1。国家重点研发计划项目:煤矿热动力灾害防控技术与装备,编号:2018YFC0807900,子课题:瓦斯煤尘爆炸隔抑爆装置及区域联控技术及装备,编号:2018YFC0807905,子任务:采场区域巷道内瓦斯(煤尘)爆炸传播规律及破坏机理,40万,课题骨干研究人员 国家科技部
2.项目名称、云南地区瓦斯与煤自燃复合灾害防治技术及应用研究,云南嘉矿科技发展有限公司,企业委托,104万,项目负责人
3.项目名称: 高瓦斯自燃近距离煤层群煤自燃氧化规律及多重灾害协同防治关键技术及应用研究,盘江环保能源开发股份有限公司山脚树矿 ,企业委托,85万,项目负责人
4.项目名称:阿戛煤矿11800急倾斜煤层综放工作面开采工艺关键技术研究及灾害治理,贵州华瑞鼎兴能源有限公司水城县阿戛乡阿戛煤矿 ,企业委托,256.5万,项目负责人
5.项目名称:云南地区煤矿煤层瓦斯基础参数测定、煤与瓦斯突出危险性区域划分、评估及区域预测和瓦斯涌出量预测,云南博矿科技有限公司 ,企业委托,110万,项目负责人
6. 项目名称:国家自然基金项目:含瓦斯风流对高瓦斯易自燃煤体自燃氧化特性的影响及机理研究,项目编号:51174198,来源:国家自然基金委,经费:60万元,主要承担工作:总负责人,全部内容的策划和实施
7.项目名称:山东万祥矿业有限公司潘西煤矿6199工作面瓦斯防火综合治理研究与应用,山东万祥矿业有限公司潘西煤矿 ,企业委托,45.5万,项目负责人
8.项目名称:无机防灭火材料在81303大采高面自燃灾害防治中的研究与应用,阳泉煤业(集团)股份有限公司,企业委托,68.7648万,项目负责人
9 项目名称:云南省富源县大河镇补木戛煤矿二号井M3M4M5M7M9M11M13M15M16M17M20M21煤层煤与瓦斯突出灾害预评估研究,富源县补木戛煤业有限公司,企业委托,60万,项目负责人
10.项目名称:区域联合综放无煤柱开采Y型工作面通风参数动态优化调整与采空区多场耦合规律研究,山西潞安环保能源开发股份有限公司,企业委托,45.5万,项目负责人
11.项目名称:区域联合综放无煤柱开采全方位瓦斯抽采综合治理技术研究,山西潞安环保能源开发股份有限公司,企业委托,47.6万,项目负责人
12..项目名称:山东万祥矿业有限公司潘西煤矿矸石山自燃治理关键技术研究,山东万祥矿业有限公司潘西煤矿 ,企业委托,29.4万,项目负责人
13.项目名称:1226综采工作面“Y”型通风防灭火专项技术研究,山西汾西矿业(集团)有限责任公司曙光煤矿 ,企业委托,48万,项目负责人
14.项目名称:钱营孜煤矿W3225孤岛工作面瓦斯治理及防灭火技术研究,安徽恒源煤电股份有限公司钱营孜煤矿 ,企业委托,30万,项目负责人
15.项目名称:城郊煤矿二2煤层沿空掘巷卸压带宽度考察与研究,河南省正龙煤业有限公司 ,企业委托,45万,项目负责人
1) Evolutionary Laws and Preventative Measures for the Coal and Rock Dynamic Disasters Around the Boreholes During Coal Bed Methane Extraction in Low-Temperature Oxidation Conditions:A Case Study of the No. 8 2 Reservoir of the Yangliu Coal Mine[J].Arabian Journal for Science and Engineering.2017.11.SCI
2) Coal poresandfracture development during CBM drainage: Theirpromoting effects on the propensity for coal and gas outbursts. Journal of Natural Gas Science and Engineering 2018, 51, 9-17. SCI收录 2018.01.05
3) Free Radical and Functional Group Reaction and Index Gas CO Emission during Coal Spontaneous Combustion.Combustion Science and Technology 2017,51.SCI
4) Spontaneous combustion influenced by surface methane drainage and its prediction by rescaled range analysis.International Journal of Mining Science and Technology 2018.3 28(2):EI.
