., Jiang, J.Y., 2015. Fracture failure analysis of hard–thick sandstone roof and its controlling effect on gas emission in underground ultra-thick coal extraction. Engineering Failure Analysis 54, 150-162.

Wu, D.M., Cheng, Y.P., 2013. Enhanced high-rate performance of sub-micro Li4Ti4.95Zn0.05O12 as anode material for lithium-ion batteries. Ionics 19, 395-399.

Xu, C., Cheng, Y., Wang, L., Zhou, H., 2014a. Experiments on the effects of igneous sills on the physical properties of coal and gas occurrence. Journal of Natural Gas Science and Engineering 19, 98-104.

Xu, C., Cheng, Y.P., Ren, T., Wang, L., Kong, S.L., Lu, S.Q., 2014b. Gas ejection accident analysis in bed splitting under igneous sills and the associated control technologies: a case study in the Yangliu Mine, Huaibei Coalfield, China. Natural Hazards 71, 109-134.

Zhang, B., Cheng, Y., Wu, Q., 2011. Sponge Effect on Coal Mine Methane Separation Based on Clathrate Hydrate Method. Chinese Journal of Chemical Engineering 19, 610-614.

Zhang, X. L., Cheng, Y. P., Wang, L., & Zhao, W., 2015. Research on the controlling effects of a layered sill with different thicknesses on the underlying coal seam gas occurrence. Journal of Natural Gas Science & Engineering(22), 406–414.

Zhao, W., Cheng, Y.P., Yuan, M., An, F.H., 2014. Effect of Adsorption Contact Time on Coking Coal Particle Desorption Characteristics. Energy & Fuels 28, 2287-2296.

Zhou, H., Yang, Q., Cheng, Y., Ge, C., Chen, J., 2014. Methane drainage and utilization in coal mines with strong coal and gas outburst dangers: A case study in Luling mine, China. Journal of Natural Gas Science and Engineering 20, 357-365.

Zhou, H., Zhang, R., Cheng, Y., Dai, H., Ge, C., & Chen, J., 2015. Methane and coal exploitation strategy of highly outburst-prone coal seam configurations. Journal of Natural Gas Science & Engineering, 63–69.

 

EI论文:

An, F.H., Cheng, Y.P., Wu, D.M., Li, W., 2011. Determination of coal gas pressure based on characteristics of gas desorption. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 28, 81-85+89.

Chen, X.J., Cheng, Y.P., He, T., Li, X., 2013a. Water injection impact on gas diffusion characteristic of coal. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 30, 443-448.

Chen, X.J., Cheng, Y.P., Wang, L., 2013b. Experimental study on the inhibition of injection water to the gas desorption of coal. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 30, 296-301.

Cheng, Y.-P., Liu, H.-Y., Guo, P.-K., Pan, R.-K., Wang, L., 2014. A theoretical model and evolution characteristic of mining-enhanced permeability in deeper gassy coal seam. Meitan Xuebao/Journal of the China Coal Society 39, 1650-1658.

Cheng, Y.P., Fu, J.H., Yu, Q.X., 2009. Development of gas extraction technology in coal mines of China. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 26, 127-139.

Cheng, Y.P., Ji, J.W., Li, Z.H., 2000. Comparative experiment of burning property of conveyer belts and wood. Meitan Xuebao/Journal of China Coal Society 25, 614-617.

Cheng, Y.P., Li, Z.H., 1999. Study on process of oxygen adsorption by coal at low temperature and its heat effect. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 28, 307-309.

Cheng, Y.P., Yu, Q.X., 2003. Application of Safe and high-efficient exploitation system of coal and gas in coal seams. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 32, 471-475.

Cheng, Y.P., Yu, Q.X., Yuan, L., 2003. Gas extraction techniques and movement properties of long distance and pressure relief rock mass upon exploited coal seam. Liaoning Gongcheng Jishu Daxue Xuebao (Ziran Kexue Ban)/Journal of Liaoning Technical University (Natural Science Edition) 22, 483-483.

Cheng, Y.P., Yu, Q.X., Yuan, L., Li, P., Liu, Y.Q., Tong, Y.F., 2004. Experimental research of safe and high-efficient exploitation of coal and pressure relief gas in long distance. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 33, 132-136.

Cheng, Y.P., Zhang, M.J., Chen, L., Ji, J.W., 2002. Experimental estimate for combustion capability of polyurethane foam based on cone calorimeter. Process in Safety Science and Technology Part B 3, 1286-1291.

