高宁博,博士生导师,副教授
English - 高 宁博
1. 国家自然科学基金函评专家;
2. 陕西省科技厅评审专家;
3. 国际期刊 Biomed Research International责任编辑, Journal of Chemistry客座编辑;
4. Applied Energy, Environment Science & Technology, Fuel, Journal of Cleaner Production, Thermochimica Acta, Industrial & Engineering Chemistry Research, Energy Conversion and Management, Fuel Processing Technology, Journal of Analytical and Applied Pyrolysis, Waste Management, The Canadian Journal of Chemical Engineering,化工学报, 环境科学, Chinese Science Bulletin等期刊审稿人。
招生:每年招收博士生、硕士生若干名,欢迎具有环境、热能、催化、化工等背景的同学加入。





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2021-01-08
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2020-12-25
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2020-12-07
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2020-11-29
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2020-11-25
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2020-10-10
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1. 固体废物处理及资源化;
2. 生活垃圾处理及能源化利用;
3. 含油污泥无害化与资源化利用;
4. 生物质/煤气化、热解及污染物控制;
5. 焦油催化重整制氢;
6. 市政/工业污泥处理及资源化;
7. 有机固体废物生物处理技术
2016/06-至今 西安交通大学能动学院,博士生导师
2016/08-2017/07 英国赫尔大学化工学院,访问学者
2015/12-至今 西安交通大学能动学院,副教授,硕士生导师
2011/04-2015/12 大连理工大学环境学院,讲师,硕士生导师
2009/03-2011/04 大连理工大学环境学院,讲师,师资博士后
2005/03-2009/02 大连理工大学能源与动力学院,热能工程,工学博士
12. 2020年学术论文获得陕西省第十四届自然科学优秀学术论文二等奖,高宁博,全翠,刘宝玲,李宗阳,吴春飞,基于螺旋反应器的污泥连续热解: 产物特性和重金属的生态风险评价(Continuous pyrolysis of sewage sludge in a screw-feeding reactor: products characterization and ecological risk assessment of heavy metals).
11. 2019, Janpan-China-Korea Joint Symposium, Development of activated biochar supported Ni catalyst for enhancing tar steam reforming, 2019.9.4-7, Tokyo, Japan. 优秀墙报奖;
10. 2018年,The 6th International Symposium on Gasification and its Application (ISGA-6), 2018.10.25-28,Chengdu, China. 优秀墙报奖;
36. 高宁博, 陈凯轮, 全翠, 一种高含水率有机物的水热脱水处理反应装置及其操作方法, 发明,实审
35. 高宁博,王凤超,全翠, 一种有机固体废物两级还原热解制备改性活性炭的方法、系统和应用, 201910943536X, 2019-09-30,发明,实审
34. 高宁博,李家琦,全翠, 有机固体燃料热解、气化及焚烧一体化装置及处理方法, 2019102493646, 2019-03-29,发明,授权
33. 高宁博,李宗阳,全翠, 一种含尘油气的除尘装置及除尘方法, 2019101810668, 2019-03-11, 2020-04-28, 发明, 授权
32. 高宁博,段一航,全翠, 一种旋风除尘装置及其操作方法, 2019101810916, 2019-03-11, 2020-03-17, 发明, 授权
31. 高宁博,李宗阳,全翠, 一种用于高含水率有机物处理的装置及方法, PCT/CN2018/115440, 2018-11-14,发明,已递交
30. 高宁博,李宗阳,全翠, 一种用于高含水率有机物处理的装置及方法, 2018108479760, 2018-07-27,发明,授权
29. 高宁博,李宗阳,全翠, 水热脱水处理高含水率有机物的反应釜及连续式系统, 201621310662X, 2016-12-01, 2017-08-01, 实用新型, 授权
28. 高宁博,李宗阳,全翠, 水热脱水处理高含水率有机物的反应釜、连续式系统及方法, 2016110912578, 2016-12-01,发明,已递交
27. 高宁博,韩映,全翠, 一种陶瓷膜氧化还原反吹系统, 2016204741303, 2016-05-23, 2016-11-30, 实用新型, 授权
26. 高宁博,韩映,全翠, 一种陶瓷膜氧化还原反吹系统及方法, 2016103483173, 2016-05-23, 2018-08-10, 发明, 授权
25. 全翠,苏瑞瑞,高宁博, 一种耦合处理高浓度有机废水和重金属废水的方法, 2018116427452, 2018-12-29,发明,授权
24. 高宁博;李宗阳;全翠,一种有机固体燃料内除尘式热解气化装置与方法,发明,(201510381567.2),已授权.
