王超杰

发布人:刘伟发布时间:2019-10-23浏览次数:6484

性别:男

出生年月:1992.12

导师类别:硕导

职称:特任副教授

政治面貌:群众

邮箱:superj_wang@163.com

职务:无

办公地点

 工科楼E713

电话/传真:

15965559195

研究方向:

非常规油气安全开采及灾害防治

地址/邮编:

山东省青岛市黄岛区长江西路66号kaiyun体育登录网页入口(华东),266580

 

1、教育经历

2010/09-2014/07  中原工学院   安全工程        工学学士

2014/09-2019/06  中国矿业大学安全科学与工程  工学博士

2、工作经历

2019/10-2022/03    kaiyun体育登录网页入口(华东)安全科学与工程系讲师/博士后

2022/04-至今      kaiyun体育登录网页入口(华东)安全科学与工程系特任副教授

3、研究领域/招生方向

[1] 油气安全工程

[2] 风险分析与控制

[3] 应急技术及管理

[4] 工业灾害预防与控制

4、主讲课程

[1]《安全文化》

[2]《通风与除尘技术》

[3]《安全原理》(继续教育学院)

5、主持项目

[1] 国家自然科学基金青年项目:多变力学响应下煤体裂纹动态扩展行为及气固互馈协同作用机制,2022/01-2024/12

[2] 中国博士后科学基金面上项目:采动煤体损伤诱发层裂结构动态响应机制,2020/06-2022/03 

[3] 青岛市博士后应用型项目:煤巷工作面突出预测钻孔边界效应及布局模式,2020/03-2021/10

[4] kaiyun体育登录网页入口(华东)自主创新青年项目:井下储气煤层采掘工作面孕突过程中应力-瓦斯互馈协作力学机制,2022/04-2025/03   

[5] kaiyun体育登录网页入口(华东)自主创新青年项目:煤巷工作面突出危险性判定临界模型及可行性研究,2020/01-2021/10

[6] 江苏省研究生科研与实践创新计划,2018/03-2019/03

[7] 煤矿瓦斯与火灾防治教育部重点实验室开放课题(3项),2017/03-2018/12

[8] 中国矿业大学中央高校基本科研专项资金A类项目,2018/03-2019/12

[9] 承担中石化、中石油、河南神火集团等企业技术开发与科技攻关项目

6、论著专利

在《Fuel》、《Rock Mechanics and Rock Engineering》、《Process Safety and Environmental Protection》、《Journal of Natural Gas Science and Engineering》、《煤炭学报》等国内外领域顶级/权威期刊上以第1/通讯作者发表SCI/EI检索论文16篇,SCI他引490余次,同行匿名评价:useful one’、‘new insights’、‘exciting report’、‘worthwhile to follow’等.10个国家/地区的46个高校/事业单位正面引用;申请/授权发明专利8项,代表成果如下:

[1] Wang Chaojie, Li Xiaowei, et al., 2021, Dynamic characterization during gas initial desorption of coal particles and its influence on the initiation of coal and gas outbursts. Processes.

[2] Wang Chaojie, Li Xiaowei, et al., 2020. Study on factors influencing and the critical value of the drilling cuttings weight: an index for outburst risk prediction [J]. Process Safety and Environmental Protection, 140: 356-366.

[3] Wang Chaojie, Yang Shengqiang, et al., 2019. Comparison of the initial gas desorption and gas-release energy characteristics from tectonically-deformed and primary-undeformed coal [J]. Fuel, 238: 66-74.

[4] Wang Chaojie, Yang Shengqiang, et al., 2018. Experimental analysis of the intensity and evolution of coal and gas outbursts [J]. Fuel, 226: 252-262.

[5] Wang Chaojie, Yang Shengqiang, et al., 2018. The correlation between dynamic phenomena of boreholes for outburst prediction and outburst risks during coal roadways driving [J]. Fuel, 231: 307-316.

[6] Wang Chaojie, Yang Shengqiang, et al., 2018. Influence of coal moisture on initial gas desorption and gas-release energy characteristics [J]. Fuel, 232: 351-361.

[7] Wang Chaojie, Yang Shengqiang, 2018. Simulation of the hazard arising from the coupling of gas explosions and spontaneously combustible coal due to the gas drainage of a gob [J]. Process Safety and Environmental Protection, 118: 296-306.

