职称职务

副教授/硕士生导师，系副主任

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Email

ehu@cqu.edu.cn

联系地址

重庆大学A区资源与安全学院221室

研究方向

煤清洁高效利用、新型反应器研发、有机固体废弃物资源化利用。

多名学生获得研究生国家奖学金，多名研究生获得留学基金委资助在美澳等科研单位攻读学位，与澳大利大蒙纳士大学、英国阿斯顿大学建立了良好的合作关系，推荐学生出国深造。

（欢迎安全科学与工程、矿业工程、化学工程等专业学生报考）

研究团队网址https://www.taochangyuan.com

个人简历

长期致力于煤清洁高效利用研究，围绕“新型内构件固定床煤热解技术”开展系统性研究工作。

教育经历：

2011.09-2017.06，中国矿业大学（北京），矿物加工工程，博士（硕博连读）

2007.09-2011.06，河南理工大学，矿物加工工程，学士

工作经历：

2019.07-至今，重庆大学，采矿工程系，副教授/硕士生导师

2017.07-2019.06，农业部规划设计研究院，赵立欣研究员课题组，博士后

2015.07-2017.01，University   of New Brunswick，郑莹教授课题组，访问学生

2012.07-2015.06，中科院过程工程研究所，许光文研究员课题组，联合培养博士

学术兼职

担任国家自然科学基金函评专家、重庆市科委评审专家、重庆市经济和信息化委员会专家、教育部学位中心学位论文评审专家；担任全国分析与应用热裂解学术联合会理事、山西省煤炭学会煤炭清洁高效利用常务委员、山西省煤炭学会“千人智库大会”专家、《洁净煤技术》中青年专家委员会委员（2019-2021）、国际期刊Resources Chemicals and Materials (RCM)青年编委; 担任国际SCI期刊《Chemical Engineering Journal》、《Energy》、《Fuel》等SCI期刊审稿。

代表性研究项目

1. 国家自然科学青年基金，定向强化流场下低阶煤热解反应机理及过程调控研究，主持

2. 重庆市自然科学基金面上项目，低阶煤与生物质红外快速共热解反应机理及过程调控研究，主持

3. 科技部“中央级大型科学仪器设备购置”自主研发设备项目，定向热转化反应-气液固相原位在线表征系统，主持

4. 煤矿灾害动力学与控制国家重点实验室面上项目，长焰煤定向热转化基础研究及机理分析，主持

5. 重庆市留学回国人员创业创新支持计划，小粒径低阶煤定向热解反应机理及过程调控研究，主持

6. 重庆市出站来渝博士后择优资助项目, 生物质热解炭化关键技术与工艺研究，主持

7. 重庆市博士后研究项目特别资助, 红外快速热解医疗废物模型物反应特性及机理分析，主持

8. 中国博士后科学基金面上资助项目，扰动式内构件回转炉生物质热解基础研究及机理分析，主持

9. 农业农村部规划设计研究院横向委托项目，秸秆样品草谷比及作物籽粒测试，主持

10. 农业农村部规划设计研究院横向委托项目，赴西南地区调研验证所测定系数的可靠性，主持

11. 农业农村部规划设计研究院横向委托项目，秸秆红外热转化高值试验委托项目，主持

12. 农业农村部规划设计研究院横向委托项目，秸秆资源化利用委托试验，主持

13. 北京理工大学横向委托项目，润滑油液绿色净化技术研究，主持

14. 中国科学院战略性先导科技专项低阶煤清洁高效利用关键技术与示范，参与

代表性专利

1. 胡二峰. 一种碳氢原料耦合废弃PVC和LCD共热解提取InCl₃的装置与方法， 202211380889.1，发明专利；

2. 胡二峰. 一种碳氢原料热解装置与热解方法202011233503.5，发明专利；

3. 胡二峰.生物质与低阶煤分离耦合传热板与低品位铁矿石的共热解系统，202110298334.1，发明专利；

4. 胡二峰.一种扰动式内构件回转炉生物质热解炭化多联产系统，201710739505.3，发明专利；

5. 胡二峰. 一种红外快速加热医疗废弃物的热解多联产系统，202110874631.6，发明专利；

6. 胡二峰. 一种熔融盐加热医疗废弃物或废旧塑料的热解方法 ，202110874646.2 ，发明专利；

7. 胡二峰. 一种赤泥催化生物质红外热解的热解装置及热解方法 -   202110296831.8，发明专利；

8. 胡二峰. 一种废机油热解装置与热解方法，202011233499.2，发明专利；

9. 胡二峰.多功能两段床热解系统监测控制平台，2020SR1874567，软件著作权；

10. 胡二峰.废机油热解控制系统及监测平台，2020SR1862029，软件著作权；

代表性论文（*通讯作者）

1. Hu Erfeng, Zhang Yue, Liu Zuohua, Yu Jianglong, et al. Insight   into dechlorination of pyrolysis oil during fast co-pyrolysis of high-alkali   coal and polyvinyl chloride (PVC)[J]. Chemical Engineering Journal, 2024:   153016.

