邓存宝
邓存宝
教授,职务
dengcunbao@tyut.edu.cn
教育背景
200209-200604 辽宁工程技术大学 安全技术及工程专业,获博士学位;
198909-199201 阜新矿业学院 采矿工程专业,获硕士学位;
198409-198807 阜新矿业学院 采矿工程专业,获学士学位。
工作经历
201807-至202407 太原理工大学安全与应急管理工程学院院长。
201805-201807 辽宁工程技术大学安全科学与工程学院院长;
201103-201807 山西焦煤西山煤电有限责任公司总经理/董事长助理(挂职);
200903-201807 辽宁工程技术大学安全工程技术研究院院长;
200607-201012 辽宁工程技术大学/大同煤矿集团有限责任公司 力学博士后流动站/工作站联合培养;
200604-200903 辽宁工程技术大学 安全科学与工程学院副教授、教授
199303-200604 大同矿务局安监局科长;
198807-199303 大同矿务局燕子山矿技术员。
教学工作
本科生课程 《。。。。。。。》
研究生课程 《。。。。。。。》
山西省教改项目:。。。。。。。
。。。。。。。。
研究领域
学科方向:安全科学与工程、矿业工程
研究方向:1、煤自燃量子化学理论
2、电厂烟气注入煤矿采空区防灾与封存一体化技术
3、煤层瓦斯抽采理论与关键技术
4、构建了矿井乏风通入燃煤锅炉混烧增热理论与技术
5、无通风智能开采关键理论与技术
6、无通风智能掘进理论与技术
7、复杂通风条件下灾害智能管控理论与技术
科研概况及项目
202108-202212,矿井透水智能应急救援系统研究,晋能控股煤业集团有限公司,企业委托横向课题,3800万元,在研,主持
202006-202112,煤岩体系瓦斯赋存及运移规律研究,华晋焦煤有限责任公司,企业委托横向课题,2020140001000047,248万元,结题,主持
201912-202010,大南湖一矿火电厂烟气预防采空区煤炭自燃及预处理技术研究与应用,国网能源哈密煤电有限公司,企业委托横向课题,大南湖一矿中介服务类(2019)53号,2209.5万元,结题,主持
201907-202012,双系煤层多层采空区漏风及采空区遗煤自燃防控技术研究,大同煤矿集团有限责任公司,企业委托横向课题,155万元,结题,主持
201901-202212,矿井乏风燃煤锅炉混烧氧化机理与应用基础,国家自然科学基金委员会,联合基金项目,U1810206,260万元,资助期满,主持
201801-202112,瓦斯发电尾气注入采空区防灾与封存一体化基础研究,国家自然科学基金委员会,面上项目,51774172,60万元,结题,参与
201201-201512,电厂烟气注入采空区防火与封存基础理论研究,国家自然科学基金基金委员会,面上项目,65万元,结题,主持
201201-201312,同煤集团科技项目,资源整合矿井综合防灭火及开采关键技术35万元,主持
201201-201312,西山煤电科技项目,稀缺炼焦煤资源保护与开采关键技术118万元,主持
201101-201312,同煤集团科技项目,多层采空区流场局部动态平衡技术研究170万元,主持
201101-201312,同煤集团科技项目,大同矿区自然发火理论与火灾防治技术体系研究85万元,主持
201301-201312,西山煤电科技项目,极近距离煤层安全开采关键技术研究120万元,主持
201201-201312,西山煤电科技项目,安全结构理论与管理模式研究 120万元,主持
201201-201312,同煤集团科技项目 双系煤田不对称开发理论与关键技术132万元,主持
201101-201212,电厂烟道废气防灾与封存技术研究与示范,山西省科技厅重大专项,100万元,主持
201101-201212,采空区自燃火灾与瓦斯一体化治理理论与技术,西山煤电科技项目,230万元,主持
201101-201212,西山煤电科技项目,西山煤电瓦斯抽采及利用一体化技术研究,158万元,主持
201101-201212,西山煤电科技项目,西山煤电煤层气抽采利用“十二五”发展规划,40万元,主持
201001-201112,同煤集团科技项目,塔山坑口电厂烟道气体注入矿井替代注氮防灭火技术170万元,参与
200901-201012,龙煤集团双鸭山分公司科技项目,矿山粉尘防治理论基础及技术130万元,参与
200901-201012,同煤集团科技项目,安全开采侏罗系易自燃煤层群多层采空区条件的整体理论与技术研究18.8万元,参与
200801-201212,国家自然科学基金重点项目,煤炭自燃机理及预防技术基础(编号:50834002),200万元,参与
200801-200912,同煤集团科技项目,矿井封闭火灾区内气体变化规律研究48万元,参与
200801-200912,平煤集团科技项目,六家煤矿综放工作面自然发火规律及防治技术研究,68万元,主持
200801-200912,龙煤集团双鸭山分公司科技项目,双矿集团深部围岩动力灾害形成机理与预防技术,90万元,参与
200601-200712,同煤集团科技项目,煤炭自燃的阻化机理研究和阻化剂开发,50万元,主持
200601-200912,科技部,煤自燃危险性测试与评价分析技术(编号:2006BAK03B05),150万元,参与
200601-202212,同煤集团科技项目,大同煤的自燃机理与防治技术研究,23万元,参与
200601-200712,双矿集团科技项目,双矿集团高瓦斯易自燃煤层开采安全技术研究,120万元,参与
200601-200712,双矿集团科技项目,双鸭山矿区围岩应力演化规律及控制技术研究,90万元,参与
200501-200812,国家自然科学基金面上项目,高瓦斯与突出矿井瓦斯异常涌出发生规律的研究(编号:50574047),25万元,参与
200501-200612,神华集团科技项目,薄基岩浅埋煤层自然发火机理及综合防治研究,45万元,参与
200401-200712,国家自然科学基金面上项目,煤的自燃耦合机理与自燃分类方法研究(编号:50474010)23万元,参与
学术成果
1. 专利:邓存宝;许永贵;王延生;王雪峰;郝朝瑜;陈曦;马彦龙;张静,“高瓦斯矿井切顶成巷采空区侧巷帮封堵预制件及使用方法”,CN112253239B。排名一
2. 邓存宝;刘佳;路宁;郝朝瑜;王三伟;雷昌奎;何曙光;张浩,“一种可移动式预防采空区煤自燃的火电厂烟气集成预处理装置”,CN115253626B,排名一
3. 邓存宝;高涛;王三伟;郭晓阳;何曙光;曹景轩;康延雷;王雪峰,“一种电厂烟气注入采空区防灾封存的烟道开孔接管方法”, CN115255830B,排名一