5) 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, 2017, 42(9)
6) The correlation between dynamic phenomena of boreholes for outburst prediction and outburst risks during coal roadways driving. Fuel. 2018.231, SCI
7) Experimental analysis of the intensity and evolution of coal and gas outbursts. Fuel 2018.3.26, 226, SCI
8) Influence of coal moisture on initial gas desorption and gas-release energy characteristics. Fuel 2018.6.2, 232, 351-361. SCI.
9) Study on the failure characteristics of concrete specimen under confining pressure. Arabian Journal for Science and Engineering. 2018,232, SCI.
10) Whole Process Inhibition of a Composite Superabsorbent Polymer-Based Antioxidanton Coal Spontaneous Combustion[J]. Arabian Journal for Science and Engineering. 2018.3.23, 232, 351-361. SCI.
11) Investigation of the effect of low-temperature Oxidation on extraction efficiency and capacity of Coalbed methane. Process Safety and Environmental Protection. 2018, 117,573-581. SCI收录
12) Evolution Law of Adsorption and Desorption Characteristics of CH4 in Coal Masses during Coalbed Methane Extraction. Energy & Fuels.2018,SCI
13) Risk forecasting for spontaneous combustion of coals at different ranks due to free radicals and functional Groups reaction.Process Safety and Environmental Protection. 2018, SCI
14)Low-temperature oxidation of free radicals and functional groups in coal during the extraction of coalbed methane Fuel 2019. 239, 429-436. SCI.
15)Comparison of the initial gas desorption and gas-release energy characteristics from tectonically-deformed and primary-undeformed coal. Fuel 2018.10.07, 238, 66-74. SCI.
16)Low-temperature oxidation of free radicals and functional groups in coal during the extraction of coalbed methane Fuel 2019年03月. 239, 429-436. SCI.(WOS: 000454904100044)
17)Comparison of the initial gas desorption and gas-release energy characteristics from tectonically-deformed and primary-undeformed coal, 2019. [J]. Fuel, 238, 66-74. (SCI)
18) 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 2019; 124: 213-222.
19) Optimum oxidation temperature of coal bed for methane desorption in the process of CBM extraction [J] Fuel , 2019年11月 262, 116625 (SCI)
20)The characterization of free radical reaction in coal low-temperature oxidation with different oxygen concentration. Fuel 2020.02.15;262.116524 (SCI)
21) Prediction of gas and coal spontaneous combustion coexistingdisaster through the chaotic characteristic analysis of gas indexes ingoaf gas extraction [J]. Process Safety and Environmental Protection 2019; 129: 8-16.
22) Effect of low-temperature oxidation of coal with different metamorphic degrees on coal quality characteristics and outburst comprehensive index. Process Safety and Environmental Protection 2019.12; 132:142-52
23) Forecast of coal spontaneous combustion based on the variations of functional groups and microcrystalline structure during low-temperature oxidation [J]. Fuel 2019; 253: 339-348.
24) Disaster-causing mechanism and risk area classification method for composite disasters of gas explosion and coal spontaneous combustion in deep coal mining with narrow coal pillars [J]. Process Safety and Environmental Protection 2019; 132: 182-188.
25) Risk assessment of dynamic disasters induced by gas injection displacement in coal seams [J]. Process Safety and Environmental Protection 2019; 128: 41-49.
26) Free Radical and Functional Group Reaction and Index Gas CO Emission during Coal Spontaneous Combustion. 190 (2018) 834-848.COMBUSTION SCIENCE AND TECHNOLOGY.
27)A Physical-chemical Synergetic Inhibitor for Coal Spontaneous Combustion and Its Fire Prevention Performance. Combustion Science and Technology 2020.12.