Cheng, Y.P., Zhang, X.L., Wang, L., 2013. Controlling effect of ground stress on gas pressure and outburst disaster. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 30, 408-414.

Gu, Z.H., Cheng, Y.P., Zhou, S.N., 2004. Study on critical safe distance between vehicles in traffic tunnel fire. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 33, 424-427.

Gu, Z.H., Cheng, Y.P., Zhou, S.N., 2005. Numerical simulation of reasonable relative position of smoke tower and passageway of subway station. Xinan Jiaotong Daxue Xuebao/Journal of Southwest Jiaotong University 40, 591-594.

Gu, Z.H., Cheng, Y.P., Zhou, S.N., 2006. Critical ventilation speed between platform and concourse at subway station. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 35, 7-10.

Hou, S.-J., Zhang, Y.-W., Cheng, Y.-P., 2013. A computer aided design and simulation system for upward cross-seam boreholes. Journal of Applied Sciences 13, 2538-2543.

Hou, S. J., Zhang, Y. W., & Cheng, Y. P., 2014. A novel tracking and warning method for gas pre-drainage project based on x-rs control chart. Advanced Materials Research, 868, 361-364.

Ji, J.W., Cheng, Y.P., 2006a. Estimation approach for predicting fire visibility in mine fires. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 35, 149-152+156.

Ji, J.W., Cheng, Y.P., 2006b. Temperature ignition criterion of PVC conveyor belts and its application. Ranshao Kexue Yu Jishu/Journal of Combustion Science and Technology 12, 438-441.

Ji, J.W., Cheng, Y.P., Yang, L.Z., Fan, W.C., 2002. Numerical simulation of fire development in a single compartment based on cone calorimeter experiments. Progress in Natural Science 12, 368-368.

Ji, J.W., Cheng, Y.P., Yang, L.Z., Guo, Z.F., Fan, W.C., 2005. Experimental study on wood ignition at variable heat flux. Ranshao Kexue Yu Jishu/Journal of Combustion Science and Technology 11, 448-453.

Jiang, H.N., Cheng, Y.P., An, F.H., 2013. Research on effective sampling time in direct measurement of gas content in Huaibei coal seams. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 30, 143-148.

Jiang, J.Y., Cheng, Y.P., 2012. Influence of igneous intrusion on micropore characteristics of coal reserves in Huaibei coalfield. Meitan Xuebao/Journal of the China Coal Society 37, 634-640.

Jiang, J.Y., Cheng, Y.P., Wang, H.F., Zhou, H.X., Jin, K., 2012a. Effect of igneous intrusion on adsorption characteristics of coal to gas. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 29, 118-123.

Jiang, J.Y., Cheng, Y.P., Wang, L., An, F.H., Jiang, H.N., 2011. Effect of magma intrusion on the occurrence of coal gas in the Wolonghu coalfield. Mining Science and Technology 21, 737-741.

Jiang, J.Y., Cheng, Y.P., Wang, L., Guo, P.K., An, F.H., 2012b. The controlling effect of extremely thick igneous intrusions on coal and gas outburst. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 41, 42-47.

Li, D.Q., Cheng, Y.P., Wang, H.F., Wang, L., Zhou, H.X., Sun, J.H., 2011a. Coal and gas outburst prediction based on improved decision tree ID3 algorithm. Meitan Xuebao/Journal of the China Coal Society 36, 619-622.

Li, D.Q., Cheng, Y.P., Wang, L., Wang, H.F., Wang, L., Zhou, H.X., 2011b. Prediction method for risks of coal and gas outbursts based on spatial chaos theory using gas desorption index of drill cuttings. Mining Science and Technology 21, 439-443.

Li, W., Cheng, Y.P., Wu, D.M., An, F.H., 2010. CO2 isothermal adsorption models of coal in the Haishiwan Coalfield. Mining Science and Technology 20, 281-285.

Li, W., Cheng, Y.P., Yang, Y.F., Wang, L.G., Chen, H.D., Yang, Y.K., 2011c. Research on the genesis and accumulation of carbon dioxide in the Yaojie coalfield. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 40, 190-195.

Liu, H.B., Cheng, Y.P., Song, J.C., Shang, Z.J., 2010a. The change and distribution law of outburst coal seam permeability induced by drilling an extra-thin protective coal seam. Meitan Xuebao/Journal of the China Coal Society 35, 411-416.