23. 高宁博,郝乔, 尹志凡, 一种磁稳定催化重整方法与装置(201210326137.7),已授权.
22. 高宁博, 刘爽, 李爱民, 张雷, 一种有机液体燃料雾化催化重整方法及装置,(201310025747.8) 已授权.
21. 高宁博, 刘保玲,李爱民, 一种催化陶瓷膜反应装置, 发明/实用新型, 201410492167.4/201420549511.4, 已授权.
20. 多孔陶瓷高温带压水蒸气制备装置(200610200415.9),已授权.
19. 超绝热部分氧化焦油焦碳清除及气体重整方法与装置(200810012601.9), 已授权.
18. 一种有机废物制取活性炭一体化装置及方法 (200910310173.2) ,已授权.
17. 一种有机物两级干燥与气化一体化的装置及方法(201110062338.6),已授权.
16. 一种有机固体燃料干燥、热解焚烧一体化方法与装置,(201210387495.9), 已授权.
15. 一种连续式制备活性炭的一体化装置(ZL 201320434911.6),中国,实用新型,2013-11,已授权.
14. 一种除尘、催化一体化装置(201410490544.0), 发明,已授权.
13. 一种连续式制备活性炭的一体化装置及方法,201310306054.6,已授权.
12. Method for preparation of active carbon by pyrolysis of organics. 2013, PAT US8563467 (US9650254-B2), 已授权,(美国专利).
11. 一种有机固体废物气化焚烧一体化方法及装置. 发明专利, 2014. 201410069870.4, 已授权.
10. 一种堆叠式换热器, 实用新型, 2014, 201410491310.8/201420549623.X, 已授权.
9. 一种整体式换热器及其加工方法, 发明,201410490710.7, 已授权.
7. 一种隧道窑的制砖方法, 发明, 201410491306.1, 已授权.
6. 一种垃圾压制成型方法及切削式造粒装置, 发明/实用新型, 201410490543.6/201420549345.8, 已授权.
5. 一种有机固体废物焚烧一体化装置及方法, 发明/实用新型, 201410490545.5/201420550004.2, 已授权.
4. 一种有机物热解制取活性炭方法,201110083062.X, 已授权.
3. 一种翻转床热固载体热解析装置(200910304367.1) , 已授权.
2. 一种采用多孔陶瓷的消泡方法,(201010152892.9),已授权.
1. 一种利用熔融盐活化制备活性炭的方法,201410350867.X,已授权.
[100] Ningbo Gao*, Cui Quan, Z. Eller, O. Toth, N. Miskolczi*, M. Al-asadi. Thermo-catalytic pyrolysis of wastes using bimetal modified ZSM-5 catalyst: Investigations into catalysts and reaction kinetic parameters. International Journal of Energy Research (SCI, IF= 3.741, Top)
[99] Imtiaz Ali, Rumaisa Tariq, Salman Raza Naqvi, Asif Hussain Khoja, Muhammad Taqi Mehran, Muhammad Naqvi, Ningbo Gao*, Kinetic and Thermodynamic Analyses of Dried Oily Sludge Pyrolysis, Journal of the Energy Institute, 2020 (SCI/EI, IF= 4.748).