4. 邓存宝;高涛;韩青,“一种电厂烟气除雾装置”,CN218796522U,排名一
5. 邓存宝;高涛;韩青,“一种电厂烟气脱硫装置”,CN218012065U,排名一
6. 邓存宝;郭晓阳;王雪峰;金智新;范楠;陈曦;郝朝瑜;王延生,“一种多分支水平井煤层瓦斯抽采物理模拟实验系统”,CN110700794B,排名一
7. 邓存宝;许永贵;王延生;王雪峰;郝朝瑜;陈曦;马彦龙;张静,“高瓦斯矿井切顶成巷采空区侧巷帮封堵预制件”,CN213360180U,排名一
8. 邓存宝;高涛;吴玉程;金智新;王雪峰;郝朝瑜;陈曦;王延生;韩青,“一种注烟气预防采空区煤自燃惰化指标的确定方法”,CN110715878B,排名一
9. 邓存宝;师超;郝朝瑜;陈曦;王雪峰;郭建威;张国祥;曹海亮;孟晓刚;边树鹏,“一种考虑瓦斯预抽的矿井四量合理可采期的计算方法”,CN109408950B,排名一
10. 邓存宝;凡永鹏;王雪峰;李进鹏;张勋;黎凤岐;黄葛;姜小强;戴凤威;王延生;武司苑;王娟;方博,“一种多分支水平井瓦斯抽采方案的评价方法”,CN107578152B,排名一
11. 邓存宝;王雪峰;郭建威;郝朝瑜;陈曦;邓汉忠;张勋;戴凤威;黄戈,“矿井智能通风系统与控制方法”,CN109578048B,排名一
12. 邓存宝;李壮;王延生;崔传波;张浩;王雪峰;郝朝瑜;乔玲;高涛;韩青,“一种无通风开采采区溜煤眼和煤仓及使用方法”,CN112554939B,排名一
13. 邓存宝;金智新;吴玉程;黄庆学;郝朝瑜;王雪峰;武俊诚;陈曦;王延生;杨艳国;李雨成;葛少成;范超男;王宏伟;王晓波,“一种智能开采条件下的煤矿生产系统”,“CN211115991U” ,排名一
14. 邓存宝;王雪峰;邓文浩;王继仁;邓汉忠;李腾达;戴凤威;武司苑,“一种钻孔清理系统及清理方法”,CN105422016B,排名一
15. 邓存宝;金铃子;于斌;邓文浩;杨智文;丛佩超;王雪峰;邓汉忠;王钰博;戴凤威,“一种回收式锚杆锁具”,CN106761866B,排名一
16. 张柏林;邓存宝;藏宇;张露露;王雪峰;张兴华,“一种倾斜式重力热管分期治理矸石山深部积温的方法”,CN112985133B,排名二
17. 王延生;邓存宝;王雪峰;邓汉忠;郝朝瑜;王鑫阳;张勋;戴凤威;陈曦;黄戈;凡永鹏;武司苑;王娟;方博,“一种采煤工作面瓦斯爆炸危险性的评价方法”CN107818425B,排名二
18. 张勋;邓存宝;金智新;王继仁;邓汉忠;王雪峰,“一种煤矿乏风通入燃煤锅炉混烧氧化的分析装置及方法”,CN108982683B,排名二
19. 王继仁;邓存宝;邓汉忠;于斌;王雪峰;杨智文;武福生;郝朝瑜,“一种采矿区的变频调控通风系统及方法”,CN102425442B,排名二
20. 于斌;邓存宝;邓汉忠;郝朝瑜;王雪峰;武福生;项荣;杨智文;王继仁;王爱国;赵君,“矿井回采工作面风压动态平衡的风机变频控制系统及方法”,CN102444606B,排名二
21. 王继仁;邓存宝;孙艳秋;邓汉忠;王雪峰,“预防煤炭自燃的阻化剂及制备方法”,CN101487399B,排名二
22. 王继仁;邓存宝;邓汉忠;王雪峰;孙艳秋;洪林,“煤的自燃危险性判定方法”,CN101271053B,排名二
23. 郭金刚;邓存宝;陈旭忠;邓文浩;王存权;丛佩超;王雪峰;邓汉忠;杨智文;王爱国,“一种用于回收式锚杆锁具的上下锁工具”,CN106481352B,排名二
24. 王延生;刘波;邓存宝;邱孙通;高涛;王雪峰;郝朝瑜;乔玲;郭晓阳;范楠;穆永亮;穆晓刚,“一种无通风采煤工作面自然对流换热物理模拟实验系统”,CN219348704U,排名三
25. 郝朝瑜;王振;邓存宝;李乐;邓宇鹏;靳靖宇;乔玲;周斌;杨王蕊;焦立帆,“一种迟滞耗氧阻化剂及其制备方法”, CN115875068B,排名三
26. 崔传波;黄帆;邓存宝;王晓波;王雪峰;王延生;张浩;郝朝瑜;陈曦,“一种自动调平装置及方法”,CN112594483B,排名三
27. 郝朝瑜;李静远;邓存宝;王雪峰;陈曦;张亚超,“一种井下坚硬顶板的分段水力压裂工作方法”,CN112160792B,排名三
28. 王延生;李壮;邓存宝;杨艳国;王雪峰;郝朝瑜;乔玲;崔传波;王晓波;陈曦;郭晓阳;韩青;高涛,“一种用于无人工作面的分段式皮带运输机及回收方法”,CN113387141B,排名三
29. 崔传波;黄帆;邓存宝;王延生;王雪峰;王晓波;张浩;郝朝瑜;陈曦,“一种自动手动联合调平装置及方法”,CN112781560B,排名三
30. 郭晓阳;郝晨光;邓存宝;王雪峰;王延生,“一种采动过程中煤岩体系瓦斯运移物理模拟实验系统”,CN114636807B,排名三
31. 郝朝瑜;李静远;邓存宝;王雪峰;陈曦;张亚超,“一种井下岩石顶板垮落步距的安全评估方法”,CN112182841B
32. 崔传波;蒋曙光;邓存宝;高翔宇,“一种温敏爆裂胞衣阻化剂及其制备方法”,CN111287786B,排名三
33. 崔传波;陈艳坤;邓存宝;王雪峰;王延生;王晓波;贾贝贝,“一种汽车上下坡LED远光灯调节装置”,CN112050164B,排名三
34. 王雪峰;武俊成;邓存宝;吴玉程;金智新;郝朝瑜;王延生;杨艳国,“一种用于智能开采运输顺槽的带式运输机”,CN211970690U,排名三
35. 张勋;杨晶;邓存宝;金智新;王继仁;张大明;黄戈,“一种沿空留巷工作面Y型通风调压防灾方法”,CN109252884B,排名三
36. 黄戈;王继仁;邓存宝;郝朝瑜;王雪峰;王鑫阳;张勋;戴凤威;陈曦;凡永鹏,“一种近距离煤层多点自反馈注氮防灭火系统及控制方法”,CN108868864B,排名三
37. 王雪峰;刘雅君;邓存宝;褚歌;李腾达;戴凤威;邓汉忠;郝朝瑜;张勋;李晓峰,“一种矿用气雾阻化剂喷洒方法”,CN108316962B,排名三
38. 张勋;高飞;邓存宝;戴凤威,“一种矿井多层采空区连通区域判定方法”,CN105574262B,排名三
39. 张勋;王鑫阳;邓存宝;王雪峰;戴凤威;黄戈;王延生;凡永鹏,“一种自反应生成二氧化碳的采空区防火灭火装置”,CN207640839U,排名三
40. 戴凤威;邓汉忠;邓存宝;王雪峰;高飞;武司苑,“一种抑制高硫煤自燃的阻化剂”,CN105156147B,排名三
41. 张勋;王继仁;邓存宝;金智新;邓汉忠;王雪峰;张效春,“一种矿井多工作面风压整体动态平衡控制系统的控制方法”,CN104329108B,排名三