28)Adsorption Characteristics of Soaked Air-dried Coal and Reaction Characteristics of Free Radical Functional Groups in CH4-containing Oxidizing Atmosphere. Combustion Science and Technology 2020.08.
29)Micro-structure of crushed coal with different metamorphic degrees and its low-temperature oxidation. Process Safety and Environmental Protection 2020.08;140:330-8.
30)Restraining effect of nitrogen on coal oxidation in different stages: Non-isothermal TG-DSC and EPR research. International Journal of Mining Science and Technology 2020.05;30(3):387-95.
31)Research of inorganic fire-extinguishing materials on preventing and controlling gas and coal spontaneous combustion in the narrow coal pillar and adjacent goaf. Fire and Materials 2020.08;44(5):660-72.
32) The relationship between functional groups and gaseous productions and micropore structures development of coal oxidized at low temperature under methane-diluted atmospheres. Combustion Science and Technology 2019.08.03;191(8):1337-53.
33)Prediction of gas and coal spontaneous combustion coexisting disaster through the chaotic characteristic analysis of gas indexes in goaf gas extraction. Process Safety and Environmental Protection 2019.09; 129:8-16.
34)Study on the Failure Characteristics of Concrete Specimen Under Confining Pressure. Arabian Journal for Science and Engineering 2019.05;44(5):4119-29.
35)Investigation on coal spontaneous combustion in the gob of Y type ventialtion caving face: A case study. Process Safety and Environmental Protection 2020.11.14,148:590-603.
36)Secondary oxidation of crushed coal based on free radicals and active groups. Fuel 2020.12.20
37)Effect of particle size and low-temperature secondary oxidation on the active groups in coal structures. Process Safety and Environmental Protection 2020.10.31; 149:334-344.
38) Effect of coalbed methane airflow with optimum action concentration on coal oxidation under low temperatures. Asia-Pacific Journal of Chemical Engineering 2020.09; 6
1 名称:瓦斯与煤自燃复合致灾理论及防灭火技术 徐州:中国矿业大学出版社,级别:专著,ISBN:978-7-5646-3567-1
2 名称:采场脉动通风理论及其在采矿安全中的应用,徐州:中国矿业大学出版社,级别:专著
