个人荣誉称号:
1.国家级人才工程(2020)
2.江苏省“六大人才高峰”高层次人才(2018)
3.江苏省高校“青蓝工程”中青年学术带头人(2016)
4.宁夏回族自治区高等学校特聘教授(2018)
5.全国煤炭青年科学技术奖(2017)
6.绿色矿山青年科学技术奖(2020)
7.“全国高等学校矿业石油安全工程领域优秀青年科技人才”提名奖(2018)
8.江苏省优秀硕士学位论文指导教师(2017)
9.全国高校安全科学与工程大学生实践与创新作品大赛优秀指导教师(2020)
10.中国矿业大学本科毕业论文优秀指导教师(2020)
11.中国矿业大学“青年五四奖章”(2019)
12.2019年中国矿业大学优秀研究生导师团队(骨干)
13.中国矿业大学2016-2018年度“优秀教学科研群体”(负责人)
14.《煤炭科学技术》杂志青年专家委员会2017年度优秀青年专家委员
15.中国矿业大学首批“双带头人”教师党支部书记(2018)
16.中国矿业大学2016-2018年度“优秀共产党员”
17.中国矿业大学2016-2018年度“十佳青年教职工”
18.《Safety Science》“Outstanding Contribution Reviewer”(2017)
19.中国矿业大学本科教学工作审核评估先进个人(2017)
20.《Journal of Natural Gas Science and Engineering》“Outstanding Contribution Reviewer”(2015)
21.中国矿业大学2012-2014年度“优秀共产党员”
22.中国矿业大学第八批校级青年学术带头人(2014)
23.中国矿业大学校优秀青年骨干教师(2013)
24.中国矿业大学创先争优活动优秀共产党员(2012)
25.中国矿业大学2011年度优秀班主任
科研获奖:
1.江苏省科学技术奖二等奖,排名2(2013)
2.安徽省科学技术奖二等奖,排名2(2015)
3.江苏省科学技术奖二等奖,排名8(2016)
4.安徽省科学技术奖三等奖,排名2(2012)
5.中国煤炭工业科学技术奖一等奖,排名3(2013)
6.中国煤炭工业科学技术奖一等奖,排名7(2012)
7.中国煤炭工业科学技术奖一等奖,排名8(2008)
8.中国职业安全健康协会科学技术奖二等奖,排名1(2013)
9.中国煤炭工业科学技术奖二等奖,排名3(2018)
10.中国煤炭工业科学技术奖二等奖,排名8(2012)
11.中国煤炭工业科学技术奖二等奖,排名13(2013)
12.中国煤炭工业科学技术奖三等奖,排名2(2012)
13.中国煤炭工业科学技术奖三等奖,排名2(2015)
14.中国煤炭工业科学技术奖三等奖,排名6(2016)
15.山东省高等学校科学技术奖三等奖,排名3(2018)
教学获奖:
1.《矿井瓦斯防治》国家级“十二五”规划教材,排名4(2014)
2. 高等教育“十三五”规划教材,排名3(2018)
3.中国矿业大学教学成果奖特等奖,排名1(2020)
4.全国煤炭行业教学成果奖二等奖,排名1(2020)
5.全国煤炭行业教学成果奖一等奖,排名3(2020)
6.中国矿业大学教学成果奖特等奖,排名1(2018)
7.全国煤炭行业教育教学成果奖特等奖,排名2(2017)
8.全国煤炭行业教育教学论文一等奖,排名6(2017)
9.江苏省高等学校优秀多媒体教学课件(二类),排名2(2013)
10.中国矿业大学2018年本科实习教学改革优秀案例一等奖,排名2(2018)
1.Wang, Liang*.; Cheng, Yuan Ping*.; Wang, Lei.; Guo, Pin Kun.; Li, Wei. Safety line method for the prediction of deep coal-seam gas pressure and its application in coal mines. Safety Science 2012, 50 (3), 523-529.
2.Wang, Liang*.; Cheng, Yuan Ping*.; Ge, Chun Gui.; Chen, Jia Xiang.; Li, Wei.; Zhou, Hong Xing.; Hai-Feng, Wang. Safety technologies for the excavation of coal and gas outburst-prone coal seams in deep shafts. International Journal of Rock Mechanics & Mining Sciences 2013, 57 24-33.