[98] Ningbo Gao*, Maciej Śliz*, Cui Quan, Artur Bieniek, Aneta Magdziarz, Biomass CO2 gasification with CaO looping for syngas production in a fixed bed reactor, Renewable Energy, 2020. (SCI/EI, IF= 6.274, Top).
[97] Yanqing Niu, Kuihua Han, Ningbo Gao, Liang Wang and Norbert Miskolczi, Pollutant Formation and Control during Fuel Thermochemical Conversion, Journal of Chemistry, 2020, 6073439. https://doi.org/10.1155/2020/6073439. (SCI/EI, IF= 1.790).
[96] Miskolczi, N., Zsinka, V., Tóth, O., Eller, Z., Gao, N., Cui, Q., Bobek, J. Co-pyrolysis-reforming of biomass and residues from waste polymer pyrolysis for CO2 reduction and syngas enhancement. Chemical Engineering Transactions, 2020, 81: 1195-1200.
[95] 程丽杰, 高宁博*, 楚华, 等 . 高氯酸盐还原菌的代谢过程及应用研究进展. 化工进展, 2020, 39(S2): 259-269. (CHENG Lijie, GAO Ningbo, CHU Hua, et al. Metabolism and application of perchlorate reducing bacteria in microbial reduction of perchlorate: a review. Chemical Industry and Engineering Progress, 2020, 39(S2): 259-269.)
[94] Ningbo Gao*, Yihang Duan, Zongyang Li, Cui Quan, Kunio Yoshikawa, Hydrothermal treatment combined with in-situ mechanical compression for floated oily sludge dewatering, Journal of Hazardous Materials, 2020, 124173. doi:https://doi.org/10.1016/j.jhazmat.2020.124173. (SCI/EI, IF= 9.038, Top)
[93] Ningbo Gao*, Kamran Kamran, Zhengzhao Ma, Cui Quan. Investigation of product distribution from co-pyrolysis of side wall waste tire and off-shore oil sludge. Fuel, 2021, 285: 119036. https://doi.org/10.1016/j.fuel.2020.119036. (SCI, IF=5.578, Top).
[92] Zeeshan Hameed, Dr.Salman Naqvi, Muhammad Naqvi, Imtiaz Ali, Syed Ali Taqvi, Ningbo Gao, Syed Azfar Hussain and Sadiq Hussain. A comprehensive review on thermal co-conversion of biomass, sludge, coal and their blends using thermogravimetric analysis, Journal of Chemistry, 2020, https://doi.org/10.1155/2020/5024369. (SCI/EI, IF=1.79)
[91] Yuanting Qiao, Shuming Zhang, Cui Quan*, Ningbo Gao, Chris Johnston, Chunfei Wu. One-pot synthesis of digestate-derived biochar for carbon dioxide capture, Fuel, 2020, Doi: https://doi.org/10.1016/j.fuel.2020.118525 (SCI, IF=5.578, Top).
[90] Ningbo Gao*, Ayesha Tariq Sipra, Cui Quan. Thermogravimetric analysis and pyrolysis product characterization of municipal solid waste using sludge fly ash as additive, Fuel, 2020, Doi: https://doi.org/10.1016/j.fuel.2020.118572. (SCI, IF=5.578, Top).
[89] 高宁博*, 陈凯轮, 全翠. 固体废物处理与处置课程创新教学与实践. 环境工程, 2020. 出版中.
[88] 宁永安, 段一航,高宁博*, 全翠. 煤气化渣组分回收与利用技术研究进展. 洁净煤技术, 2020. 出版中.
[87] Janka Bobek-Nagy, Gao Ningbo*, Cui Quan, Norbert Miskolczi*, Dóra Rippel-Pethő, Kristóf Kovács. Catalytic co-pyrolysis of packaging plastic and wood waste to achieve H2 rich syngas. International Journal of Energy Research, 2020, http://dx.doi.org/10.1002/er.5741. (SCI, IF= 3.741, Top).
