师资队伍

潘结南

博士|教授|博导|河南省政府特殊津贴专家、河南省特聘教授

办公地点: 国家重点实验室大楼1011

panjienan@163.com
煤层气(页岩气)地质与勘探开发、CO2地质封存、煤(含煤层气)开发利用中碳排放

个人简介

基本简介

潘结南,男,汉族,1972年8月生,博士、二级教授,太阳集团tyc33455官网博士生导师。河南省政府特殊津贴专家、河南省特聘教授、河南省高层次人才、河南省高校科技创新团队带头人、河南省教育厅学术技术带头人、省高校创新人才。EI期刊《天然气工业》编委。发表SCI论文96篇,其中第一作者和通讯作者53篇(含7篇ESI高被引论文)。获1项省级政府科技进步奖一等奖(R2)、2项省级政府自然科学奖二等奖(R1、R2)。

主要研究方向:煤层气(页岩气)地质与勘探开发、CO2地质封存、煤(煤层气)开发利用中碳排放

科研项目

[1]2021.1~2024.12,煤体注CO2裂隙面微观响应及与大分子结构协同演化机理,国家自然科学基金面上项目,主持

[2]2018.01~2021.12,构造煤微裂隙结构演化特征及对煤储层渗透性控制,国家自然科学基金面上项目,主持

[3]2014.01~2017.12,构造煤甲烷吸附/解吸特征及与其微晶结构耦合机理,国家自然科学基金面上项目,主持

[4]2011.01~2013.12,煤孔隙结构演化的构造制约及瓦斯富集机理研究,国家自然科学基金面上项目,主持

[5]2017.01~2018.12,煤层气储层物性及其地质控制,河南省高校科技创新团队支持计划项目,主持

[6]2011.01~2015.12,煤层气,中国科学院战略性先导科技专项“碳专项”子课题,主持

[7]2011.01~2015.12,西北地区煤炭开发中的碳排放,中国科学院战略性先导科技专项“碳专项”子课题,主持

[8]2013.01~2015.12,构造变形煤纳米级孔隙特征及其构造演化机制研究,河南省高校科技创新人才支持计划项目,主持

[9]2023.12~2026.12,新疆吾尔自治区重大科技专项任务-准南深部煤储层压裂缝网形成与扩展机理,主持

[10]2023.12~2026.12,新疆吾尔自治区重大科技专项任务-准南深部煤储层煤岩类型、煤层结构、煤体结构与储层渗透率评价,主持

[11]2020.6~2023.6,山西省揭榜招标项目子课题:采空区钻完井适用工艺及其对环境影响评价技术,主持

[12] 2012.1~2013.12,河南省国土资源厅两权价款地质科研项目:新郑矿区深部煤层地热地质条件与赋存规律研究,主持

发表论文

[1]Jienan Pan*, Xuetian Du, Xianglong Wang, Quanlin Hou, Zhengzhi Wang, Jiale Yi, Meng Li. Pore and permeability changes in coal reservoirs induced by true tri-axial ScCO2fracturing based on low-field nuclear magnetic resonance, Energy, 2024,286: 129492.

[2]Jienan Pan*, Fengmei Jiao, Kai Wang, Yunbo Li, Dangyu Song, Quanlin Hou. Molecular simulations of the effects of CO2and N2injection on CH4adsorption, coal porosity and permeability. Advances in Geo-Energy Research, 2024, 12(3): 205-222.

[3]Jienan Pan*, Haixia He, Guofu Li, Xianglong Wang, Quanlin Hou, Liangliang Liu, Nannan Cheng. Anisotropic strain of anthracite induced by different phase CO2injection and its effect on permeability, Energy, 2023, 284, 128619

[4]Zhenzhi Wang, Xuehai Fu,Jienan Pan*, Ze Deng. Effect of N2/CO2injection and alternate injection on volume swelling/shrinkage strain of coal. Energy, 2023,275: 127377.

[5]Jianxin Li,Jienan Pan*, Xianglong Wang, Kai Wang, Shuai Nie, Di Gao. Potential effect of carbon dioxide injection on bituminous coal macromolecular structure analysed using in-situ diffuse reflectance Fourier-transforminfrared spectroscopy. International Journal of coal geology, 2023, 265,104169

[6]Kai Wang,Jienan Pan*, Rongting Xu, Quanlin Hou, Xianglong Wang, Jianxin Li. Macromolecular rearrangement caused by CO2adsorption in coal. Fuel,2023, 349: 128630

[7]Jienan Pan*, Shuai Nie, Zhenzhi Wang, Xianglong Wang, Meng Li, Yunbo Li, Dangyu Song. Response of anthracite microcrystalline structure due to multi-phase CO2injection. Journal of CO2Utilization,2023,74:102593

[8]Xianglong Wang,Jienan Pan*, Kai Wang, Pengwei Mou, Jianxin Li. Fracture variation in high-rank coal induced by hydraulic fracturing using X-ray computer tomography and digital volume correlation, International Journal of coal geology,2022, 252, 103942

[9]Xuwei Hou, Xiaozhi Zhou,Jienan Pan*. Similar material proportioning and preparation of ductile surrounding rocks for simulatingin situ coalbed methane production fromtectonically deformed coals, Rock Mechanics and Rock Engineering, 2022, 55, 5377–5392