42. WANG, Xueleng;FAN, Nan;DENG, Cunbao;Guo, Xiaoyang;CHEN, XI;HAO, Chaoyu;WANG, Yansheng;“PHYSICAL EXPERIMENT BOX BODY FOR MULTI-BRANCH HORIZONTAL WELL GAS EXTRACTION”,Official application No. 2022/11439,排名三
43. 崔传波;宋志强;陈艳坤;邓存宝;王雪峰;王延生;贾贝贝,“一种汽车远光灯照射范围智能调节装置”,CN113212294B
44. 张浩;崔传波;吕文博;邓存宝;王蒙;李状;杨萌萌;袁丹萍,“单斜煤层回采工作面递进式顺层水力造穴施工方法”,CN114086958B
45. 李治刚;吴玉程;梁卫国;邓存宝;王倩倩;郭红光;陈曦,“一种利用超临界CO2和Nano- Silica提高煤层气采收率的方法”,CN111622722B
46. 张勋;王鑫阳;王继仁;邓存宝;金智新;张大明;王雪峰,“一种煤层群多层采空区调压通风模拟分析装置及方法”,CN109162761B
47. 金智新;薛道成;王玉宝;邓存宝;贺志宏;武青林;邓汉忠;李绪萍;张勋,“近距易燃煤层采空区残煤综放复采方法”,CN102900438B
48. 王晓波;吴玉程;易群;邓存宝;史利娟;秦志峰;李聪明,“一种生产高纯钢铁和氢气的系统及方法”,CN111171848B
49. 郝朝瑜;李静远;王雪峰;邓存宝;吴玉程;金智新;王延生;杨艳国;高涛。“一种电厂烟气注入井下防灭火降低烟气中氧含量方法”,CN110735659B
50. WANG, Xuefeng;YANG, Yiqian; ZHANG, Bailin;DENG, Cunbao;“PHASE CHANGE COOLING SMART PROTECTION HELMET USED IN HIGHTERRESTRIAL-HEAT MINE”,Official application No.2022/03062
51. 张柏林;王雪峰;藏宇;张露露;邓存宝;张兴华,“一种斯特林发电及强制对流散热的重力热管装置”,CN112985132B
52. 乔玲;郭亚敏;王延生;王雪峰;邓存宝,“一种测量含水煤样吸附电厂烟气的实验装置”,CN219320288U
53. 张国祥;曹海亮;孟晓刚;边树鹏;邓存宝;郝朝瑜;陈曦;王雪峰;郭建威;师超,“不确定信息条件下的矿井四量合理可采期确定方法”,CN109359393B
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55. 郝朝瑜;陈艳玲;王浩宇;王继仁;邓存宝;司蕊,“一种预防煤自燃的有机脱氧型复合阻化剂及其制备方法”,CN107955612B
56. 张浩;王蒙;姜海纳;崔传波;郝朝瑜;邓存宝;王荀;韩青;高涛,“一种构造煤层掘进工作面递进掩护式顺层水力造穴施工方法”,CN112392538B
57. 郝朝瑜;李静远;张亚超;马艺桐;王雪峰;陈曦;王延生;邓存宝,“一种煤矿井下隔爆装置及方法”,CN113006859B
代表性论文和著作:
[1]Jiren Wang, Zhixin Jin, Cunbao Deng. Quantum chemical theory on coal spontaneous combustion [M],Science Press,2007.
[2]Jiren Wang, Cunbao Deng*, Baichuan Ding. Study on heat transfer in close fire zone of coal mine [J]. Journal of Liaoning Technical University,2003(04):452-454.
[3]Cunbao Deng, Jiren Wang, Lin Hong. Gas transfer law in closed fire zone of a coal mine[J]. J Liaoning Tech Univ, 2004, 23(3): 296-298.
[4]Cunbao Deng, Jiren Wang, Lin Hong et al. Study on mine fire comprehensive prevention of genetic algorithms optima strategy [J]. Journal of China Coal Society,2004(06):699-703.
[5]Cunbao Deng*, Jiren Wang, Lin Hong. Dynamics study on fractal reaction of oxygen in granular coal [J]. Journal of China Coal Society,2005(05):43-46.
[6]Lin HONG, Jiren Wang, Cunbao Deng, et al. Analysis on infrared spectrum study of significant gas produced by coal spontaneous combustion [J]. Journal of Liaoning Technical University,2006(05):645-648.
[7]Cunbao Deng. Study on coal spontaneous combustion mechanism and the spontaneous combustion danger index [D]. Liaoning Technical University,2006.
[8]Jiren Wang, Cunbao Deng*. The spontaneous combustion theory of coal microcosmic structure and component differences in quantity and quality[J]. Journal of China Coal Society, 2007(12):1291-1296.
[9]Jiren Wang, Cunbao Deng, Hanzhong Deng, et al. Coal surface physical adsorption to oxygen molecules mechanism [J]. Coal Conversion,2007(04):18-21+28.
[10]Hanzhong Deng, Jiren Wang, Cunbao Deng. Coal surface -CH2-CH2OH group chemical adsorption to oxygen [J]. Coal Conversion,2007(04):29-33.