3.Wang, Liang*.; Cheng, Yuan Ping*.; Xu, Chao.; An, Feng Hua.; Jin, Kan.; Zhang, Xiao-lei. The controlling effect of thick-hard igneous rock on pressure relief gas drainage and dynamic disasters in outburst coal seams. Natural Hazards. 2013, 66 (2), 1221-1241.
4.Wang, Liang*.; Cheng, Yuan Ping*.; An, Feng Hua.; Zhou, Hong Xing.; Kong, Sheng Li.; Wang, Wei. Characteristics of gas disaster in the Huaibei coalfield and its control and development technologies. Natural Hazards. 2014, 71 (1), 85-107.
5.Wang, Liang*.; Cheng, Long Biao.; Cheng, Yuan Ping*.; Yin, Guang Zhi.; Cai, Chun Cheng.; Xu, Chao.; Jin, Kan. Thermal effects of magmatic sills on coal seam metamorphism and gas occurrence. Bulletin of Volcanology. 2014, 76 (4), 803.
6.Wang, Liang.; Cheng, Long Biao.; Cheng, Yuan Ping*.; Yin, Guang Zhi.; Xu, Chao.; Jin, Kan.; Yang, Quan Lin. Characteristics and evolutions of gas dynamic disaster under igneous intrusions and its control technologies. Journal of Natural Gas Science and Engineering. 2014, 18 164-174.
7.Wang, Liang*.; Cheng, Long-biao.; Cheng, Yuan-ping*.; Liu, Shimin.; Guo, Pin-kun.; Jin, Kan.; Jiang, Hai-na. A new method for accurate and rapid measurement of underground coal seam gas content. Journal of Natural Gas Science and Engineering. 2015, 26 1388-1398.
8.Wang, Liang.; Liu, Shimin*.; Cheng, Yuan-Ping*.; Yin, Guang-zhi.; Guo, Pin-kun.; Mou, Jun-hui. The effects of magma intrusion on localized stress distribution and its implications for coal mine outburst hazards. Engineering Geology. 2017, 218 (23), 12-21.
9.Wang, Liang*.; Chen, Er-tao.; Liu, Shimin.; Cheng, Yuan-ping*.; Cheng, Long-biao.; Chen, Ming-yi.; Guo, Hai-jun. Experimental study on the effect of inherent moisture on hard coal adsorption-desorption characteristics. Adsorption-Journal Of the International Adsorption Society. 2017, 23 (5), 723-742.
10.Wang, Liang.; Liu, Shimin.; Cheng, Yuanping.; Yin, Guangzhi.; Zhang, Dongming.; Guo, Pinkun*. Reservoir reconstruction technologies for coalbed methane recovery in deep and multiple seams. International Journal Of Mining Science And Technology. 2017, 27 (2), 277-284.
11.Wang, Liang.; Lu, Zhuang.; Chen, Da-peng.; Liu, Qing-quan*.; Chu, Peng.; Shu, Long-yong.; Ullah, Barkat.; Wen, Zhi-jie*. Safe strategy for coal and gas outburst prevention in deep-and-thick coal seams using a soft rock protective layer mining. Safety Science. 2020, 129 104800.
12.Dong, Jun.; Cheng, Yuanping.; Wang, Liang*.; Guo, Pinkun. Establishment of the equivalent structural model for the tectonic coal and some implications for the methane migration. Rsc Advances. 2020, 10 (17), 9791-9797.
13.Chen, Xiangjun.; Du, Yunfei.; Wang, Liang*.; Zhao, San. Evolution and application of airflow permeability characteristics of gob in roof cutting and pressure releasing mining method. Energy Science & Engineering. 2020, 8 (6), 2073-2085.
14.Zhang, Kaizhong.; Cheng, Yuanping*.; Wang, Liang*. Experimental study on the interactions of supercritical CO2 and H2O with anthracite. Energy Sources Part a-Recovery Utilization And Environmental Effects. 2018, 40 (2), 214-219.
