邓孙华 - 吉林大学 - 建筑工程学院

个人简介

邓孙华（1986-），男，工学博士，地质工程学科副教授，硕士生导师。博士毕业于吉林大学化学学院。主要从事油页岩原位开采技术及相关领域研究，先后承担科研课题15项，包括国家自然科学基金青年基金、中国博士后基金面上项目、吉林省青年科研基金项目、吉林省科技发展计划项目、吉林省产业技术研究与开发专项等。作为项目骨干参与国家与省部级项目10余项。发表学术论文20篇，其中SCI收录16篇，EI收录1篇，中文核心期刊2篇；授权发明专利7件。专利成果与技术 1.王洪艳，邓孙华，李俊锋，顾强，王志军，陈晨. 一种地下原位提取油页岩中烃类化合物的方法，CN201010210592.1 (发明专利) 2.孙友宏，邓孙华，何里，郭威，李强，刘宝昌，马银龙，一种井内油页岩层燃烧加热系统，CN201510085726.4（发明专利） 3.孙友宏，何里，邓孙华，郭威，刘宝昌，李强，马银龙，一种井内蓄热式燃烧加热装置，CN201510085720.7（发明专利） 4.孙友宏，常志勇，刘宝昌，高科，郭威，邓孙华，马云海，用于录井气测的仿生油气分离装置， 2015/2/14, 吉林, CN201510077957.0 （发明专利） 5.常志勇，孙友宏，杨逍，郭威，刘宝昌，高科，佟金，邓孙华，陈东辉，马云海，一种仿鱼鼻腔的水合物随钻气测电子鼻，CN201510077937.3 （发明专利） 6.常志勇，孙友宏，杨逍，郭威，刘宝昌，高科，佟金，邓孙华，马云海，陈东辉，一种基于电子鼻的井下油气检测方法，CN201510080504.3 （发明专利） 7.孙友宏，常志勇，刘宝昌，郭威，高科，邓孙华，马云海，一种电子鼻气体室的仿生减振装置，CN201520106402.X（发明专利） 8.郭威，孙中瑾，李强，邓孙华，吕士东，周科，一种油页岩地下原位电加热器，CN201521007560.6 （实用新型） 9.孙友宏，何里，邓孙华，李强，郭威，马银龙，孙中瑾，王思远，康世杰，白文翔，一种井内流体电加热器，CN201621123873.2（实用新型）获奖与荣誉获“2014年吉林省自然科学学术成果奖二等奖（第一完成人）”

研究领域

油页岩的原位开发与利用、近临界水提取技术、高分子材料的合成

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1]Sunhua Deng, Zhijun Wang, Qiang Gu, et al, Extracting hydrocarbons from Huadian oil shale by sub-critical water, Fuel Processing Technology, 2011, 2, 1062-1067. (SCI) [2]Sunhua Deng, Zhijun Wang, Yan Gao, et al, Sub-critical water extraction of bitumen from Huadian oil shale lumps, Journal of Analytical and Applied Pyrolysis, 2012, 98 (5), 151-158. (SCI) [3]Zhijun wang, Sunhua Deng, Qiang Gu, et al, Pyrolysis kinetics study of Huadian oil shale, spent oil shale and their mixtures by thermogravimetric analysis, Fuel Processing Technology, 2013, 110, 103-108. (SCI) [4]Zhijun wang, Sunhua Deng, Qiang Gu, et al, Sub-critical water extraction of Huadian oil shale under isothermal condition and pyrolysate analysis, Energy & Fuels, 2014, 28 (4), 2305-2313. (SCI) [5]Haifeng Jiang, Sunhua Deng, Jie Chen, et al. Preliminary Study on Copyrolysis of Spent Mushroom Substrate as Biomass and Huadian Oil Shale. Energy & Fuels, 2016, 30(8), 6342-6349. (SCI) [6] Haifeng Jiang , Deng Sunhua，Jie Chen, et al. Effect of hydrothermal pretreatment on product distribution and characteristics of oil produced by the pyrolysis of Huadian oil shale. Energy Conversion and Management, 2017, 143, 505-512. (SCI) [7]Youhong Sun, Li He, Shijie Kang, Wei Guo, Qiang Li and Sunhua Deng*, Pore Evolution of Oil Shale during Sub-Critical Water Extraction, Energies, 2018, 11(4), 1-15. (SCI) [8]Jing Han, Youhong Sun, Wei Guo, Qiang Li, Sunhua Deng*, Characterization of pyrolysis of nong’an oil shale at different temperatures and analysis of pyrolysate, Oil Shale, 2019, 36(2s), 151-170. (SCI) [9]Youhong Sun, Shijie Kang, Siyuan Wang, Li He, Wei Guo, Qiang Li, Sunhua Deng*, Subcritical water extraction of Huadian oil shale at 300°C, Energy & Fuels, 2019, 33(3), 2016-2114. (SCI) [10]Wei Guo, Miao Zhang, Youhong Sun, Qiang Li, Shuai Zhao, Sunhua Deng*, Numerical simulation and field test of grouting in Nong'an pilot project of in-situ conversion of oil shale, Journal of Petroleum Science and Engineering, 2020, 184 (SCI) [11]Haifeng Jiang, Wenpeng Hong, Yu Zhang, Sunhua Deng, et al. Behavior, kinetic and product characteristics of the pyrolysis of oil shale catalyzed by cobalt-montmorillonite catalyst. Fuel, 2020. 269(1), 117468. (SCI) [12]Wei Guo, Zhendong Wang, Youhong Sun, Xiaoshu Lü, Sunhua Deng, et al. Effects of packer locations on downhole electric heater performance: Experimental test and economic analysis. Energies, 2020.13(2) 377. (SCI) [13]Wei Guo, Zhendong Wang, Zhongjin Sun, Youhong Sun, Xiaoshu Lü, Sunahua Deng, et al. Experimental investigation on performance of downhole electric heaters with continuous helical baffles used in oil shale in-situ pyrolysis. Applied Thermal Engineering, 2019, 147, 1024–1035. (SCI) [14]Youhong Sun, Zhao Liu, Qiang Li, Sunhua Deng, et al. Controlling groundwater infiltration by gas flooding for oil shale in situ pyrolysis exploitation[J]. Journal of Petroleum Science & Engineering, 2019. 179: 444-454. (SCI) [15]Zhijun Wang, Xuexia Liu, Yinfeng Wang, Lijun Liu, Hongyan Wang, Sunhua Deng, Youhong Sun，Studies on the co-pyrolysis characteristics of oil shale and spent oil shale, Journal of Thermal Analysis and Calorimetry, 2015, 123(2):1707-1714. (SCI) [16]Han Jing, Youhong Sun, Wei Guo, Sunhua Deng, et al. Non-isothermal thermogravimetric analysis of pyrolysis kinetics of four oil shales using Sestak–Berggren method[J]. Journal of Thermal Analysis and Calorimetry, 2019, 135(4), 2287-2296. (SCI) [17]Youhong Sun, Pengfei Jiang, Wei Guo, Sunhua Deng, Effect of Gelled Acid Fracturing Fluid on the Structure and Pyrolysis Behavior of Oil Shale，International Journal of Earth Sciences and Engineering, February 2016, 59-65. (EI) [18]孙友宏，邓孙华，王洪艳．国际油页岩开发技术与研究进展：记第33届国际油页岩会议．吉林大学学报：地球科学版，2015，45（4）：1052-1059. (核心) [19]王志军，邓孙华，王洪艳，热重分析用于近临界水提取页岩油残渣的热解动力学，应用化学, 28(1), 2011 (核心)