[10]Yanhui Yang,Jienan Pan*, Quanlin Hou, Kai Wang, Xianglong Wang. Stress degradation mechanism of coal macromolecular structure: Insights from molecular dynamics simulation and quantum chemistry calculations. Fuel, 2021, 303: 121258

[11]Pengwei Mou,Jienan Pan*, KaiWang, Jiang Wei, Yanhui Yang, Xiaolong Wang. Influences of hydraulic fracturing on microfractures of high-rank coal under different in-situ stress conditions, Fuel, 2021, 287, 119566

[12]Jienan Pan*, Taoyuan Ge, Weiqing Liu, Kai Wang, Xianglong Wang, Pengwei Mou, Wei Wu, Yongbin Niu. Organic matter provenance and depositional watermass conditions of transitional facies coal and mudstone in Yangquan coalfield, China: insights from petrology and geochemistry, Journal of Natural Gas Science & Engineering, 2021,104076

[13]Kai Wang,Jienan Pan*, Enying Wang, Quanlin Hou, Yanhui Yang. Potential impact of CO2injection into coal matrix in molecular terms, Chemical Engineering Journal, 2020, 401,126071

[14]XianglongWang,Jienan Pan*, Kai Wang, Taoyuan Ge, Jiang Wei, Wei Wu. Characterizing the shape, size, and distribution heterogeneity of pore-fractures in coal based on X-ray CT and mercury injection porosimetry, Fuel, 2020, 282, 18754

[15]Taoyuan Ge,Jienan Pan*, Kai Wang, Weiqing Liu, Pengwei Mou, Xianglong Wang. Heterogeneity of pore structure of late Paleozoic transitional facies coal-bearing shale in north China and its main controlling factors. Marine and Petroleum Geology, 2020, 122:104710

[16]Jienan Pan*, Minmin Lv, Quanlin Hou, Yuzhen Han, Kai Wang. Coal microcrystalline structural changes related to methane adsorption/desorption. Fuel, 2019, 239: 13-23.

[17]Xinghua Shi,Jienan Pan*,Quanlin Hou, Yi Jin, Zhenzhi Wang, Qinghe Niu, Meng Li. Micrometer-scale fractures in coal related to coal rank based on micro-CT scanning and fractal theory. Fuel, 2018,212,162-172

[18]Zhenzhi Wang,Jienan Pan*Quanlin HouBensheng YuMeng LiQinghe Niu.Anisotropic characteristics of low-rank coal fractures in the Fukang mining area, China. Fuel, 2018,211, 182-193

[19]Jienan Pan*, Qinghe Niu, Kai Wang, Xinghua Shi, Meng Li. The closed pores of tectonically deformed coal studied by small-angle X-ray scattering and liquid nitrogen adsorption. Microporous and Mesoporous Materials, 2016,224:245-252

[20]Jienan Pan*, Haitao Zhu, Quanlin Hou,Qinghe Niu, Haichao Wang, Zhongmin Ji. Macromolecular and pore structures of Chinese tectonically deformed coal studied by atomic force microscopy. Fuel, 2015,139:94-101

出版专著

[1]潘结南,牟朋威,牛庆合,葛涛元,王森.煤中孔隙类型、研究方法与特征.北京:科学出版社,2023.9, 32万字,

[2]潘结南,李五忠,施兴华,王振至,王海超.煤储层多尺度裂隙特征及其对渗透性的控制.北京:科学出版社,2022.6, 26.7万字

[3]潘结南,杨艳辉.煤大分子结构力解作用的分子模拟,科学出版社, 2022.2,32万字

获奖情况

[1]新疆维吾尔自治区科学技术进步奖壹等奖:新疆北部煤层气富集规律与勘探开发技术,新疆维吾尔自治区人民政府,2019.3,排名第2

[2]河南省自然科学奖贰等奖:构造煤超微结构演化及甲烷吸附的变质变形机理,河南省人民政府,2020.1,排名第1

[3]河南省自然科学奖贰等奖:构造煤超微结构演化及甲烷吸附的变质变形机理,河南省人民政府,2023.12,排名第2

专利著作权

[1]发明专利:高温饱气分析煤微晶结构的卡片式原位池及其工作方法.中国,ZL201910591199.2,排名第1

[2]发明专利:视密度可控的构造煤块状型煤三轴制样装置及方法,ZL201910597638.0,排名第1

[3]发明专利:深部煤岩三轴应力和饱气条件下在线光谱测试装置及方法,中国,ZL201911259368.9,排名第1

[4]发明专利:在线恒温变压及恒压变温煤拉曼光谱测试装置及方法,ZL 2019 1 0535843.4,排名第1

[5]发明专利:一种适用于CT扫描的真三轴分层压裂实验装置及方法.中国,ZL 202210240238.6,排名第1

[6]发明专利:一种煤矿井下致裂煤层抽采煤层气装置.中国,ZL 202011317910.4,排名第1

[7]发明专利:一种煤矿区全覆盖井上下立体抽采方法,ZL 202111654646.8,排名第2

[8]发明专利:一种井上下联合精准消除煤与瓦斯突出的方法,ZL 202111618868.4,排名第2

联系方式

电子邮箱:panjienan@163.com

办公地点:国家重点实验室大楼1011

版权所有: 太阳集团tyc33455官网 - 太阳集团tyc官网入口