Liu, H.B., Cheng, Y.P., Song, J.C., Shang, Z.J., Wang, L., 2009a. Pressure relief, gas drainage and deformation effects on an overlying coal seam induced by drilling an extra-thin protective coal seam. Mining Science and Technology 19, 724-729.

Liu, H.B., Cheng, Y.P., Wang, H.F., Shang, Z.J., 2009b. Change rule of initial speed of gas emission from borehole in outburst coal seam before and after pressure relief. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 26, 225-228.

Liu, H.Y., Cheng, Y.P., Chen, H.D., Kong, S.L., Xu, C., 2012a. Characteristics of mining gas channel and gas flow properties of overlying stratum in high intensity mining. Meitan Xuebao/Journal of the China Coal Society 37, 1437-1443.

Liu, H.Y., Cheng, Y.P., Chen, H.D., Liu, Q.Q., Kong, S.L., 2011. Characteristics of depressurized fissure and its effect on deformation induced pressure relief of mining coal mass containing gas. Meitan Xuebao/Journal of the China Coal Society 36, 2074-2079.

Liu, H.Y., Cheng, Y.P., Chen, H.D., Mou, J.H., Kong, S.L., 2013. Characteristics of mining gas channel expansion in the remote overlying strata and its control of gas flow. International Journal of Mining Science and Technology 23, 481-487.

Liu, H.Y., Cheng, Y.P., Zhao, C.C., Wang, H.F., Chen, H.D., 2010b. Constitutive model for elasto-brittle-plastic damage of coal rock mass due to mining and its application. Yanshilixue Yu Gongcheng Xuebao/Chinese Journal of Rock Mechanics and Engineering 29, 358-365.

Liu, H.Y., Cheng, Y.P., Zhao, C.C., Zhou, H.X., Zhang, Z.P., 2010c. Classification and judgment method of the protective layers. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 27, 468-474.

Liu, H.Y., Cheng, Y.P., Zhou, H.X., Wang, F., Chen, H.D., 2010d. Fissure evolution and evaluation of pressure-relief gas drainage in the exploitation of super-remote protected seams. Mining Science and Technology 20, 178-182.

Liu, l., Cheng, Y.P., Wang, H.F., Wang, L., Ma, X.Q., 2009c. Principle and engineering application of pressure relief gas drainage in low permeability outburst coal seam. Mining Science and Technology 19, 342-345.

Liu, Q.Q., Cheng, Y.P., Tong, B., Fang, Y.X., Zhang, R., Zhang, H., 2014. Borehole stability analysis and a new efficient technology to maintain borehole stability in soft coal seam. Electronic Journal of Geotechnical Engineering 19 K, 2503-2512.

Liu, Y.W., Cheng, Y.P., Li, G.F., 2012b. Research on high performance grouting material and improving surrounding rock mass strength. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 29, 821-826.

Lu, S.Q., Cheng, Y.P., Wang, H.F., Wang, L., Li, W., Mou, J.H., 2012. Numerical simulation research on the Hongling Coal Mine's minimum mining thickness of upper protective layer. Meitan Xuebao/Journal of the China Coal Society 37, 43-47.

Mou, J.H., Cheng, Y.P., Liu, H.H., 2012. Research on gas diffusion characteristic of injected water coal. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 29, 746-749.

Pan, R.K., Cheng, Y.P., Dong, J., Chen, H.D., 2014a. Research on permeability characteristics of layered natural coal under different loading and unloading. Meitan Xuebao/Journal of the China Coal Society 39, 473-477.

Pan, R.K., Cheng, Y.P., Yu, M.G., Guo, P.K., Dong, J., 2014b. Experimental analysis on pressure-relief increased permeability and its application in gas drainage under coal mining. Electronic Journal of Geotechnical Engineering 19 K, 2525-2535.

Pan, R.K., Cheng, Y.P., Yu, M.G., Lu, C., 2012. Experimental study of new technology for preventing gas combustion in mining face. Meitan Xuebao/Journal of the China Coal Society 37, 1854-1858.

Pan, R.K., Cheng, Y.P., Yu, M.G., Lu, C., Yang, K., 2013. New technological partition for "three zones" spontaneous coal combustion in goaf. International Journal of Mining Science and Technology 23, 489-493.

Qin, Y., Yuan, L., Cheng, Y.P., 2012. Factors Affecting the Strategic Benefits of CBM Industry in China. Science & Technology Review 30, 70-75.