[8] Wang Chaojie, Yang Shengqiang, et al., 2017. A method of rapid determination of gas pressure in a coal seam based on the advantages of gas spherical flow field [J]. Journal of Natural Gas Science and Engineering, 45: 502-510.

[9] Wang Chaojie, Yang Shengqiang, et al., 2019. Study on the failure characteristics of concrete specimen under confining pressure [J]. Arabian Journal for Science and Engineering, 44, 41194129.

[10] Wang Chaojie#, et al., 2019. Experimental study on the damage evolution of gas-bearing coal and its electric potential response [J]. Rock Mechanics and Rock Engineering, 52: 4589-4604.

[11] Wang Chaojie*, et al., 2022. Influence of temperature on gas desorption characterization in the whole process from coals and its application analysis on outburst risk prediction [J]. Fuel, 321: 124021.

[12] Wang Chaojie*, et al., 2021. Investigation on coal spontaneous combustion in the gob of Y type ventialtion caving face: A case study [J]. Process Safety and Environmental Protection, 148: 590-603.

[13] Wang Chaojie*, et al., 2020. Determination of critical value of an outburst risk prediction index of working face in a coal roadway based on initial gas emission from a borehole and its application: A case study [J]. Fuel, 267:117229.

[14] Wang Chaojie*, et al., 2019. Experimental study on the influence of coal oxidation on coal and gas outburst during invasion of magmatic rocks into coal seams [J]. Process Safety and Environmental Protection, 124: 213-222.

[15] Wang Chaojie*, et al., 2018. Design of gas drainage modes based on gas emission rate in a gob: A simulation study [J]. Arabian Journal of Geosciences, 11: 456-467.

[16] 王超杰, 杨胜强, 蒋承林等, 2017. 煤巷工作面突出预测钻孔动力现象演化机制及关联性探讨[J].煤炭学报, 42(9): 2327-2336 (EI).

[17] 一种煤层注水消突方法. 发明专利号:CN202010855777.1

[18] 一种煤矿井下工作面突出预测多指标智能监测装置.发明专利号:CN202010947322.2

[19] -水两相流诱发裂隙内煤粉启动运移可视化系统、方法. 发明专利号:CN202111440213.2.

[20] 一种低阻力高热容麻花钻杆及使用方法,发明专利号:ZL201610807138.1.

[21] 立井井筒揭穿特厚松软突出煤层的快速泄压排放瓦斯方法,发明专利号:ZL201610973245.1.

[22] 一种井下高应力松软煤层可重复掏孔抽采瓦斯方法,发明专利号:ZL201610225958.X.

[23] Method for calculating internal explosion load speed based on incremental crack growth distance of pipeline. US patent.

[24] 作大会报告:The 12th InterPore Annual meeting-国际多孔介质协会(2020/09

[25] 作专题报告:美国石油地质学家协会AAPG Asia Pacific Presents2020/11

[26] 作大会报告:第六届煤炭行业青年科学家论坛(2020/10

7、获奖荣誉

[1] 2020年,中国煤炭工业科技进步二等奖,排名第1

[2] 2019年,中国煤炭工业科技进步三等奖,排名第4

[3] 2021年,河南省煤炭科学技术进步一等奖,排名第1

[4] 2021年,kaiyun体育登录网页入口(华东)‘十佳百优’优秀班主任

[5] 2019年,中国矿业大学‘瓦斯-好学’博士

[6] 2018年,中国矿业大学优秀创新博士

[7] 2017年,中国矿业大学研究生学术论文大赛“一等奖”,排名第1

[8] 2016年,中国矿业大学学术道德与学风建设主题征文“二等奖”,排名第1

[9] 2020/2022年,作为技术总负责人完成的2项课题(主研井下煤层气高效开采及防突关键技术体系),经中国煤炭工业协会鉴定‘整体国际先进水平’(均排名第2

8、学术兼职

[1] 中科院2SCI期刊Int. J. Min. Sci. Technol.中青年编委

[2] 《矿业安全与环保》期刊第一届青年专家学术委员会委员

[3] 中国职业安全健康协会、中国岩石力学与工程学会、中国煤炭学会个人会员

[4] FuelPowder TechnologyEnergy&Fuels1/220余个SCI期刊审稿专家

[5] 煤炭行业标准评审/国际学术会议论文评审/国研评审中心论文评审等特邀专家

常用链接

地址:山东省青岛市黄岛区长江西路66号工科楼E座     电话:0532-86983300     邮箱:jdkyb@upc.edu.cn
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