简介
胡新成,特聘教授,硕士生导师,电子邮箱:XinchengHu@hotmail.com
研究领域
瓦斯与自燃复合灾害防治、安全工程大数据、地热资源开发利用、安全工程物联网
招生专业
硕导:安全科学与工程、资源与环境(安全工程方向)
学术兼职/任职
[1]《工矿自动化》青年专家委员会委员
[2] 瓦斯与煤自燃复合灾害防治团队负责人
[3] Applied Sciences专刊客座编辑
[4] Energy(1区)、 Fuel(1区)、Renewable Energy(1区)、Journal of Hydrology(1区)、Journal of Rock Mechanics and Geotechnical Engineering(1区)等杂志审稿专家
[5] 国家自然科学基金函评专家
教学活动
主讲课程:《专业英语》、《安全工程数值计算方法》、《安全法学》、《矿山灾害致灾机理》等。
已毕业硕士研究生情况:
2022级:蒋媛媛
在校硕士研究生情况:
2023级:薛希、方兴、赵昆
2024级:敖小楠、陈丽
主持承担的研究项目
主持纵向科研项目:
[1]采空区遗煤贫氧氧化孔隙表面特性演变与多元气体竞争吸附耦合作用机制,国家自然科学基金委(52364019),32万,在研。
[2]废弃煤矿采空区回灌温度场演变诱发水岩化学反应机制研究,国家自然科学基金委(52304130),30万,在研。
[3] 贵州切顶留巷无煤柱工作面瓦斯与煤自燃复合灾害防控技术研究,贵州省教育厅青年项目(黔教技〔2022〕106号),4.0万元,在研。
[4]瓦斯涌出对煤自燃氧化特性演变的作用机制研究,贵州省科技厅,黔科合基础-ZK[2022]一般058,10万,已结题。
业绩成果
教材/专著:
[1] 专著:《瓦斯与煤自燃复合致灾理论及防灭火技术》,中国矿业大学出版社,第三主编,2017年。
[2] 专著:《传统木结构吊脚楼建筑火灾试验及数值分析》,重庆大学出版社,第三主编,2023年。
一作或通讯作学术论文:
[1]Tang J., Cai J.*, Yang S., Yu Z., Chen K., Hu X.*. Preparation and characterization of inorganic foam modified with nano-magnesium hydroxide for inhibiting coal spontaneous combustion. Physics of Fluids. 2025;37.(SCI, Q1,中科院二区)
[2]Hu X., Banks J., Guo Y., Liu W.V. Unlocking geothermal energy by repurposing abandoned wells as enhanced geothermal systems for sustainable heat production: A numerical investigation. Journal of Hydrology. 2025;651. (SCI, Q1, Top, 中科院一区)
[3]Hu X., Cai J., Yu Z., Liu J., Wei S., Yang S., et al. Synergistic inhibition effect and mechanism of an inhibitor for entire process inhibition of coal spontaneous combustion. Sci Rep-Uk 2024;14(1). ( SCI, Q1,中科院二区)
[4]Hu X., Cai J., Yu Z., Liu J., Tang Z., Yang S. The development of exothermic surface reaction between coal and oxygen affected by methane during coal spontaneous combustion in gob. Case Studies in Thermal Engineering 2024;61:105086.( SCI, Q1, Top, 中科院二区)
[5]Hu X., Cai J., Yao Y., Yu Z., Liu J., Wei S., et al. The influence mechanism of thermal invasion on spontaneous combustion of different coals using continuous adiabatic heating and non-isothermal oxidation method. Case Studies in Thermal Engineering 2024;64. ( SCI, Q1, Top, 中科院二区)
[6]X. Hu, Z. Yu*, J. Cai, X. Jiang, P. Li, S. Yang*, The influence of methane on the development of free radical during low-temperature oxidation of coal in gob, Fuel 330 (2022) 125369. (SCI, Q1, Top, 中科院二区)
[7]X. Hu, J. Banks, Y. Guo, W.V. Liu, Utilizing geothermal energy from enhanced geothermal systems as a heat source for oil sands separation: A numerical evaluation, Energy 238 (2022) 121676. ( SCI, Q1, Top, 中科院二区)
[8]X. Hu, J. Banks*, Y. Guo, W.V. Liu*, Retrofitting abandoned petroleum wells as doublet deep borehole heat exchangers for geothermal energy production—a numerical investigation, Renewable Energy 176 (2021) 115-134. (SCI, Q1, Top, 中科院二区)
[9]X. Hu, J. Banks*, Y. Guo, G. Huang, W.V. Liu*, Effects of temperature-dependent property variations on the output capacity prediction of a deep coaxial borehole heat exchanger, Renewable Energy 165 (2021) 334-349. (SCI, Q1, Top, 中科院二区)
[10]X. Hu, J. Banks*, L. Wu, W.V. Liu*, Numerical modeling of a coaxial borehole heat exchanger to exploit geothermal energy from abandoned petroleum wells in Hinton, Alberta, Renewable Energy 148 (2020) 1110-1123. (SCI, Q1, Top, 中科院二区)