Qin, Y., Yuan, L., Cheng, Y.P., Meng, J.B., Shen, J., 2013. Scenario predication for the mid-term and long-term coalbed methane production scale of surface drilling wells in China. Shiyou Xuebao/Acta Petrolei Sinica 34, 489-495.

Wang, D.M., Cheng, Y.P., Zhou, F.B., Ji, J.W., 2002. Experimental research on combustion property of mine fire source. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining & Technology 31, 30-33.

Wang, H.F., Cheng, Y.P., Hou, S.J., Xu, R., Liu, H.B., 2010a. Application of continuously pressure-relieving technology on long-distance upper protected seam of inclined coal seam. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 27, 210-214.

Wang, H.F., Cheng, Y.P., Liu, G.J., Kong, S.L., Zhang, R., 2013a. Range extender of protection and continuous mining technology of protected seam. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 30, 595-599.

Wang, H.F., Cheng, Y.P., Wang, L., 2012. Regional gas drainage techniques in Chinese coal mines. International Journal of Mining Science and Technology 22, 873-878.

Wang, H.F., Cheng, Y.P., Wu, D.M., Liu, H.Y., 2010b. Gas emission and parameter optimization of gas extraction in mining face of short distance protective seam. Meitan Xuebao/Journal of the China Coal Society 35, 590-594.

Wang, H.F., Cheng, Y.P., Yu, Q.X., Zhou, Z.Y., Zhou, H.X., Liu, H.Y., 2008a. Research on the amount of safely mineable coal in mines susceptible to coal and gas outburst. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 37, 236-240.

Wang, H.F., Cheng, Y.P., Yuan, L., Wang, L., 2010c. Similarity model tests of movement and deformation of coal-rock mass below stopes. Mining Science and Technology 20, 188-192.

Wang, H.F., Fang, L., Cheng, Y.P., Wang, W., Zhou, H.R., 2013b. Pressure-relief gas extraction of lower adjacent coal seam based on strata movement and its application. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 30, 128-131.

Wang, H.F., Sun, J.Z., Cheng, Y.P., Wei, G.J., 2013c. Theoretical thickness of protective layer mining and its application on pressure relief gas drainage. Electronic Journal of Geotechnical Engineering 18 D, 765-774.

Wang, H.F., Wang, L., Cheng, Y.P., Zhou, H.X., 2013d. Characteristics and dominant controlling factors of gas outburst in Huaibei coalfield and its countermeasures. International Journal of Mining Science and Technology 23, 591-596.

Wang, L., Cheng, Y.P., Jiang, J.Y., Guo, P.K., Wang, L.G., Yang, Y., 2010d. The coupling laws between fissure field and gas flow field under an extremely thick igneous rock. Meitan Xuebao/Journal of the China Coal Society 35, 1287-1291.

Wang, L., Cheng, Y.P., Li, F.R., Wang, H.F., Liu, H.B., 2008b. Fracture evolution and pressure relief gas drainage from distant protected coal seams under an extremely thick key stratum. Journal of China University of Mining and Technology 18, 182-186.

Wang, L., Cheng, Y.P., Nie, Z., Wang, H.F., Yang, Y., Liu, J., 2011. Effects of an extremely thick igneous rock on gas occurrence and outburst disasters in a coal seam. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 40, 29-34.

Wang, L., Cheng, Y.P., Yang, Y.K., Chen, H.D., Li, P.Q., Liu, J., Wang, F., 2010e. Controlling the effect of a distant extremely thick igneous rock in overlying strata on coal mine disasters. Mining Science and Technology 20, 510-515.

Wang, L., Cheng, Y.P., Zhai, Q.W., Ge, C.G., Chen, J.X., Jiang, H.N., 2013e. Factors analysis on dynamic disasters of outburst coal seams under thick-hard igneous rock in coal mines. Meitan Xuebao/Journal of the China Coal Society 38, 1368-1375.

Wang, L., Ji, J.W., Cheng, Y.P., Gao, Y.F., 2006. Experimental and numerical simulation research on burning characteristics of common combustible materials. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 35, 732-736.

Wang, L.G., Cheng, Y.P., Li, W., Lu, S.Q., Xu, C., 2013f. Component fractionation of temporal evolution in adsorption-desorption for binary gas mixtures on coals from Haishiwan Coal Mine. International Journal of Mining Science and Technology 23, 201-205.