[11]Weidong Lu, JiRen Wang, Cunbao Deng, et al. Hanzhong Deng, et al. Experimental research on inhibitors of coal spontaneous lgnition based on activation energy index [J]. Mining Express,2007(10):45-47+89.
[12]Weidong Lu, Jiren Wang, Cunbao Deng, et al. Infrared spectrum study on significant gas produced by coal spontaneous combustion for Shendong mining area [J]. Coal Mine Accident Prevention and Control,2007(09):1-3+6.
[13]Jiren Wang, Hanzhong Deng, Cunbao Deng, et al. Coal spontaneous combustion producing carbon monoxide and water reaction mechanism research [J]. Computer and Applied Chemistry,2008(08):935-940.
[14]Jiren Wang, Yanqiu Sun, Qingfu Zhang, Cunbao Deng, et al. Basic theory research of coal spontaneous combustion[J]. Journal of Coal Science & Engineering(China),2008,14(02):239-243.
[15]Cunbao Deng, Xuefeng Wang, Jiren Wang, et al. Physical adsorption mechanism of coal surface containing sulfur group adsorption to more oxygen molecule [J]. Journal of China Coal Society,2008(05):556-560.
[16]Jiren Wang, Qingfu Zhao, Cunbao Deng, et al. Microcosmic mechanism of coal surface to multiple gas molecules mixed adsorption [J]. Computers and Applied Chemistry,2008(04):390-394.
[17]Jiren Wang, Zhongtian Liu, Hanzhong Deng, Cunbao Deng, Jian Zhang. Multilayer adsorption mechanism of coal surface adsorption to more oxygen molecule [J]. Computers and Applied Chemistry,2008(03):281-284.
[18]Cunbao Deng, Jiren Wang, Bing Ye, et al. Physical mechanism of a single oxygen molecule adsorbs to the coal surface [J]. Journal of China University of Mining and Technology,2008(02):171-175.
[19]Cunbao Deng, Jiren Wang, Jian Zhang, et al. Reaction mechanism of ethylene production during spontaneous combustion of coal [J]. Journal of China Coal Society,2008(03):299-303.
[20]Jiren Wang, Cunbao Deng *, Hanzhong Deng. Study on the microcosmic mechanism for coal-gas outburst [J]. Journal of China Coal Society,2008(02):131-135.
[21]Yafei Shan, Jiren Wang, Cunbao Deng, et al. Study on influences of different inhibitors on coal spontaneous combustion [J]. Journal of Liaoning Technical University(Natural Science),2008(01):1-4.
[22]Jiren Wang, Yanqiu Sun, Cunbao Deng, et al. coal spontaneous combustion producing water reaction mechanism research [J]. Coal Conversion,2008(01):51-56.
[23]Cunbao Deng, Hanzhong Deng, Jiren Wang, et al. coal surface containing phosphorus group physical adsorption to oxygen molecules mechanism [J]. Coal Conversion,2008(01):1-5.
[24]Jiren Wang, Cunbao Deng *,Yafei Shan, et al. A new classifying method of the spontaneous combustion tendency [J]. Journal of China Coal Society,2008(01):47-50.
[25]Jiren Wang, Qiwen Chen, Cunbao Deng, et al. Reaction mechanism of coal spontaneous combustion producing methane [J]. Journal of China Coal Society,2009,34(12):1660-1664.
[26]Cunbao Deng, Jiren Wang, Hanzhong Deng, et al. Chemical adsorption of O2 adsorbed in the coal surface -CH2-NH2 group [J]. Journal of China Coal Society,2009,34(09):1234-1238.
[27]Cunbao Deng*, Jiren Wang, Xuefeng Wang, et al. Spontaneous coal combustion producing carbon dioxide and water[J]. Mining Science and Technology (China), 2010, 20(1): 82-87.
[28]Chaoyu Hao, Jiren Wang, Rui Si, Cunbao Deng. Prediction of ignition activation energy for coal spontaneous combustion difficulty based on ant colony algorithm and neural network [J]. Microcomputer Information,2010,26(27):18-20.
[29]Chaoyu Hao, Jiren Wang, Qingsheng Fang, Cunbao Deng. Extension engineering method for parameter design of deep-hole controlling presplitting blasting in coal seam and its application [J]. Journal of China Coal Society,2010,35(S1):72-75.
[30]Chaoyu Hao, Jiren Wang, Cunbao Deng, et al. Numerical simulation and actual research on suitable position of roadway driving along next goaf[J]. Journal of Coal Science and Engineering (China), 2010, 16: 125-128.
[31]Chaoyu Hao, Jiren Wang, Zhongjiu Ren, Cunbao Deng. Research on relations between goaf characteristic of fully mechanized sublevel caving mining and distribution of oxygen concentration [J]. Journal of Disaster Prevention and Mitigation Engineering,2011,31(03):323-328.
[32]Xuefeng Wang, Jiren Wang, Cunbao Deng, et al. Research on Ca2+ as an inhibitor for Nitrogen-containing Active Groups in coal[J]. China Accident Prevention and Control Science Journal,2012,22(05):50-55.
[33]Fei Gao, Cunbao Deng, Xuefeng Wang, et al. Coal chemical structure and its instrumental analysis method [J]. Journal of Liaoning Technical University (Natural Science),2012,31(05):720-723.
[34]Xuping Li, Cunbao Deng. High temperature wall and natural convection heat transfer in coal [J]. The Chinese Journal of Geological Hazard and Control,2013,24(04):127-131.
[35]DENG Cun-bao,DAI Feng-wei,DENG Han-zhong. The reaction mechanism of thiophenol type organic sulfur in coal with O2 [J].Journal of China Coal Society,2013,38(08):1471-1475.
[36]WANG Xue-feng; DENG Han-zhong; DENG Cun-bao. Research on Selection of Coal Spontaneous Combustion Inhibitors and Spraying Process [J]. China Accident Prevention and Control Science Journal,2013,23(10):105-109.
[37]LI Xu-ping; Deng Cun-bao. The influence on the heat transfer of saturated fractured rock mass by dip angle of fracture [J]. The Chinese Journal of Geological Hazard and Control,2013,24(03):118-121.
[38]Wang Xuefeng, Deng Cunbao. Research on methane gas to coal adsorption of carbon dioxide gas influence [J]. Computers and Applied Chemistry,2013,30(05):511-514.
[39]LI Xuping, DENG Cunbao. Research on influence of groundwater seepage on environment of mine ventilation roadway [J]. Journal of Water Resources and Water Engineering,2013,24(02):181-183+187.