[86] 高宁博*, 陈凯轮, 全翠. 废锂离子电池回收与综合利用研究进展. 环境工程, 2020. 出版中.
[85] Ningbo Gao*; Jiaqi Li; Cui Quan; Xiao Wang; Yang Yang, Oily sludge catalytic pyrolysis combined with fine particle removal using a Ni-ceramic membrane, Fuel, 2020, Doi:http://dx.doi.org/10.1016/j.fuel.2020.118134. (SCI, IF= 5.578, Top).
[84] Ningbo Gao*; Xiangyu Jia; Guanqun Gao; Zhengzhao Ma; Cui Quan; Salman R Naqvi, Modeling and simulation of coupled pyrolysis and gasification of oily sludge in a rotary kiln, Fuel, 2020, Doi: https://doi.org/10.1016/j.fuel.2020.118152 (SCI, IF= 5.578, Top).
[83] Shuming Zhang; Ningbo Gao*; Cui Quan; Fengchao Wang; Chunfei Wu*. Autothermal CaO looping biomass gasification to increase process energy efficiency and reduce ash sintering, Fuel, 2020, Doi: https://doi.org/10.1016/j.fuel.2020.118199. (SCI, IF= 5.578, Top).
[82] Yue Chai, Meihong Wang, Ningbo Gao*, Yihang Duan, Jiaqi Li. Experimental Study on Pyrolysis/Gasification of Biomass and Plastics for H2 Production under New Dual-support Catalyst, Chemical Engineering Journal, 2020, Doi: https://doi.org/10.1016/j.cej.2020.125260. (SCI、IF= 10.652, Top).
[81] Ningbo Gao*, Kamran Kamran, Cui Quan, Paul Williams. Thermochemical Conversion of Sewage Sludge: A Critical Review. Progress in Energy and Combustion Science, 2020,79:100843. Doi: https://doi.org/10.1016/j.pecs.2020.100843. (SCI/EI, IF= 28.938, Top).
[80] Ningbo Gao*, Mingxing Chen, Cui Quan, Syngas production via combined dry and steam reforming of methane over Ni-Ce/ZSM-5 catalyst, Fuel, 2020, Doi: https://doi.org/10.1016/j.fuel.2020.117702. (SCI, IF= 5.578, Top).
[79] Małgorzata Sieradzka*, Ningbo Gao*, Cui Quan, Agata Mlonka-Mędrala and Aneta Magdziarz. Biomass thermochemical conversion via pyrolysis with integrated CO2 capture, Energies 2020, 13(5), 1050. https://doi.org/10.3390/en13051050 (SCI, IF= 2.707).
[78] Cui Quan, Huihui Wang, Ningbo Gao*. Development of activated biochar supported Ni catalyst for enhancing toluene steam reforming. International Journal of Energy Research, 2020, DOI:10.1002/er.5335. (SCI, IF= 3.741, Top).
[77] Cui Quan, Ruirui Su, Ningbo Gao*. Preparation of activated biomass carbon from pine sawdust for supercapacitor and CO2 capture. International Journal of Energy Research, 2020, DOI:10.1002/er.5206. (SCI, IF= 3.741, Top).
[76] Ningbo Gao*, Jiaqi Li, Cui Quan, Houzhang Tan. Product property and environmental risk assessment of heavy metals during pyrolysis of oily sludge with fly ash additive, Fuel, 2020, https://doi.org/10.1016/j.fuel.2020.117090. (SCI, IF= 5.578, Top).
[75] 全翠,王惠惠,高宁博,煤热解条件因素与油气产物改性提质技术研究,煤炭科学与技术,2020,录用.
[74] Fengchao, Wang, Ningbo Gao*, Cui Quan, Gartzen López. Investigation of hot char catalytic role in the pyrolysis of waste tires in a two-step process. Journal of Analytical and Applied Pyrolysis. 2019 https://doi.org/10.1016/j.jaap.2019.104770. (SCI、IF= 3.905, Top).