Wang, W., Cheng, Y.P., Wang, L., Wang, H.F., Lu, S.Q., Jiang, J.Y., 2014. Controlling effect of extremely thick igneous rock on gas occurrence of underlying coal seam. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 31, 154-160.

Wu, D.M., Cheng, Y.P., An, F.H., 2011. Determination of gas pressure and gas content based on residual gas quantity of coal sample. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 28, 315-318.

Wu, D.M., Zhao, Y.M., Cheng, Y.P., An, F.H., 2010. p index with different gas compositions for instantaneous outburst prediction in coal mines. Mining Science and Technology 20, 723-726.

Xia, H.C., Cheng, Y.P., Liu, J.P., 2006. Realizing safe and high-efficient exploitation of coal and gas by making use of characteristics of movement and development of strata. Liaoning Gongcheng Jishu Daxue Xuebao (Ziran Kexue Ban)/Journal of Liaoning Technical University (Natural Science Edition) 25, 168-171.

Xu, C., Cheng, Y.P., Wang, L., Guo, P.K., Chen, H.D., 2012. Waste rock filling height in goaf after exploiting protective layer under extremely thick igneous rock. Electronic Journal of Geotechnical Engineering 17 S, 2567-2580.

Yang, M., Wang, Y.J., Cheng, Y.P., 2009. Improved differential evolution neural network and its application in prediction of coal and gas outburst. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 38, 439-444.

Yu, Q.X., Cheng, Y.P., Jiang, C.L., Zhou, S.N., 2004. Principles and applications of exploitation of coal and pressure relief gas in thick and high-gas seams. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 33, 127-131.

Yuan, L., Qin, Y., Cheng, Y.P., Meng, J.B., Shen, J., 2013. Scenario predication for medium-long term scale of coal mine methane drainage in China. Meitan Xuebao/Journal of the China Coal Society 38, 529-534.

Yun, B.J., Cheng, Y.P., Liu, J.Z., Li, X.J., 2011. Numerical Analysis of Spraying Hole Improving Permeability and Its Application in Outbursting Coal Seam. Applied Mechanics and Materials 130-134, 1676-1680.

Zhang, B.Y., Cheng, Y.P., Wu, Q., 2011. Sponge effect on coal mine methane separation based on clathrate hydrate method. Chinese Journal of Chemical Engineering 19, 610-614.

Zhang, B.Y., Zhang, Q., Wu, Q., Liu, C.L., Cheng, Y.P., 2013. Influence of super-absorbent polymer on hydration separation rate of mine gas. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 42, 382-387.

Zhao, Z.Q., Ma, N.J., Jia, H.S., Cheng, Y.P., 2013. Partitioning characteristics of gas channel of coal-rock mass in mining space and gas orientation method. International Journal of Mining Science and Technology 23, 873-877.

Zhou, H.X., Cheng, Y.P., Liu, H.Y., Guo, P.K., Wang, L.G., 2011a. Permeability and fluidity improvement mechanism of crossing borehole group in outburst coal seam. Caikuang yu Anquan Gongcheng Xuebao/Journal of Mining and Safety Engineering 28, 618-622.

Zhou, H.X., Cheng, Y.P., Liu, H.Y., Guo, P.K., Wang, L.G., 2011b. Permeability improvement technology of array crossing boreholes and its application in outburst coal seam. Meitan Xuebao/Journal of the China Coal Society 36, 1515-1518.

Zhou, H.X., Wang, L., Cheng, Y.P., Wang, L.G., 2012. Guide channel construction for gas drainage and its applications in coal seams with low permeability and strong burst-pronenees. Meitan Xuebao/Journal of the China Coal Society 37, 1456-1460.

Zhu, G.Q., Cheng, Y.P., Gu, Z.H., Ji, J.W., 2007a. Performance-based design on smoke control in a large space primary of cigarette processing workshop. Xi'an Jianzhu Keji Daxue Xuebao/Journal of Xi'an University of Architecture and Technology 39, 621-627.

Zhu, G.Q., Cheng, Y.P., Gu, Z.H., Ji, J.W., 2008. Numerical simulation for fire smoke flow in a high-rise building with patio space. Chongqing Jianzhu Daxue Xuebao/Journal of Chongqing Jianzhu University 30, 95-100.

Zhu, G.Q., Ji, J.W., Cheng, Y.P., Gu, Z.H., Zhang, H.K., 2007b. Experimental study of fire behaviors of combustible materials and fire simulation in primary processing workshop of cigarette. Zhongguo Kuangye Daxue Xuebao/Journal of China University of Mining and Technology 36, 351-355.