[40]DAI Feng-wei,DENG Cun-bao,DENG Han-zhong. Theoretical study on the mechanism of the thiophene structure with O2reaction [J]. Journal of China Coal Society,2014,39(04):699-704.
[41]ZHANG Xun;DENG Cun-bao;WANG Xue-feng. Concentration optimal selection of inhibitor for coal spontaneous combustion and application of efficient spraying system [J]. China Accident Prevention and Control Science Journal,2014,24(11):72-76.
[42]WANG Xue-feng;SUN Yan-qiu;LI Li;WANG Ji-ren;DENG Cun-bao. Research on the dynamic characteristics of coal combustion in double extrapolation [J]. Journal of Accident Prevention and Control Science and Technology,2014,10(09):72-76.
[43]WANG Ji-ren;ZHANG Xun;WANG Yu-bo;DENG Cun-bao. Theory of multipoint pressure balance in multilayer goaf by pressure feedback and compensation [J]. Journal of China Coal Society,2014,39(08):1441-1445.
[44]Zhou Jian;Deng Cunbao;Wei Xuzhong. Study on mark gas of coal spontaneous combustion in 4101 fully mechanized working face of Tong'an coal mine [J]. Computers and Applied Chemistry,2014,31(08):937-942.
[45]MAO Yong-qiang;WANG Ji-ren;DENG Cun-bao. Preparation of CoO/CdS Nanocomposite and Its Photocatalytic Degradation of Methylene Blue [J]. Bulletin of the Chinese Ceramic Society,2015,34(11):3209-3213.
[46]DENG Cun-bao*,DAI Feng-wei,DENG Han-zhong. Energy characterization of restraining oxidation effect of Zn2+ on α-thiophenol structure in coal [J]. Journal of China Coal Society,2015,40(09):2117-2123.
[47]ZHOU Jian, DENG Cun-bao. Research on the Spontaneous Combustion "Three Zone"Mining of Fully Mechanized Caving Face [J].Computers and Applied Chemistry,2015,32(07):830-834.
[48]ZHANG Xun;DENG Cun-bao;WANG Ji-ren. Physical analogous simulation on activity law of overlying strata for the depth and large area coal seam group mining [J]. Journal of Accident Prevention and Control Science and Technology,2015,11(06):5-11.
[49]ZHANG Xun;WANG Yu-bo;DENG Cun-bao. Production Capacity Control Model to Protect Mining of Scarce Coking Coal Resource [J]. China Population,Resources and Environment,2015,25(S1):95-97.
[50]ZHANG Xun;WANG Ji-ren;DENG Cun-bao. Mathematical model for the local dynamic balance of multi-goaf air ventilation systems [J]. Journal of Accident Prevention and Control and Environment,2015,15(01):142-144.
[51]Wang Xuefeng;Deng Cunbao;Wang Jiren. Research on carbon monoxide gas to coal adsorption of carbon dioxide gas influence [J]. Computers and Applied Chemistry,2015,32(01):79-82.
[52]Gao Fei;Deng Cunbao;Wang Xuefeng. Experiment study on fire prevention effect of power plant flue gas in goaf [J]. Journal of Accident Prevention and Control Science and Technology,2016,12(11):36-40.
[53]Gao Fei;Deng Cunbao;Wang Xuefeng. Feasibility Analysis on Seal of Power Plant Smoke Injected into the Goaf [J]. Research of Environmental Sciences,2016,29(07):1096-1100.
[54]Gao Fei;Deng Cunbao;Wang Xuefeng. Analysis on feasibility in sealing of smoke injected into goaf [J]. Journal of Accident Prevention and Control Science and Technology,2016,12(07):60-64.
[55]Gao Fei;Deng Cunbao;Wang Xuefeng. Adsorption of power plant flue gas by abandoned coal at normal temperature and pressure [J]. Chinese Journal of Environmental Engineering,2016,10(04):1907-1912.
[56]DENG Cunbao;DAI Fengwei;DENG Hanzhong. Influence of water solvent effect on oxidation characteristics of coal [J]. Journal of Accident Prevention and Control Science and Technology,2016,12(03):88-93.
[57]DAI Fengwei,DENG Cunbao. QUANTUM CHEMISTRY ON RESTRAINING OXIDATION EFFECT OF Zn2+ ONα-ALDEHYDE STRUCTURE IN COAL [J]. Coal Conversion,2016,39(01):6-11.
[58]JIN Zhixin;WU Siyuan;DENG Cunbao. Theoretical calculation of water effect on power plant flue gas adsorption by goaf coal [J]. Journal of Fuel Chemistry and Technology,2017,45(09):1035-1042.
[59]JIN Zhixin;WU Siyuan;DENG Cunbao. H_2O adsorption mechanism in coal basing on Monte Carlo method [J]. Journal of China Coal Society,2017,42(11):2968-2974.
[60]Cunbao Deng, Yongpeng Fan, Xu Zhang, et al. Prediction of methane productivity of multiple branches horizontally-butted well and parameter optimization[J].China Accident Prevention and Control Science Journal,2017,27(11):97-102.
[61]Zhixin Jin, Yansheng Wang, Cunbao Deng. Intension expressing of accidents based on structure theory[J].China Accident prevention and control Science Journal,2017,27(10):38-43.
[62]Xun Zhang, Cunbao Deng, Xuefeng Wang. Study on dynamic deformation of overlying strata and pressure behaviorlaw for extraction of multiple coal seams[J]. Coal Science and Technology,2017,45(09):103-108.
[63]Cunbao Deng, Yongpeng Fan. Coal and gas outburst prediction in working face based on multi- fractal theory[J]. Journal of Liaoning Technical University (Natural Science),2017,36(09):903-908.
[64]Zhixin Jin, Siyuan Wu, Cunbao Deng, et al. Theoretical calculation of water effect on power plant flue gas adsorption by goaf coal[J].Journal of Fuel Chemistry and Technology,2017,45(09):1035-1042.
[65]Cunbao Deng, Fengwei Dai, Hanzhong Deng, et al. Research progress of coal oxidation reaction mechanism in low temperature[J]. Jinneng Holding Science and Technology,2017(04):1-6+10.
[66]DENG Cunbao;DAI Fengwei;DENG Hanzhong. Mechanism of the oxidation process of the aliphatic sulfoether structure in coal [J]. Journal of Chongqing University,2017,40(08):90-98.
[67]GAO Fei,DENG Cunbao,WANG Xuefeng. Analysis on factors affecting sequestration of CO2in coal seam [J]. Chinese Journal of Environmental Engineering,2017,11(08):4653-4659.