[73] Cui Quan, Xiangyu Jia, Ningbo Gao*. Nitrogen doping activated biomass carbon from tea seed shell for CO2 capture and supercapacitor. International Journal of Energy Research, 2019, https://doi.org/10.1002/er.5017. (SCI, IF= 3.741, Top).
[72] Ningbo Gao*, Kailun Chen, Cui Quan, Development of CaO-based adsorbents loaded on charcoal for CO2 capture at high temperature, Fuel, 2019. https://doi.org/10.1016/j.fuel.2019.116411 (SCI, IF= 5.578, Top). ESI高被引论文
[71] Yue Chai, Ningbo Gao*, Meihong Wang*, Chunfei Wu, H2 Production from Co-pyrolysis/gasification of Waste Plastics and Biomass under Novel Catalyst Ni-CaO-C, Chemical Engineering Journal, 2019.https://doi.org/10.1016/j.cej.2019.122947 (SCI、IF= 10.652, Top). ESI高被引论文
[70] 王凤超, 高宁博*, 全翠. 废轮胎热解技术及炭黑产物的品质提升与应用研究进展[J]. 化工学报, 2019, 70(8): 2864-2875
[69] Ningbo Gao*, Zongyang Li, Cui Quan, Norbert Miskolczi, Attila Egedy, A new method combining hydrothermal carbonization and mechanical compression in-situ for sewage sludge dewatering: Bench-scale verification, Journal of Analytical and Applied Pyrolysis, 2019, 139: 187-195. https://doi.org/10.1016/j.jaap.2019.02.003. (SCI、IF= 3.905, Top).
[68] Cui Quan, Ningbo Gao,* Huihui Wang, Hongman Sun, Chunfei Wu*,et al, Ethanol Steam Reforming on Ni/CaO catalysts for co-production of hydrogen and carbon nanotubes, International Journal of Energy Research, 2019, 43(3): 1255-1271. https://doi.org/10.1002/er.4365. (SCI, IF= 3.741, Top).
[67] Ningbo Gao*, Lei Zhang and Chunfei Wu, Biomass and Wastes for Bioenergy: Thermochemical Conversion and Biotechnologies, BioMed Research International, 2018, 2018,1-2. (SCI, IF=2.583).
[66] Ningbo Gao*, Ying Han, Cui Quan, Study on Steam Reforming of Coal Tar over Ni-Co/ceramic Foam Catalyst for Hydrogen Production: Effect of Ni/Co Ratio, International Journal of Hydrogen Energy, 2018,43(49): 22170-22186. https://doi.org/10.1016/j.ijhydene.2018.10.119. (SCI, IF= 4.229, Top).
[65] Zhengzhao Ma, Jianghao Xie, Ningbo Gao*, Cui Quan, Pyrolysis behaviors of oilfield sludge based on Py-GC/MS and DAEM kinetics analysis, Journal of the Energy Institute, 2018, 92(4): 1053-1063. https://doi.org/10.1016/j.joei.2018.07.001 (SCI, IF=4.217).
[64] Chidiebere Diyoke, Ningbo Gao*, Mathew Aneke, Meihong Wang, Chunfei Wu, Modelling of down-draft gasification of biomass - an integrated pyrolysis, combustion and reduction process, Applied Thermal Engineering, 2018, 142, 444-456. https://doi.org/10.1016/j.applthermaleng.2018.06.079. (SCI, IF=3.771, Top)
[63] Gao, Ningbo*, Quan Cui; Ma, Zhengzhao; Wu, Chunfei, Thermal characteristics of biomass pyrolysis oil and potential hydrogen production by catalytic steam reforming, Energy & Fuels, 2018, 32 (4): 5234–5243.Doi: 10.1021/acs.energyfuels.8b00365. (SCI, IF=3.091, Top)
[62] Ningbo Gao*, Xiao Wang, Cui Quan, Chunfei Wu, Study of oily sludge pyrolysis combined with fine particle removal using a ceramic membrane in a fixed-bed reactor, Chemical Engineering & Processing: Process Intensification, 2018, 128: 276-281, (SCI, IF=2.234)
[61] Ayesha Tariq Sipra, Ningbo Gao*, Haris Sarwar, Municipal solid waste (MSW) pyrolysis for bio-fuel production: A review of effects of MSW components and catalysts, Fuel Processing Technology, 2018, 175:131-147. https://doi.org/10.1016/j.fuproc.2018.02.012. (SCI, IF=3.752, Top).