2. Li   Moshan, Lu Yiyu, Hu Erfeng*, et   al. Fast co-pyrolysis characteristics of high-alkali coal and polyethylene   using infrared rapid heating[J]. Energy, 2023: 126635.

3. Zeng Yongfu, Liu Zuohua, Yu Jianglong,   Hu Erfeng*,et   al. Pyrolysis kinetics and characteristics of waste tyres: Products   distribution and optimization via TG-FTIR-MS and rapid infrared heating   techniques[J]. Chemical Engineering Journal, 2024, 482: 149106.

4. Zeng Yue, Liu Zuohua, Hu Erfeng*,et al. Optimization of product   distribution during co-pyrolysis of furfural residues and waste tyres via   response surface method and infrared heating[J]. Separation and Purification   Technology, 2025, 354: 129209.

5. Zeng Yongfu, Liu Zuohua, Hu Erfeng*,et al. Insight into impact of   co-pyrolysis process parameters on cross-interaction of volatiles between   furfural residue and coal via rapid infrared heating[J]. Energy, 2024, 309:   133118.

6. Hu Erfeng*,Zhang Yue, Liu Zuohua, et al. Enhanced   synergies for product distributions and interactions during co-pyrolysis   between corn stover and tyres[J]. Journal of Analytical and Applied   Pyrolysis, 2024, 183: 106770.

7. Zhang Yue, Liu Zuohua, Hu Erfeng*, et al.   Synergistic effects and comprehensive analysis of interaction during infrared   co-pyrolysis of furfural residues and PVC[J]. Process Safety and   Environmental Protection, 2024, 191: 2095-2103.

8. Zhang Yue, Liu Zuohua, Hu Erfeng*,et al. Elucidating synergistic effects   and environmental value enhancement in infrared-Assisted Co-Pyrolysis of coal   and polyvinyl chloride[J]. Separation and Purification Technology, 2025, 357:   130071.

9. Li Shuai, Qu Rui, Hu Erfeng*, et al. Co-pyrolysis kinetics and   enhanced synergy for furfural residues and polyethylene using artificial   neural network and fast heating[J]. Waste Management, 2025, 195: 177-188.

10. Li Shuai, Zeng Yongfu, Hu Erfeng*, et al. Insight into fast   infrared-assisted and coal rank on pyrolysis kinetics and products   distribution[J]. Journal of Analytical and Applied Pyrolysis, 2025: 106986.

11. Zeng Yongfu, Liu Zuohua, Yu Jianglong,   Hu Erfeng*,et   al. Enhanced energy efficiency and fast co-pyrolysis characteristics of   biogas residues and long-flame coal using infrared heating and TG-FTIR-MS[J].   Process Safety and Environmental Protection, 2024.

12. Zhang   Yue, Li Moshan, Hu Erfeng*, Qu   Rui, Li Shuai, Xiong Qingang. Interaction and characteristics of furfural   residues and polyvinyl chloride in fast Co-pyrolysis. Front. Chem. Sci. Eng.,   2024

13. Li   Chenhao, Liu zuohua, Yu Jianglong, Hu   Erfeng* et al. Cross-interaction of volatiles in fast co-pyrolysis of   waste tyre and corn stover via TG-FTIR and rapid infrared heating   techniques[J]. Waste Management, 2023, 171: 421-432.

14. Li   Chenhao, Liu zuohua, Yu Jianglong, Hu   Erfeng* et al. Infrared heating and synergistic effects during fast   co-pyrolysis of corn stover and high alkali coal[J]. Process Safety and   Environmental Protection, 2023, 179: 812-821.

15. Dai   Chongyang, Hu Erfeng*, Yang Yang,   et al. Fast co-pyrolysis behaviors and synergistic effects of corn stover and   polyethylene via rapid infrared heating[J]. Waste Management, 2023, 169:   147-156.

16. Li   Moshan, Hu Erfeng*, Tian Yishui,   et al. Fast pyrolysis characteristics and its mechanism of corn stover over   iron oxide via quick infrared heating[J]. Waste Management, 2022, 149:   60-69.

17. Dai   Chongyang, Hu Erfeng*, Tian   Yishui, et al. Infrared heated co-pyrolysis behavior of polyethylene and corn   stover via optimization of secondary reactions[J]. Journal of Analytical and   Applied Pyrolysis, 2022: 105565.