15.Zhang, Kaizhong.; Wang, Liang*.; Cheng, Yuanping*.; Li, Wei.; Kan, Jin.; Tu, Qingyi.; Jiang, Jingyu. Geological Control of Fold Structure on Gas Occurrence and Its Implication for Coalbed Gas Outburst: Case Study in the Qinan Coal Mine, Huaibei Coalfield, China. Natural Resources Research. 2020, 29 (2), 1375-1395.
16.Wang, Wei.; Wang, Liang.; Yang*, Rui.; Zhang, Hui.; Ren, Changxing.; Yang, Juntao. Investigation of the effect of low pressure on fire hazard in cargo compartment. Applied Thermal Engineering. 2019, 158 113775.
17.Liu, Qingquan.; Cheng, Yuanping*.; Dong, Jun.; Liu, Zhengdong.; Zhang, Kaizhong.; Wang, Liang*. Non-Darcy Flow in Hydraulic Flushing Hole Enlargement-Enhanced Gas Drainage: Does It Really Matter? Geofluids. 2018, 1-15.
18.Zhang, Kaizhong.; Cheng, Yuanping.; Wang, Liang.; Dong, Jun.; Hao, Congmeng.; Jiang, Jingyu. Pore morphology characterization and its effect on methane desorption in water-containing coal: An exploratory study on the mechanism of gas migration in water-injected coal seam.Journal of Natural Gas Science And Engineering. 2020, 75.
19.Zhang, Xiao-lei.; Cheng, Yuan-ping.; Wang, Liang*.; Zhao, Wei. Research on the controlling effects of a layered sill with different thicknesses on the underlying coal seam gas occurrence. Journal of Natural Gas Science and Engineering. 2015, 22 406-414.
20.Guo, Haijun.; Cheng, Yuanping*.; Yuan, Liang*.; Wang, Liang.; Zhou, Hongxing. Unsteady-State Diffusion of Gas in Coals and Its Relationship with Coal Pore Structure. Energy & Fuels. 2016, 30 (9), 7014-7024.
21.Chen, Er-Tao.; Wang, Liang*.; Cheng, Yuan-Ping*.; Guo, Hai-Jun.; Hao, Cong-Meng.; Qi, Yu-Xiao.; Liu, Fei. Pulverization characteristics of coal affected by magmatic intrusion and analysis of the abnormal gas desorption index on drill cuttings. Adsorption Science & Technology. 2018, 36 (1-2), 805-829.
22.Guo, Haijun.; Cheng, Yuanping*.; Ren, Ting.; Wang, Liang.; Yuan, Liang.; Jiang*, Haina.; Liu, Hongyong. Pulverization characteristics of coal from a strong outburst-prone coal seam and their impact on gas desorption and diffusion properties. Journal of Natural Gas ence and Engineering. 2016, 33 867-878.
23.Zhang, Kaizhong.; Liu, Qingquan.; Jin, Kan.; Wang, Liang*.; Cheng, Yuanping*.; Tu, Qingyi. Influence of Overlying Caprock on Coalbed Methane Migration in the Xutuan Coal Mine, Huaibei Coalfield, China: A Conceptional Analysis on Caprock Sealability. Geofluids. 2019, 2019 (12), 1-17.
24.Cheng, Long Biao.; Wang, Liang*.; Cheng, Yuan Ping*.; Jin, Kan.; Sun, Li Shuo. Gas desorption index of drill cuttings affected by magmatic sills for predicting outbursts in coal seams. Arabian Journal of Geoences. 2016, 9 (1), 61.
25.Chu, Peng.; Liu, Qingquan.; Wang, Liang*.; Chen, Ertao.; Liao, Xiaoxue.; Liu, Yuanyuan.; Huang, Wenyi.; Cheng, Yuanping. Effects of pore morphology and moisture on CBM-related sorption-induced coal deformation: An experimental investigation. Energy Science & Engineering 2021.
26.Yi, Minghao.; Wang, Liang*.; Liu, Qingquan.; Hao, Congmeng.; Wang, Zhenyang.; Chu, Peng. Characteristics of Seepage and Diffusion in Gas Drainage and Its Application for Enhancing the gas utilization rate. Transport In Porous Media 2021, 137 (2), 417-431.
