李炳熙
近期热点
资料介绍
个人简历
主持国际科技合作专项、国家自然科学基金、国家大科学工程子课题等项目。出版著作1本,发表Book chapter 3 章,发表和录用SCI论文100余篇。工作经历1987.07——1989.11哈尔滨工业大学动力系,助教1989.12——1992.11哈尔滨工业大学动力系,讲师1992.12——1997.11日本北海道大学工学部,文部教官助手1997.12——2000.10哈尔滨工业大学能源科学与工程学院,副教授2000.11——2001.05日本北海道大学工学部(合作研究),访问教授2000.07——现在哈尔滨工业大学能源科学与工程学院,教授2004.05——现在哈尔滨工业大学,博士生导师教育经历1987年7月,哈尔滨工业大学,动力系,工学硕士1997年6月,日本北海道大学,机械学科,工学博士出版物Biomass Gasification: Fundamentals, Experiments, and Simulation.Book Chapter: Exergy of Sawdust. Book Chapter: Temperature Distribution and Water Migration in Unsaturated Soil.讲授课程《制冷原理及工程》《传质学》研究领域
"能源的有效利用:热泵技术,冷蓄水技术,热、冷、电联产等;高效换热元件强化换热;生物质能利用;"近期论文
[47] Yaning Zhang*, Liqing Li, Pingfei Xu, Bingxu Liu, Yong Shuai*, Bingxi Li*. Hydrogen production through biomass gasification in supercritical water: A review from exergy aspect. International Journal of Hydrogen Energy, 2019, 44 (30): 15727-15736.[46] Fei Xu, Yaning Zhang*, Shuang Liang, Bingxi Li*, Yiran Hu, Model development for infiltration of unfrozen water in saturated frozen soil using lattice Boltzmann method. International Journal of Heat and Mass Transfer, 2019, 141: 748-756.[45] Yaning Zhang*, Cunfeng Ke, Yanan Gao, Shiyu Liu, Yaoyu Pan, Nan Zhou, Yunpu Wang, Liangliang Fan, Peng Peng, Bingxi Li*, Roger Ruan*. Syngas production from microwave-assisted air gasification of biomass: Part 2 model validation. Renewable Energy, 2019, 140: 625-632.[44] Cunfeng Ke, Yaning Zhang*, Yanan Gao, Yaoyu Pan, Bingxi Li*, Yunpu Wang, Roger Ruan*. Syngas production from microwave-assisted air gasification of biomass: Part 1 model development. Renewable Energy, 2019, 140: 772-778.[43] Yaning Zhang*, Pingfei Xu, Shuang Liang, Bingxu Liu, Yong Shuai*, Bingxi Li*. Exergy analysis of hydrogen production from steam gasification of biomass: A review. International Journal of Hydrogen Energy, 2019, 44 (28): 14290-14302.[42] Fei Xu, Wenyu Song, Yaning Zhang*, Bingxi Li*, Yiran Hu, Yongsong Kim, Zhongbin Fu. Water content variations during unsaturated feet-scale soil freezing and thawing. Cold Regions Science and Technology, 2019, 162: 96-103.[41] Wei Wang, Yaning Zhang, Kwan-Soo Lee, Bingxi Li*. Optimal design of a double pipe heat exchanger based on the outward helically corrugated tube. International Journal of Heat and Mass Transfer, 2019, 135: 706-716.[40] Xiaoyan Gao, Fei Xu, Fubing Bao, Chengxu Tu, Yaning Zhang*, Yingying Wang, Yang Yang, Bingxi Li*. Simulation and optimization of rice husk gasification using intrinsic reaction rate based CFD model. Renewable Energy, 2019, 139: 611-620.[39] Huaizhi Han, Ruitian Yu, Bingxi Li*, Yaning Zhang, Wei Wang, Xin Chen. Multi-objective optimization of corrugated tube with loose-fit twisted tape using RSM and NSGA-II. International Journal of Heat and Mass Transfer, 2019, 131: 781-794.[38] Wei Wang, Yaning Zhang, Jian Liu, Bingxi Li*, Bengt Sundén*. Numerical investigation of entropy generation of turbulent flow in a novel outward corrugated tube. International Journal of Heat and Mass Transfer, 2018, 126: 836-84.[37] Wei Wang, Yaning Zhang, Jian Liu, Zan Wu, Bingxi Li*, Bengt Sundén*. Entropy generation analysis of fully-developed turbulent heat transfer flow in inward helically corrugated tubes. Numerical Heat Transfer, Part A: Applications, 2018, 73 (11): 788-805.[36] Wei Wang, Yaning Zhang, Yongji Li, Huaizhi Han, Bingxi Li*. Multi-objective optimization of turbulent heat transfer flow in novel outward helically corrugated tubes. Applied Thermal Engineering, 2018, 138: 795-806.[35] Yaning Zhang, Liangliang Fan, Shiyu Liu, Nan Zhou, Kuan Ding, Peng Peng, Erik Anderson, Min Addy, Yanling Cheng, Yuhuan Liu, Bingxi Li, John Snyder, Paul Chen, Roger Ruan. Microwave-assisted co-pyrolysis of brown coal and corn stover for oil production. Bioresource Technology, 2018, 259: 461-464.