[68]WU Siyuan,DENG Cunbao*,DAI Fengwei. Differences of ability and competitiveness on coal adsorbing CO2,O2and N2 [J]. Chinese Journal of Environmental Engineering,2017,11(07):4229-4235.
[69]JIN Zhi-xin;WU Si-yuan;DENG Cun-bao. Competitive adsorption behavior and mechanism of different flue gas proportions in coal [J]. Journal of China Coal Society,2017,42(05):1201-1206.
[70]JIN Zhixin;WANG Yansheng;DENG Cunbao. Research on generalized structure theory [J]. China Accident Prevention and Control Science Journal,2017,27(05):41-46.
[71]CHEN Xi;GE Shaocheng;DENG Cunbao. Study on influence of self-discharging truck speed on dust spreading in open-pit [J]. China Accident Prevention and Control Science Journal,2017,27(04):151-156.
[72]HUANG Ge;WANG Jiren;DENG Cunbao. Numerical simulation of reasonable oxygen content in flue gas for preventing residual coal spontaneous combustion [J]. China Accident Prevention and Control Science Journal,2017,27(03):42-47.
[73]DENG Cunbao, DAI Fengwei,DENG Hanzhong, et al..Mechanism and effect of Fe2+ on restraining oxidation of α-thiophenol structural in the coal[J].Journal of Accident Prevention and Control and Environment,2017,17(01):58-62.
[74]Gao F, Deng C B, Wang X F, et al. Experimental study on adsorbing of flue gas and its application in preventing spontaneous combustion of coal[J]. Adsorption Science & Technology, 2018, 36(9-10): 1744-1754.
[75]Fan Y, Deng C, Zhang X, et al. Numerical study of CO2-enhanced coalbed methane recovery[J]. International Journal of Greenhouse Gas Control, 2018, 76: 12-23.
[76]QIAO Ling, DENG Cunbao, ZHANG Xun, et al. Effect of soaking on coal oxidation activation energy and thermal effect[J]. Journal of China Coal Society,2018,43(09):2518-2524.
[77]DENG Cunbao, QIAO Ling,WANG Xuefeng, et al. Spontaneous combustion characteristics and infrared analysis of soaked lignite[J]. China Accident Prevention and Control Science Journal,2018,28(08):105-110.
[78]HUANG Ge, ZHANG Xun,WANG Jiren, DENG Cunbao, et al. Formation mechanism and prevention technology of spontaneous combustion occurred in overburden goaf in contiguous seams[J]. Coal Science and Technology,2018,46(08):107-113.
[79]DENG Cunbao,ZHANG Kaige, FU Mengchong, et al. Prediction for the outburst of coal and gas based on grey target decision model with positive and negative clouts [J]. Journal of Liaoning Technical University(Natural Science),2018,37(01):31-36.
[80]WANG Juan,JIN Zhixin, DENG Cunbao, et al. Multiple Attribute Decision Making Method for Hesitant Triangular Fuzzy Based on Prospect Theory [J].Operations Research and Management Science,2019,28(07):26-33.
[81]Guo X, Deng C*, Zhang X, et al. Formation law of hydrocarbon index gases during coal spontaneous combustion in an oxygen-poor environment[J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2019, 41(5): 626-635.
[82]Wu S, Deng C, Wang X. Molecular simulation of flue gas and CH4 competitive adsorption in dry and wet coal[J]. Journal of Natural Gas Science and Engineering, 2019, 71: 102980.
[83]Wang Y, Jin Z, Deng C*, et al. Establishment of structure theory for accident prevention and control [J]. Accident Prevention and Control science, 2019, 115: 265-277.
[84]Wu S, Jin Z, Deng C. Molecular simulation of coal-fired plant flue gas competitive adsorption and diffusion on coal[J]. Fuel, 2019, 239: 87-96.
[85]CHEN Xue, WANG Xue-feng, WANG Xun, DENG Cun-bao, CAO Min-min. Effect of highly dispersed Co3O4 on catalytic combustion of ventilation air methane of LaCoO3[J]. Journal of Fuel Chemistry and Technology, 2023, 51(3): 367-375.
[86]DENG Cunbao, FAN Yongpeng, ZHANG Xun. The Numerical simulation of geological sequestration of CO2 in coal seams based on hydraulic-mechanical- thermal coupled model[J].Journal of Engineering Thermophysics,2019,40(12):2879-2886.
[87]WU Yucheng, WANG Xuefeng, BAO Yanke, DENG Cunbao, et al. Forecast analysis of steel-coke-coking coal demand based on China's GDP development[J]. Coal Economic Research,2019,39(11):15-22.
[88]GUO Xiaoyang, DENG Cunbao, FAN Yongpeng, et al. Experimental study on leaf vein bionic gas drainage of multi-branch horizontal wells in coal seams[J]. Chinese Journal of Rock Mechanics and Engineering,2019,38(12):2418-2427.
[89]LI Yucheng, LI Junqiao, DENG Cunbao, et al. Improved algorithm of air quality calculating resistance based on diagonal subnetwork[J]. Journal of China Coal Society,2019,44(04):1147-1153.
[90]DENG Cunbao, JIN Lingzi, CHEN Xi, et al. Influence of high-rise buildings on particulate matter dispersion in urban street canyon[J]. Chinese Journal of Environmental Engineering,2019,13(01):147-153.
[91]Fan N, Wang J, Deng C, et al. Quantitative characterization of coal microstructure and visualization seepage of macropores using CT-based 3D reconstruction[J]. Journal of Natural Gas Science and Engineering, 2020, 81: 103384.
[92]WANG Xiaobo, DENG Cunbao*, DENG Hanzhong, et al. Adsorption mechanism of coal and two oxygen molecules at room temperature[J]. Journal of Taiyuan University of Technology,2020,51(04):615-619.
[93]WU Yucheng, JIN Zhixin, BAO Yanke, DENG Cunbao, et al. Study on the rarity of coking coal based on correlation analysis[J]. Journal of Taiyuan University of Technology,2020,51(02):157-161.
[94]Wang Y, Deng C, Jin Z, et al. Definition and mathematical expression on instability domain of accidents and system structure[J]. Process control and Environmental Protection, 2021, 156: 57-71.
[95]Mu X, Liu J, Gao F, DENG C, et al. Microwave-assisted removal of sulfur in large particle size coal by bromine water[J]. Fuel, 2021, 289: 119838.