[11]X. Hu, S. Yang*, W.V. Liu*, X. Zhou, J. Sun, H. Yu, A methane emission control strategy in the initial mining range at a spontaneous combustion-prone longwall face: A case study in coal 15, Shigang Mine, China, J Nat Gas Sci Eng 38 (2017) 504-515. (SCI, Q2,中科院二区)
[12]X. Hu, S. Yang*, X. Zhou, Z. Yu, C. Hu, Coal spontaneous combustion prediction in gob using chaos analysis on gas indicators from upper tunnel, J Nat Gas Sci Eng 26 (2015) 461-469. (SCI, Q2,中科院二区)
[13]X. Hu, S. Yang*, X. Zhou, G. Zhang, B. Xie, A quantification prediction model of coalbed methane content and its application in Pannan coalfield, Southwest China, J Nat Gas Sci Eng 21 (2014) 900-906. (SCI, Q2,中科院二区)
[14]T. Zhao, S. Yang, X. Hu*, W. Song, J. Cai, Q. Xu, Restraining effect of nitrogen on coal oxidation in different stages: Non-isothermal TG-DSC and EPR research, International Journal of Mining Science and Technology 30(3) (2020) 387-395. (SCI, Q1, Top, 中科院一区)
[15]S. Yang, X. Hu*, W.V. Liu, J. Cai, X. Zhou, Spontaneous combustion influenced by surface methane drainage and its prediction by rescaled range analysis, International Journal of Mining Science and Technology 28(2) (2018) 215-221. (SCI, Q1,中科院一区)
[16]B. Zhou, S. Yang*, C. Wang, X. Hu*, W. Song, J. Cai, Q. Xu, N. Sang, The characterization of free radical reaction in coal low-temperature oxidation with different oxygen concentration, Fuel 262 (2020) 116524. (SCI, Q1, Top, 中科院二区)
[17]Q. Xu, S. Yang*, X. Hu*, W. Song, J. Cai, B. Zhou, Low-temperature oxidation of free radicals and functional groups in coal during the extraction of coalbed methane, Fuel 239 (2019) 429-436. (SCI, Q1, Top, 中科院二区)
[18]Y. Song, S. Yang*, X. Hu*, W. Song, N. Sang, J. Cai, Q. Xu, 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 129 (2019) 8-16. (SCI, Q1,中科院二区)
[19]J. Cai, S. Yang*, X. Hu*, W. Song, Q. Xu, B. Zhou, Y. Song, Forecast of coal spontaneous combustion based on the variations of functional groups and microcrystalline structure during low-temperature oxidation, Fuel 253 (2019) 339-348. (SCI, Q1, Top, 中科院二区)
[20]J. Cai, S. Yang*, X. Hu*, W. Song, Y. Song, Q. Xu, S. Zhang, Risk assessment of dynamic disasters induced by gas injection displacement in coal seams, Process Safety and Environmental Protection 128 (2019) 41-49. (SCI, Q1,中科院二区)
[21]Y. Zhong, S. Yang*, X. Hu*, J. Cai, Z. Tang, Q. Xu, Whole Process Inhibition of a Composite Superabsorbent Polymer-Based Antioxidant on Coal Spontaneous Combustion, Arabian Journal for Science and Engineering 43(11) (2018) 5999-6009. (SCI, Q3,中科院四区)
[22]J. Cai, S. Yang*, X. Hu*, Q. Xu, B. Zhou, Z. Zhang, The Relationship between Functional Groups and Gaseous Productions and Micropore Structures Development of Coal Oxidized at Low Temperature under Methane-Diluted Atmospheres, Combust Sci Technol (2018) 1-17. (SCI, Q3,中科院四区)
授权国家发明专利:
[1] 杨胜强; 焦汉林; 胡新成; 杨相玉; 秦毅; 黄金; 宋万新; 韩宗建, 一种治理坚硬顶板综放面初采期瓦斯超限的方法. 2015-01-07, 2015.
[2] 余照阳; 杨胜强; 胡新成; 焦汉林; 田新亮; 王刚琦; 伦嘉云; 刘迎春, 易燃易爆气体定量配比小流量安全输出装置. 2015-03-11, 2015.
[3] 杨胜强; 胡新成; 宋万新; 鹿存荣; 杨相玉; 严家程; 路培超; 刘垒, 一种高瓦斯采空区自燃“三带”的判别方法. 2012-10-24, 2012.