3.名称:《粉尘防治理论及技术》 徐州:中国矿业大学出版社,级别:入选了第一批“十二五”普通高等教育本科国家级规划教材。
4. 名称:《通风与安全》,刊物名:徐州:中国矿业大学出版社,级别:全国十二五规划教材
5. 名称: 《矿井通风技术》,刊物名:徐州:中国矿业大学出版社,级别:全国十二五规划教材
6 名称:《总工程师手册》,刊物名:北京:煤炭工业出版社,级别:煤炭系统重点技术手册
7 名称:《矿山安全技术及管理》,刊物名:徐州:中国矿业大学出版社,级别:全国十二五规划教材
8 名称:《矿井瓦斯灾害防治与利用》,刊物名:徐州:中国矿业大学出版社,级别:全国十二五规划教材
9 名称:《煤矿通风系统安全保障技术及应用》,刊物名:徐州:中国矿业大学出版社,级别:专著
10 名称:《矿井粉尘防治》,刊物名:徐州:中国矿业大学出版社,级别:国家特色专业教材之一
11,名称:《粉尘防治理论与技术》徐州:中国矿业大学出版社,第一批“十二五”普通高等教育本科国家级规划教材。
1. 陶廷云、金泰、姜学云、华岁喜、杨胜强,滚筒采煤机长筒式高压水雾吸尘装置,专利号:ZL 96 2 32320.9;发明专利号:ZL 96 1 17018.2
2. 俞启香、杨胜强、王凯、张仁贵,矿用液压双旋转脉冲局部通风机,专利号:ZL 99 2 28674.3;发明专利号ZL 99 114265.9;
3. 杨胜强、俞启香、于宝海、汪峰、王雷,获得中国国家实用新型专利:矿用单液压马达双旋转径向射流通风机,专利号ZL 2004 2 0054154.0,公告日:2006年2月1日;
4. 邸建友、佟强、杨胜强、张东升、张修峰,高压气流引射喷雾降尘装置,实用新型专利号:ZL 032203454;
5. 佟强、邸建友、杨胜强、张东升、张修峰,高压气流引射喷雾降尘装置,发明专利号:ZL 03 1 12967.6;2007年
6.采空区卸压煤层气抽采模拟实验装置,许家林,屈庆东,杨胜强,王义江,张少华实用新型专利号:ZL 2007 2 0035236.1;
7. 双反边四卡扣风筒连接处防漏风装置,杨胜强;王祺;王寿鹤;李小玉;田艳秋;黄瑞玲,实用新型,专利号:ZL2009 2 0047018.1 2010.11.17
8.中华人民共和国国家版权局计算机软件著作权登记证书一个:隧道通风参数计算软件(QCS-TFFG V1.0),2010年3月1日。
9.双指针记忆型瓦斯压力表,张少帅;杨胜强;李双;鹿存荣;鲁义。实用新型,专利号:ZL 2010 2 0676872.7,2011.7.20
10 使易燃易爆气体定量配比小流量的安全输出装置 杨胜强 宋万新 吕文陵 鹿存荣 严家成
发明专利,专利号:ZL2010 1 0216041.6 2012年1月4日。
11 一种封孔结构 杨胜强 黄长庚 秦毅 杨相玉 牛杰 杜振宇 实用新型专利,专利号:ZL 2012 2 0185875.x 2012年04月27日。
12一种泡沫除尘系统,杨胜强,刘杰,杨相玉,秦毅,黄长庚,实用新型专利,专利号:ZL 2013 20050354.8 2013年5月28日
13 一种用于预测煤层释放瓦斯膨胀能的测定装置,于宝海,杨胜强,杨相玉,赵彤宇,陈登照,王凯,秦毅 ,实用新型专利,专利号:ZL 2013 20032984.2 2013年5月21日
14 易燃易爆气体定量配比小流量安全输出装置 余照阳 杨胜强 胡新成 焦汉林 田新亮 王刚琦 伦嘉云 刘迎春,实用新型专利,专利号:ZL 2014 2 0497904.5 2015年03月11日
15 一种泡沫除尘系统,杨胜强,刘杰,杨相玉,秦毅,黄长庚,发明专利,专利号:ZL 2013 1 0032649.7 2016年4月20日
16 一种封孔结构及封孔方法及封孔用膨胀水泥 杨胜强 黄长庚 秦毅 杨相玉 牛杰 杜振宇 发明专利,专利号:ZL 2012 1 0127984.0 2016年05月04日。
18 综采工作面短钻孔喷出瓦斯火焰的快速扑灭装置,发明专利,专利号:ZL 2016 1 0536661.5 2017年12月22日。宋万新,杨胜强,高杰;关明亮;张少华。
19 主通风机防爆盖气压式自动启闭控制装置,发明专利,专利号:ZL 2016 1 0301699.4 2018年03月20日。杨胜强,王朋炜,殷帅,吴隽 蔡佳文,胡新成,宋万新,钟演
20 一种瓦斯抽采和煤自燃耦合致灾实验模拟装置及方法,发明专利,发明人:杨胜强,汤宗情,许芹,刘俊,钟演,刘辉,周步壮,卜诚亚,连瑞锋,周一力 专利号:ZL 2016 1 1019706.8 授权日:2019年03月19日。公告号:CN 106770897 B
21 用于打钻注浆堵水及预防突水溃砂溃浆的装置及方法,发明专利,发明人:杨胜强,杨锴,宋万新,胡新成,蔡佳文,周步壮,许芹,汤宗情,专利号:ZL 2018 1 1305557.0 授权日:2020年03月31日。公告号:CN 109184618 B