[60] Cui Quan, Zhengzhao Ma, Ningbo Gao*, Chi He. Pyrolysis and combustion characteristics of corncob hydrolysis residue. Journal of Analytical and Applied Pyrolysis, 2018,130: 72-78. https://doi.org/10.1016/j.jaap.2018.01.025. (SCI, IF=3.47, Top)
[59] Ningbo Gao*, Ying Han, Cui Quan, Chunfei Wu. Promoting hydrogen-rich syngas production from catalytic reforming of biomass pyrolysis oil on nanosized nickel-ceramic catalysts, Applied Thermal Engineering, 2017, 125, 297-305. (SCI/EI, IF=3.38, Top).
[58] 王笑,高宁博*,生物质气化重整技术的研究进展,生物质化学工程,2017, 51(2): 48-56.
[57] Ningbo Gao*, Cui Quan, Baoling Liu, Zongyang Li, et al. Continuous pyrolysis of sewage sludge in a screw-feeding reactor: products characterization and ecological risk assessment of heavy metals. Energy & Fuels, 2017, 31(5): 5063–5072. (SCI, IF=3.091, Top)
[56] Liandong Zhu, Ningbo Gao, Rong-Gang Cong. Application of Biotechnology for the Production of Biomass-Based Fuels, BioMed Research International, vol. 2017, 2017. 1-2. (SCI, IF=2.14).
[55] Cui Quan, Ningbo Gao*, Chunfei Wu. Utilization of NiO/porous ceramic monolithic catalyst for upgrading biomass fuel gas. Journal of the Energy Institute. 2017, DOI: 10.1016/j.joei.2017.02.008.
[54] Cui Quan, Ningbo Gao*, Pyrolysis of biomass components in a TGA and a fixed-bed reactor: Thermochemical behaviors, kinetics, and product characterization J. Analy. Appl. Pyrolysis, 2016, 121, 84-92, SCI, IF=3.65.
[53] Cui Quan, Ningbo Gao*, Co-pyrolysis of biomass and coal: A review of effects of co-pyrolysis parameters, product properties and synergistic mechanisms, Biomed Research International, 2016, 2016, 6197867, SCI, IF=2.14.
[51] Shuo Cheng, Yuhua Wang, Ningbo Gao, Fumitake Takahashi, Aimin Li, Kunio Yoshikawa. Pyrolysis of oil sludge with oil sludge ash additive employing a stirred tank reactor, Journal of Analytical and Applied Pyrolysis, 2016, 120, 511-520.SCI, IF=3.65.
[50] Shuo Cheng, Fumitake Takahashi, Ningbo Gao, Kunio Yoshikawa, and Aimin Li, Evaluation of Oil Sludge Ash as a Solid Heat Carrier in the Pyrolysis Process of Oil Sludge for Oil Production, Energy Fuels, 2016, 30 (7): 5970–5979.