[34] Xiaoyan Gao, Yaning Zhang, Fubing Bao, Bingxi Li, Yijun Zhao, Cunfeng Ke, Baocheng Jiang. CFD modeling of sawdust gasification in a lab-scale entrained flow reactor based on char intrinsic kinetics. Part 1: Model development. Chemical Engineering and Processing, 2018, 125: 280-289.[33] Yaning Zhang, Xiaoyan Gao, Fubing Bao, Bingxi Li, Yijun Zhao, Cunfeng Ke, Baocheng Jiang. CFD modeling of sawdust gasification in a lab-scale entrained flow reactor based on char intrinsic kinetics. Part 2: Parameter study and multi-objective optimization. Chemical Engineering and Processing, 2018, 125: 290-297.[32] Yaning Zhang, Shiyu Liu, Liangliang Fan, Nan Zhou, Muhammad Mubashar Omar, Peng Peng, Erik Anderson, Min Addy, Yanling Cheng, Yuhuan Liu, Bingxi Li, John Snyder, Paul Chen, Roger Ruan. Oil production from microwave-assisted pyrolysis of a low rank American brown coal. Energy Conversion and Management, 2018, 159: 76-84.[31] Fei Xu, Yaning Zhang, Guangri Jin, Bingxi Li, Yong-Song Kim, Gongnan Xie, Zhongbin Fu. Three phase heat and mass transfer model for unsaturated soil freezing process: Part 1 - model development. Open Physics, 2018, 16: 75-83.[30] Yaning Zhang, Fei Xu, Bingxi Li, Yong-Song Kim, Wenke Zhao, Gongnan Xie, Zhongbin Fu. Three phase heat and mass transfer model for unsaturated soil freezing process: Part 2 - model validation. Open Physics, 2018, 16: 84-92.[29] Yaning Zhang, Xiaoyan Gao, Bingxi Li, Hongtao Li, Wenke Zhao. Assessing the potential environmental impact of woody biomass using quantitative universal exergy. Journal of Cleaner Production, 2018, 176: 693-703.[28] Wei Wang, Yaning Zhang, Yongji Li, Huaizhi Han, Bingxi Li. Numerical study on fully-developed turbulent flow and heat transfer in inward corrugated tubes with double-objective optimization. International Journal of Heat and Mass Transfer, 2018, 120: 782-792.[27] Yaning Zhang, Qian Wang, Bingxi Li, Hongtao Li, Wenke Zhao. Is there a general relationship between the exergy and HHV for rice residues? Renewable energy, 2018, 117: 37-45.[26] Zhi Xu, Yaning Zhang, Bingxi Li, Chi-Chuan Wang, Qin Ma. Heat performances of a thermosyphon as affected by evaporator wettability and filling ratio. Applied Thermal Engineering, 2018, 129: 665-673.[25] Wei Wang, Yaning Zhang, Bingxi Li, Yongji Li. Numerical investigation of tube-side fully developed turbulent flow and heat transfer in outward corrugated tubes. International Journal of Heat and Mass Transfer, 2018, 116: 115-126.[24] Zhi Xu, Yaning Zhang, Bingxi Li, Chi-Chuan Wang, Yongji Li. The influences of the inclination angle and evaporator wettability on the heat performance of a thermosyphon by simulation and experiment. International Journal of Heat and Mass Transfer, 2018, 116: 675-684.[23] Yaning Zhang, Xinmeng Fan, Bingxi Li, Hongtao Li. Assessing the potential environmental impact of fuel using exergy-cases of wheat straw and coal. International Journal of Exergy, 2017, 23 (1): 85-100.[22] Xing Huang, Jiarong Hong, Yaning Zhang, Yong Shuai, Yuan Yuan, Bingxi Li, Heping Tan. Exergy distribution characteristics of solar-thermal dissociation of NiFe2O4 in a solar reactor. Energy, 2017, 123: 131-138.[21] Yaning Zhang, Paul Chen, Shiyu Liu, Peng Peng, Min Min, Yanling Cheng, Erik Anderson, Nan Zhou, Liangliang Fan, Chenghui Liu, Guo Chen, Yuhuan Liu, Hanwu Lei, Bingxi Li, Roger Ruan. Effects of feedstock characteristics on microwave-assisted pyrolysis-a review. Bioresource Technology, 2017, 230: 143-151.[20] Wenyu Song, Yaning Zhang, Bingxi Li, Fei Xu, Zhongbin Fu. Macroscopic lattice Boltzmann model for heat and moisture transfer process with phase transformation in unsaturated porous media during freezing process. Open Physics, 2017, 15: 379-393.[19] Wei Wang, Yaning Zhang, Bingxi Li, Huaizhi Han, Xiaoyan Gao. Influence of geometrical parameters on turbulent flow and heat transfer characteristics in outward helically corrugated tubes. Energy Conversion and Management, 2017, 136: 294-306.