出书专著和课本

《煤矿瓦斯防管理论与工程使用》,徐州:十大老品牌网赌出书社,2010

《矿井瓦斯防治》,徐州:十大老品牌网赌出书社,2012

《水灭火工程》,徐州:十大老品牌网赌出书社,2011

《消防工程学》,徐州:十大老品牌网赌出书社,2002

科研创新

创造专利:

岩巷穿层钻孔高压水力造穴瓦斯抽采办法(CN201510162130.X),程远平,武国胜(学),王伟,周红星,王亮,徐云辉(学),王振洋(学)

基于钻进参数调查巷道松动及应力会合范畴的办法(CN 201510162231.7),王伟(学),程远平,武国胜(学),王晓平(学),李伟,赵伟(学),秦立明(学)

一种气动压入式坚实煤层微扰动取样安装(CN201410655895.2),刘清泉(学),程远平,涂庆毅(学),张荣(学),周红星,王海锋

一种顺层钻孔径向体积变形测定安装(CN201410038602.6),周红星,张荣(学),程远平,杨泉林(学),代昊(学

石门揭煤与瓦斯突出煤层双帷幕注浆防突办法(CN201310453363.6),蒋静宇,陈海栋(学),程远平,王亮,周红星,徐超(学)

顺层瓦斯抽采钻孔分段封孔办法(CN201310343143.8),王海锋,冯辉(学),程远平,李伟,王伟(学),韦广建(学)

高瓦斯低透气性煤层地区性添加煤层透气性的办法(CN201310339829.X),王海锋,孙建中(学),程远平,王伟(学),周红星,刘清泉(学)

近间隔煤层群底抽巷钻孔一孔三用的瓦斯管理办法(CN201310231598.0),郭水师(学),王亮(学),程远平,刘亚庆(学),滕广平(学)

煤层钻采煤、气、水别离输纳安装(CN201210558299.3),许绍明(外),程远平,何佰稳(外),秦小坤(外),陈玲(外),余根海(外),沐俊卫(学),张晓磊(学)

压风管下向钻孔间接测定煤层瓦斯含量的办法(CN201210428765.6),徐超(学),程远平,李伟,王亮

注水煤样瓦斯放散初速率测定仪及测定办法(CN201210191396.3),牟俊惠(学),程远平,刘辉辉(学),徐超(学)

被维护层底板上向梳状钻孔瓦斯抽采办法(CN201210142723.6),王亮,程远平,金侃,卢守青,张晓磊,安丰华

维护层风巷高位钻场穿层钻孔抽采被维护层瓦斯的办法(CN201210142721.7),王亮,程远平,卢守青,李伟,蔡春成,安丰华

竖井揭煤与瓦斯突出煤层帷幕注浆防突办法(CN201110408462.3),王亮,程远平,徐超,周红星,汪磊,李伟

瓦斯排放巷穿层钻孔地区瓦斯抽采办法(CN201110134376.8),刘洪永,程远平,周红星,翟清伟,孔成功,刘清泉

井下暗采动钻井瓦斯抽采办法(CN201110133913.7),程远平,刘洪永,王亮,王立国,陈海栋,刘清泉

被维护层卸压瓦斯底板岩巷抽采办法(CN201110029529.2),王海锋,程远平,李伟,孔成功,翟清伟

外加水分对含瓦斯煤体解吸特性测试安装及办法(CN201010580065.X),程远平,吴冬梅,汪磊,刘海波,蒋静宇

一种煤矿井下间接疾速测定煤层瓦斯含量办法(CN201010580089.5),王亮,程远平,吴冬梅,安丰华,姜海纳

煤中超临界二氧化碳含量测试办法(CN201010243615.9),吴冬梅,程远平,安丰华

煤对超临界二氧化碳的吸附测定安装及办法(CN201010243619.7),吴冬梅,程远平

网款式穿层钻孔孔群增透瓦斯抽采办法(CN200710020997.7),程远平,沐俊卫,王海锋,周宗勇,刘海波,王庆永

突出煤层下向顺层长钻孔递进掩护地区性瓦斯抽采办法(CN200710021160.4),沐俊卫,程远平,沈永铜,王庆永,王海锋,沈怀津

采空区长立管瓦斯抽采办法(CN200710021159.1),沐俊卫,程远平,沈怀津,沈士成,王海锋,王亮

不波动薄煤层组条件下被维护煤层的卸压瓦斯抽采办法(CN200710021163.8),程远平,沐俊卫,王海锋,周宗勇,陈刚,吴祥

突出风险煤层平安导喷钻进的办法及安装(CN200710021162.3),程远平,沐俊卫,沈永铜,刘洪永

低透气性高瓦斯软厚煤层近程卸压瓦斯抽放办法(CN03113094.1),袁亮,俞启香,李平,程远平,刘永庆,廖斌琛,金学玉,童云飞,叶发先,蒋承林

 