[96]Zhou B, Deng C*, Hao J, et al. Experimental study on the mechanism of radon exhalation during coal spontaneous combustion in goaf[J]. Tunnelling and Underground Space Technology, 2021, 113: 103776.
[97]LIU Xiang, CHEN Xi, DENG Cunbao, et al. Simulation study on combustion characteristics of coal mine ventilation airmethane with different gas volume fraction[J]. China Coal,2021,47(12):26-31.
[98]JING Rui, WANG Xuefeng, QIAO Ling, DENG Cunbao, et al. Research status and future prospect of power plant flue gas sealed in goaf[J]. Coal Engineering,2021,53(11):125-130.
[99]JIN Zhixin, LIU Qian, DENG Cunbao, et al. Stochastic fuzzy coupled risk measurement for production accidents[J]. China Accident Prevention and Control Science Journal,2021,31(01):1-7.
[100]Hao C, Zhang Y, He W, DENG Cunbao, et al. Quantum Chemical Calculation of the Effect of NH3 on CO2 Adsorption and Storage in Goaf[J]. Energy & Fuels, 2022, 36(4): 1948-1959.
[101]Chen X, Gao J, Deng C, et al. Experimental study on chemical structure and wetting influence of imidazole ionic liquids on coal[J]. Fuel, 2022, 330: 125545.
[102]Gao T, Deng C, Han Q. Desorption and diffusion characteristics of methane in the non-ventilation working face[J]. Fuel, 2022, 326: 124884.
[103]Wang X, Deng H, Deng C, et al. Study on the spontaneous combustion and oxidation mechanism of low molecular ketone compounds in coal[J]. Fuel, 2022, 321: 124022.
[104]Cui C, Deng H, Deng C*, et al. Study on the effect of low molecular hydrocarbon compounds on coal spontaneous combustion[J]. Fuel, 2022, 318: 123193.
[105]Qiao L, Deng C, Lu B, et al. Study on calcium catalyzes coal spontaneous combustion[J]. Fuel, 2022, 307: 121884.
[106]HUANG Fan, CUI Chuanbo, DENG Cunbao. Research on overlying strata movement and dangerous area of coal spontaneous combustion in goaf in dual-system coal seam mining[J]. Accident Prevention and Control in Coal Mine,2022,53(11):42-47+55.
[107]LIU Xiang, CHEN Xi, DENG Cunbao. Study on the optimum compatibility of mixed combustion with ventilation air methane into coal-fired boiler[J]. Journal of Accident Prevention and Control Science and Technology,2022,18(09):118-124.
[108]LEI Changkui, JIANG Lijuan, DENG Cunbao, et al. Grey relational analysis and prediction on limit parameters of coal spontaneous combustion in goaf[J]. Accident Prevention and Control in Coal Mines,2022,53(09):113-121.
[109]HAO Cuihua, WANG Xuefeng, DU Shuangli, DENG Cunbao, et al. Research Progress in Reducing the Sensitivity of Energetic Crystalline Hazardous Chemicals[J]. Pyrologics,2022(04):65-71.
[110]LI Zhuang, ZHANG Hao, DENG Cunbao. Research on measurement of specific energy of crushing based on particle compression experiment[J]. Accident Prevention and Control in Coal Mines,2022,53(06):7-11.
[111]GUO Limeng, JIN Zhixin, WANG Yansheng, DENG Cunbao, et al. Study on evolution law of system external disturbance based on structure theory[J]. Journal of Accident Prevention and Control Science and Technology,2022,18(05):60-65.
[112]WANG Meng, GUO Xiaoyang, DENG Cunbao. Influence of coal pore development characteristics on in-situ injecting CO2 to replace and drive CH4[J]. Accident Prevention and Control in Coal Mines,2022,53(03):1-8+15.
[113]HE Wenhao, HAO Chaoyu, ZHANG Yachao, DENG Cunbao, et al. Microscopic mechanism analysis of inhibition on methane explosion by diatomite[J]. Journal of China Coal Society,2022,47(10):3695-3703.
[114]WANG Xiaobo, DENG Cunbao*, DENG Hanzhong, et al. Defective perovsite LaMnO3 catalysts for ventilation air methane combustion[J]. Journal of China Coal Society,2022,47(04):1588-1595.
[115]Deng B, Qiao L, Wang Y, DENG Cunbao, et al. Study on the effect of inorganic and organic sodium on coal spontaneous combustion[J]. Fuel, 2023, 353: 129256.
[116]Li Jing, Wu Jianming, Xing Yuzhong, Deng Cunbao, et al. Prediction on gas emission of working face based on unbiased grey Markov model[J]. Mining Research and Development,2023,43(08):58-65.
[117]Cao Linjie, Mu Yongliang, Deng Cunbao. Optimization of Gas Extraction Technology in Shaqu No.1 Mine Coal Rock System[J]. Coal Technology ,2023,42(08):149-153.
[118]Ma Yikun, Yang Yanguo, Qiao Yonggang, DENG Cunbao, et al. Research on multi-direction gas outburst elimination technology of close-distance with extra-thick parting[J]. Mining Research and Development,2023,43(07):131-137.
[119]Chen Xi, Li Weichao, Ge Shaocheng, Deng Cunbao, et al. Test Study on the Optimization of Urea Denitrification and Dust Removal Parameters in Underground Confined Space[J]. Metal Mine,2023(07):106-112.
[120]Cui Chuanbo, Song Zhiqiang, DENG Cunbao. Development of VR system for mine fire escape and Research on psychological load of personnel[J]. Mining Research and Development,2023,43(05):190-196.
[121]Ma Yitong, Hao Chaoyu, He Wenhao, Deng Cunbao, et al. Study on the effect of calcareous mudstone dust on ventilation gas in boiler mixed combustion[J]. Journal of Taiyuan University of Technology,2023,54(03):458-465.
[122]Chen X, Gao J, Deng C, et al. Characterization of the wetting properties of ionic liquids on lignite surfaces: molecular dynamics simulations[J]. Journal of Molecular Liquids, 2023: 122886.
[123]Chen X, Lv J, Fan C, DENG C, et al. The effect of functional ionic liquids on the microstructure and wettability of coals with different metamorphic degrees[J]. Fuel, 2023, 352: 129047.
[124]Huang X, Zhang X, Deng C, et al. Boosting methane catalytic combustion by confining PdO-Pd interfaces in zeolite nanosheets[J]. Fuel, 2023, 344: 127693.
[125]Yuan D, Xiao F, Zhao N, DENG C, et al. Mesoporous poly (ionic liquid) solid acid for sequential dehydration of sorbitol to isosorbide[J]. Chemical Engineering Journal, 2023, 460: 141780.