[48] Gao, Ningbo*, Liu, Baoling, Li, Aimin, Li, Juanjuan, Continuous pyrolysis of pine sawdust at different reaction temperatures and solid residence times, Journal of Analytical and Applied Pyrolysis, 2015, 14, 155-162. (SCI/EI, IF2013= 3.070)
[47] Zhengzhao MaNingbo GaoLei XieAimin Li, Study of the fast pyrolysis of oilfield sludge with solid heat carrier in a rotary kiln for pyrolytic oil production, Journal of Analytical and Applied Pyrolysis, 2014,105:183-190
[46] Ningbo Gao, Juanjuan Li, Benyu Qi, Aimin Li*, Yue Duan, Ze Wang, Thermal analysis and products distribution of dried sewage sludge pyrolysis. Journal of Analytical and Applied Pyrolysis, 2014, 105: 43-48. (SCI/EI, IF2013= 3.070)
[45] Ningbo Gao, Aimin Li*, Cui Quan, Lin Du, Yue Duan, TG-FTIR and Py-GC/MS analysis on pyrolysis and combustion of pine sawdust. Journal of Analytical and Applied Pyrolysis, 2013, 100: 26-32. (SCI/EI, IF2013= 3.070).
[44] Ningbo Gao, Aimin Li*, Liaoyuan Mao, Jiwen Yang, Drying Characteristics of the Furfural Residues of Biomass Hydrolyzation, Journal of Biobased Materials and Bioenergy, 2012. 6(6): 661-668. (SCI/EI, 影响因子1.037).
[27] Ningbo Gao, Aimin Li*, Proposal of A Semi-empirical Parameter Groups Model of Organic Solid Waste Gasification, The 12th Asian Pacific Confederation of Chemical Engineering Congress, Aug. 2008, Dalian, ISBN: 978-7-5611-4285-1.
[26] Ningbo Gao, Aimin Li*, Pollutants forming characteristics of typical solid waste gasification and combustion treatment, The 2nd China-Korea Joint Symposium on Incineration/Pyrolysis and Environmental Management, Mar, 28, 2006, Hangzhou, China.
[25] Ningbo Gao, Aimin Li*, Experimental study on solid waste gasification in fixed beds, 2nd International Conference on Cooling and Heating Technologies, July 26, 2006, Dalian, China, 260-268.
[24] Ningbo Gao, Aimin Li*, The characteristic parameters model on pyrolysis of solid waste, 1st Korea-China Joint Symposium on Incineration/Pyrolysis and Environmental Management, September 22, 2005, Seoul, Korea, 39-46.
[23] 高宁博,李爱民*,全翠.生物质高温气化重整制氢实验研究,太阳能学报,2014,35(5): 912-918.
[22] 高宁博, 李爱民*. 生物质气化及其影响因素研究进展,化工进展, 2010, 29:52-57.
[21] 高宁博, 李爱民*,蓄热式高温空气制备特性研究, 环境工程学报, 2009, 12(4): 2893-2896
[20] 高宁博, 李爱民*, 蓄热式高温水蒸汽制备实验研究,燃烧科学与技术,2011,17(2):170-174。EI: 20112214017182
[19] 高宁博, 李爱民*, 固体废物气化处理半经验模型的研究, 太阳能学报, 2009, 30(8):1111-1117. (EI).
[18] 高宁博, 李爱民*, 有机废物气化焚烧时NOx和SO2排放的试验研究, 热力发电, 2008, 37(8): 21-25.
[17] 高宁博, 李爱民*, 有机废物在气化焚烧处理中尾气排放灰色预测模型, 大连理工大学学报, 2008, 48 (1): 33-38. (EI).
[16] 高宁博, 李爱民*, 蓄热式高温带压蒸气发生器检测与控制研究, 工业加热, 2008, 37(1): 23-25.
[15] 高宁博, 李爱民*, 蓄热式高温带压蒸气发生器设计, 环境工程学报, 2008, 10(2): 1433-1436.
[14] 高宁博, 李爱民*, 城市垃圾焚烧过程中主要污染物的生成和控制, 电站系统工程, 2006, 22(1): 38-40.
[12] 高宁博, 李爱民*, 李润东, 王志, 姜秀民, 基于VF的循环流化床热力计算通用程序设计, 热力发电, 2004, (1): 55-57.
[11] 高宁博, 李爱民*, 固体废弃物热解产物的参数群神经网络预测模型, 太阳能学报, 2003, 24(4): 523-526, (EI)