18. Hu Erfeng*, Tian Yishui, Yang Yang, et al. Pyrolysis behaviors of corn stover in new two-stage   rotary kiln with baffle[J]. Journal of Analytical and Applied Pyrolysis,   2022, 161: 105398.

19. Hu Erfeng*, Moshan Li, Yishui Tian, et al. Pyrolysis behaviors of anaerobic digestion residues in a   fixed-bed reactor with rapid infrared heating [J]. Environmental Science and   Pollution Research, 2022:1-12.

20. Hu Erfeng*, Dai Chongyang, Tian Yishui, et al. Infrared heated   pyrolysis of corn stover: Determination of kinetic and thermodynamic   parameters[J]. Journal of Analytical and Applied Pyrolysis, 2021: 105273.

21. Xu Shipei, Hu Erfeng*,   Li Xingchun*, Xu Yu. Quantitative Analysis   of Pore Structure and Its Impact on Methane Adsorption Capacity of Coal[J].   Natural Resources Research, 2021, 30(1): 605-620.

22. Hu Erfeng, Kyle Rogers, Fu Xiaoheng*, et al. Coal pyrolysis and   its mechanism in indirectly heated fixed-bed with metallic heating plate   enhancement[J]. Fuel, 2016, 185: 656-662.

23. Hu Erfeng, Zeng Xi*, Fu Xiaoheng, et al. Characterization of   coal pyrolysis in indirectly heated fixed bed based on field effects[J].   Fuel, 2017, 200: 186-192.

24. Hu Erfeng, Zeng Xi*, Fu Xiaoheng, et al. Effect of the moisture   content in coal on the pyrolysis behavior in an indirectly heated fixed-bed   reactor with internals[J]. Energy & Fuels, 2017, 31(2): 1347-1354.

25. Hu Erfeng, Zeng Xi*, Wang Fang, et al. Effects of Metallic   Heating Plates on Coal Pyrolysis Behavior in a Fixed-Bed Reactor Enhanced   with Internals[J]. Energy & Fuels, 2017, 31(3): 2716-2721.

26. Hu Eefeng, Yao Zonglu, Zhao Lixin*,   et al.   Characteristics of zeolite-modified NiMo/Al₂O₃   catalysts and their hydrotreating performance for light cycled oil[J]. The   Canadian Journal of Chemical Engineering, 2019, 97(5): 1107-1113.

27. Zhang   Chun, Wu Rongcheng, Hu Erfeng, Liu Shuyuan, Xu Guangwen*. Coal Pyrolysis   for High-Quality Tar and Gas in 100 kg Fixed Bed Enhanced with Internals[J]. Energy &   Fuels, 2014, 28 (11):7294-7302.

28. 胡二峰,武荣成,张纯,郭二卫,付晓恒,许光文*.间热径向流反应器料层厚度对煤热解特性的影响[J].化工学报,2015,66(02):738-745.

29. 胡二峰, 张纯,武荣成,付晓恒,许光文*.内构件固定床反应器中不同水分煤的热解特性[J].化工学报,2015,66(07):2656-2663.

30. 胡二峰,赵立欣*,姚宗路等.石英管定向强化流场模拟内构件反应器不同厚度煤热解特性[J].煤炭学报,2018,43(12):3504-3509.

31. 胡二峰,赵立欣*,姚宗路等.生物质热解影响因素及技术研究进展[J].农业工程学报,2018,34(14):212-220.

32. 胡二峰, 赵立欣*,姚宗路等.热解温度对回转窑玉米秸秆热解产物理化特性的影响[J].农业工程学报,2019,35(11):233-238.

33. 刘壮, 田宜水, 胡二峰*, 等. 低阶煤热解影响因素及其工艺技术研究进展[J]. 洁净煤技术, 2021, 27(1):50-59.

34. 曾永福,田宜水,胡二峰, 屈锐等.长焰煤与糠醛渣共热解动力学、热力学及快速热解产物特性[J].太阳能学报, 2024,46(6): 108-114.

35. 李晨浩,田宜水,胡二峰*,等.厌氧消化残渣与低阶长焰煤共热解特性[J].农业工程学报,2022,38(23):188-194.

36. 戴重阳,田宜水,胡二峰*,等. 生物质与低阶煤共热解特性研究及其技术进展[J].太阳能学报, 2021,42(12):318-325.

37. 李沫杉,田宜水,胡二峰*,等. 沼渣热解动力学、热力学分析及热解产物特性研究[J].太阳能学报, 2022, 43(6):225-233.