27.Liao, Xiaoxue.; Wang, Liang*.; Zhu, Jintuo*.; Chu, Peng.;Liu, Qingquan.; Yang, Tao. Experimental Study on the Wettability of Tectonic Soft Coal in Huaibei Mining Area, China. Energy Fuels 2021, 35 (8), 6585-6599.
28. 王亮, 程远平, 翟清伟, 葛春贵, 陈家祥, 姜海纳. 厚硬火成岩下突出煤层动力灾害致因研究 煤炭学报, 2013, 38(8): 1368-1375. EI
29. 王亮, 蔡春城, 徐超, 程龙彪 海孜井田岩浆侵入对下伏煤层的热变质作用研究 中国矿业大学学报, 2014, 43(4): 569-576. EI
30.王亮, 程龙彪, 蔡春城, 徐超, 王伟 岩浆岩热事件对煤层变质程度和吸附-解吸特性的影响 煤炭学报, 2014, 39(7): 1275-1282. EI
31.Wang Liang*,Cheng Yuanping,Yang Yuekui,Chen Haidong,Li Peiqing,et al.. Controlling the effect of a distant extremely thick igneous rock in overlying strata on coal mine disasters Mining Science and Technology,2010,20(4):510-515. EI
32. 王亮,程远平,蒋静宇,郭品坤,王立国,杨云. 巨厚火成岩下采动裂隙场与瓦斯流动场耦合规律研究. 煤炭学报,2010,35(8):1287-1291. EI
33. 王亮,程远平,聂政,王海锋,杨云,刘杰. 巨厚火成岩对煤层瓦斯赋存及突出灾害的影响. 中国矿业大学学报,2011,40(1):29-34. EI
34.王亮,孙毅民,褚鹏*,等. 基于时空分布特征的煤层瓦斯测压准确性研究.中国安全科学学报,2021,31(2) : 40-47.
35.陆壮,王亮*,聂雷,等. 不同变质程度煤体瓦斯解吸迟滞特征实验研究. 西安科技大学学报,2020,40(1) : 88 - 95,132.
36.王亮,郑思文*,赵伟,等.淮北煤田煤与瓦斯突出灾害差异性和控制因素研究.煤炭科学技术,2020,48
(10) : 75-83."
37.高尚,王亮*,高杰,等. 基于分形理论的不同变质程度硬煤孔隙结构试验研究. 煤炭科学技术,2018,46(08):93-100.
38.王亮,廖晓雪*,查梦霞,等.基于主成分分析法的松软煤体煤尘润湿特性研究. 煤炭科学技术,2020,48 (2) : 104-109.
39.张浩,王亮*,代昊.近距离高瓦斯煤层群综采工作面通风方式的选取. 煤矿安全,2015,46(09):130-133.
40.王亮*,陈大鹏,郭品坤,张锐.深部煤层渗透特征及首采关键层卸压改造技术. 煤炭科学技术,2017,45(06):17-23.
41.毋首杰,王亮*.水平螺旋钻杆结构参数对排粉量的影响. 煤矿安全,2018,49(01):107-111.
王亮,刘飞.岩浆盖层下伏煤层物性特征与瓦斯突出灾变机制. 煤炭科学技术,2016,44(06):111-116.
42.王亮*,杨良伟,王瑞雪,等. 岩浆岩床下伏煤层采空区煤自燃致灾机制与防治. 煤炭科学技术,2019,47(1): 125-131.
43.张锐,王亮*,高杰,王小蕾,陈大鹏,高尚.岩浆岩圈闭区煤层钻屑瓦斯解吸指标敏感性研究. 西安科技大学学报,2018,38(03):417-425.
44.王亮,张人伟,裴晓东,李莉.职工心理障碍分析、判定及其对策. 矿业安全与环保,2006(04):72-74.
45.王亮,张人伟,裴晓东,李莉,王涛,郭德贵.易自燃厚煤层采空区自然发火特性的研究. 煤矿安全,2006(02):5-7.