[18] Yaning Zhang, Qin Ma, Bingxi Li, Xinmeng Fan, Zhongbin Fu. Application of an air source heat pump (ASHP) for heating in Harbin, the coldest provincial capital of China. Energy and Buildings, 2017, 138: 96-103.[17] Xiaoyan Gao, Yaning Zhang, Bingxi Li, Xiangyu Yu. Model development for biomass gasification in an entrained flow gasifier using intrinsic reaction rate submodel. Energy Conversion and Management, 2016, 108: 120-131.[16] Gao X, Zhang Y, Li B, et al. Determination of the intrinsic reactivities for carbon dioxide gasification of rice husk chars through using random pore model [J]. Bioresource Technology, 2016, 218: 1073–1081.[15] Xu Z, Zhang Y, Li B, et al. Modeling the phase change process for a two-phase closed thermosyphon by considering transient mass transfer time relaxation parameter [J]. International Journal of Heat & Mass Transfer, 2016, 101: 614-619.[14] Zhang Y, Zhao W, Li B, Zhang H, Jiang B, Ke C. Two equations for estimating the exergy of woody biomass based on the exergy of ash [J]. Energy, 2016, 106: 400-407.[13] Song W, Zhang Y, Li B, et al. A lattice Boltzmann model for heat and mass transfer phenomena with phase transformations in unsaturated soil during freezing process [J]. International Journal of Heat & Mass Transfer, 2016, 94: 29-38.[12] Feng Y, Hung T, Greg K, Zhang Y, Li B, Yang J. Thermoeconomic comparison between pure and mixture working fluids of organic Rankine cycles (ORCs) for low temperature waste heat recovery [J]. Energy Conversion & Management, 2015, 106: 859-872.[11] Feng Y, Zhang Y, Li B, Yang J, Shi Y. Comparison between regenerative organic Rankine cycle (RORC) and basic organic Rankine cycle (BORC) based on thermoeconomic multi-objective optimization considering exergy efficiency and levelized energy cost ( LEC ) [J]. Energy Conversion & Management, 2015, 96: 58-71.[10] Han H Z, Li B X, Wu H, Shao W. Multi-objective shape optimization of double pipe heat exchanger with inner corrugated tube using RSM method [J]. International Journal of Thermal Sciences, 2015, 90: 173-186.[9] Feng Y, Zhang Y, Li B, Yang J, Shi Y. Sensitivity analysis and thermoeconomic comparison of ORCs (organicRankine cycles) for low temperature waste heat recovery [J]. Energy, 2015, 82: 664–677.[8] Feng Y, Hung T C, Zhang Y, Li B, Yang J, Shi Y. Performance comparison of low-grade ORCs (organic Rankine cycles) using R245fa, pentane and their mixtures based on the thermoeconomic multi-objective optimization and decision makings [J]. Energy, 2015, 93: 2018-2029.[7] Zhang Y, Gao X, Li B, Zhang H, Qi B, Wu Y. An expeditious methodology for estimating the exergy of woody biomass by means of heating values [J]. Fuel, 2015, 159: 712-719.[6] Zhang Y, Zhao Y, Gao X, Li B, Huang J. Energy and exergy analyses of syngas produced from rice husk gasification in an entrained flow reactor [J]. Journal of Cleaner Production, 2015, 95: 273-280.[5] Han H, Li B, Shao W. Multi-objective optimization of outward convex corrugated tubes using response surface methodology [J]. Applied Thermal Engineering, 2014, 70 (1): 250-262.[4] Han H Z, Li B X, Li F C, He Y R. RST model for turbulent flow and heat transfer mechanism in an outward convex corrugated tube [J]. Computers & Fluids, 2013, 91 (7): 107-129.[3] Han HZ, Li BX, Yu BY, He YR, Li FC. Numerical study of flow and heat transfer characteristics in outward convex corrugated tubes, International Journal of Heat and Mass Transfer, 2012, 55: 7782-7802.[2] Zhang Y, Li B, Li H, Zhang B. Exergy analysis of biomass utilization via steam gasification and partial oxidation. Thermochimica Acta, 2012, 538: 21-28.[1] Zhang Y, Li B, Li H, Liu H. Thermodynamic evaluation of biomass gasification with air in autothermal gasifiers. Thermochimica Acta, 2011, 519 (1-2): 65-71. 相关热点