[126]Xuefeng W, Cuihua H, Shuangli D, DENG C, et al. Density functional theory of SO3 adsorption on the La2CoFeO6 (0 0 1) surface[J]. Fuel, 2023, 333: 126489.
[127]Zhai R, Deng C, Du S, DENG C, et al. A DFT study of CH4 adsorption on OMS-2 (1 1 0) surface with different types of oxygen vacancies[J]. Chemical Physics, 2023, 564: 111708.
[128]Zhang Junhu, Liang Chunhao, DENG Cunbao, et al. Influence of chemical structure of coal measure rock on gas adsorption performance[J]. Accident Prevention and Control in Coal Mines,2023,54(02):15-21.
[129]YANG QM, YUAN DP, DENG CB, et al. Research progress on net carbon sequestration capacity of plants under the background of carbon neutralization[J]. Chinese Journal of Ecology,2023,42(06):1484-1496.
[130]WANG Xuefeng, CAO Minmin, Wang Xun, DENG Cunbao, et al. Co-combustion performance of cobalt based catalyst for ventilation air methane and boiler coal combustion[J]. Journal of China Coal Society, 2023,48(08):3229-3239.
[131]HAO Chenguang, GUO Xiaoyang, DENG Cunbao, et al. Precise identification and threshold inversion of pores and fissures in CT digital coal rock based on Bi-PTI model[J]. Journal of China Coal Society,2023,48(04):1516-1526.
[132]Chen X, Gao J, Deng C, et al. Effect of active composite ionic liquids treatment on chemical structure and wettability of coal[J]. Fuel, 2023, 337: 126885.
[133]Han Q, Deng C, Gao T, et al. Construction of different metamorphic degree coal models and corresponding adsorption characteristics based on molecular simulation[J]. Journal of Molecular Structure, 2023, 1274: 134517.
[134]Li L, Hao C, Zhai R, DENG Cunbao, et al. Study on the mechanism of free radical scavenger TEMPO blocking in coal oxidation chain reaction[J]. Fuel, 2023, 331: 125853.
[135]Ван Цзижэнь, Дэнь Цуньбао*, Дэнь Ханьчжун, Лу Вэйдун Исследование микро механизма физической адсорбции молекул кислорода поверхностью угля // ГИАБ. 2009. №2.
学术兼职
201709-202109中国国际卓越煤矿瓦斯治理中心副理事长;
201004-201304 第四届国家安全生产专家组专家;
201301-至今 国家自然科学基金委评审专家
201001-至今 国家科学技术奖励评审专家 。
201001-至今 国家重点研发计划评审专家。
202305-至今 国家工程领域评审专家
201801-至今 教育部高等学校安全科学与工程类专业教指委委员;
201408-201908 煤炭工业技术委员会委员;
202201-至今 中国应急管理学会专家
202107-至今 中国职业安全健康协会瓦斯灾害防治与利用专业委员会第一届委员会委员;
201011-201411中国煤炭工业劳动保护科学技术学会火灾防治专业委员会委员;
201201-至今 浙江省奖励评审专家
201201-至今 广东省奖励评审专家
201501-至今 山东省奖励评审专家
201801-至今 河南省奖励评审专家
202112-至今 山西省非煤矿山安全生产专家
202003-至今 山西省公共卫生应急专家组组长
201911-至今 山西省应急预案专家
201903-至今 山西省煤炭工业协会专家组长
202209-至今 山西省晋中市委联系服务专家
201811-至今 太原理工大学高级专业技术职务评审委员会委员
201807-至今 太原理工大学安全科学与工程学科带头人
201807-至今 太原理工大学安全科学与工程学科委员会主席
奖励与荣誉
个人荣誉
202209 山西省教授协会“科教兴晋突出贡献专家”;
202011 国务院“全国先进工作者”;
201909 山西省教授协会“山西省科技功勋”
201810 人力部和中国煤炭工业协会“全国煤炭工业先进工作者”;
201812 山西省人才工作领导小组“山西省“三晋英才”高端领军人才称号”;
201704 辽宁省人民政府“辽宁省先进工作者”;
201702 辽宁省人民政府“辽宁省杰出科技工作者”;
201412 人社部“国家百千万人才工程“有突出贡献中青年专家””;
201409 辽宁省人社厅等“辽宁省优秀科技工作者”;
201309 辽宁工程技术大学“先进科技工作者”
201302 国务院“政府特殊津贴”;
201307 辽宁省特聘教授;
200911 辽宁省教育厅等“辽宁省科教文卫系统职业道德标兵”;
200909 辽宁省人社厅、辽宁省科技厅等“辽宁省百千万人才工程百人层次”;
200905 辽宁工程技术大学“科研英才”
200810 辽宁工程技术大学“优秀教师”
200705 辽宁工程技术大学“优秀博士论文”
科研奖励
2022中国煤炭协会技术发明一等奖“煤层瓦斯仿生抽采关键技术与应用”
2021中国煤炭协会科学技术特等奖“老矿区科学转型关键技术与工程应用”
2018中国煤炭协会科学技术一等奖“大同矿区煤层群组不对称开发理论与关键技术”
2016 中国煤炭工业专利一等奖“矿井回采工作面风压动态平衡的风机变频控制系统及方法”
2014 中国煤炭工业协会科学技术一等奖“稀缺炼焦煤资源保护性开采及高回收关键技术”
2014 山西省科技进步奖二等奖“稀缺炼焦煤保护与开采关键技术”
2013 山西省科技进步奖二等奖“瓦斯分源立体抽采及综合利用一体化关键技术”
2013 中国煤炭工业协会科学技术奖二等奖“瓦斯分源立体抽采及综合利用一体化关键技术”
2012 国家科学技术技进步二等奖“大同矿区复杂开采条件煤炭火灾防治关键技术”
2011 山西省科技进步奖二等奖“大同矿区侏罗系近距离多层采空区下防灭火安全开采理论与技术”
2011 中国煤炭工业协会科学技术奖一等奖“大同矿区侏罗系近距离多层采空区下防灭火安全开采理论与技术”
2008 国家科学技术技进步二等奖“煤炭自燃理论及其防治技术研究与应用”
2007 中国煤炭工业协会科学技术奖一等奖“煤炭自燃理论及其应用基础研究”
2007 山西省科技进步奖二等奖“大同煤的自然发火机理与防治技术研究”
2006 国家安全监督管理总局科技进步二等奖《薄基岩浅埋煤层自然发火机理及综合防治研究》