软件著作权:

煤矿瓦斯管理进程跟踪条理软件V1.0,程远平,王亮,侯少杰(学)

煤矿瓦斯管理智能辅佐设计条理软件V1.0,程远平,王亮,侯少杰(学)

讲授运动

主授课程为:平安新技能、矿业平安学、博士学科专题讲座、煤矿瓦斯地质等

指点先生状况

指点博士研讨生45人,此中已获博士学位29人。指点硕士研讨生98人,此中已获硕士学位74

我的团队

一、团队传承

俞启香,传授,博士生导师,十大老品牌网赌平安技能及工程学科的开创人之一,是我国闻名的煤矿瓦斯灾祸防治专家,天下榜样教员,江苏省初等学校良好共产党员,1992年起享用当局特别补助。

二、团队构成

俞启香 传授

1957年结业于北京矿业学院(十大老品牌网赌前身)采矿工程专业,之后留校任教

1989年在波兰国度迷信院地层力学研讨所讲学及学术拜访

1989年在波兰国度迷信院地层力学研讨所讲学及学术拜访

结合国开辟方案署中国项目瓦斯题目专家

煤炭产业瓦斯防治专家组专家、中国煤炭产业休息维护迷信技能学会瓦斯防治专业委员副主任委员

1978年获天下迷信大会奖,2003年获国度迷信技能提高二等奖,先后获5项省部级科技提高一、二等奖、10项省部级科技提高三等奖。发布学术论文100余篇,被EI、ISTP收录30篇

袁    亮 院士

淮南矿业(团体)有限责任公司总工程师

煤矿瓦斯管理国度工程研讨中央主任

十大老品牌网赌平安工程学院院长

安徽理工大学煤与瓦斯共采重点实行室主任

2009年中选为中国工程院动力与矿业工程学部院士

2007年以来,先后获国度科技提高二等奖5项(此中,排名第一3项,排名第三2项),获省部级特等奖、一等奖6项(均排名第一),并获国度创造专利9项

发布论文40多篇(此中EI收录9篇),出书专著3部

程远平 传授

煤矿瓦斯管理国度工程研讨中央常务副主任

十大老品牌网赌平安工程学院副院长

国度平安消费专家组专家

中国消防协会常务理事、江苏省消防协会常务理事

《采矿与平安工程学报》等期刊编委

掌管国度严重根底研讨项目(973)课题2项、国度科技攻关项目课题5项,中国工程院严重战略征询项目1项,国度天然迷信基金项目5项,企业委托项目总经费约15000万元

青年教员博士群体

王海锋传授、王亮副传授、周红星副传授、吴冬梅副传授、刘海波副传授、刘洪勇副传授、李伟副传授、蒋静宇讲师

三、团队次要研讨偏向

(一)团队效劳矿区

(二)瓦斯赋存纪律

(三)维护层开采及卸压瓦斯抽采

(四)低浸透性煤层瓦斯强化抽采

(五)消弭突出风险目标体系

(六)平安办理及预警技能体系

(七)瓦斯管理结果技能保证

(八)分区分级平安经济一体化技能体系

四、团队次要研讨效果

国度级科技嘉奖2项

省部级科技嘉奖14项

国度创造专利40余项

软件著作权2项

学术专著7部

五、团队实行室建立

(一)瓦斯根底参数测定实行

(二)瓦斯吸附解吸实行

(三)超临界二氧化碳实行

(四)煤岩三轴浸透性实行

(五)含瓦斯煤体变形实行

(六)采动卸压及浸透性实行

(七)煤与瓦斯突出突出模仿实行

(八)CO2/N2驱替煤层CH4实行

六、团队人才培育

指点博士研讨生45人,此中已获博士学位29人。指点硕士研讨生98人,此中已获硕士学位74人

Baidu
sogou