Bai Hao
Bai Hao (1969 -) was born in Changli County, Hebei Province. Professor of Beijing University of science and technology, doctor of engineering, doctoral supervisor. Mainly engaged in industrial ecology teaching research. He is a senior member of China Society of mechanical engineering, deputy general director of industrial furnace branch of China Society of mechanical engineering, expert group of China material recycling association and evaluation expert of China International Engineering Consulting Company.
Character experience
Graduated from Department of thermal energy engineering, Beijing University of science and technology in 1991. In April 1997, he obtained a master's degree from Department of metallurgy, Beijing University of science and technology, and then stayed in the university to engage in teaching and scientific research. From October 2002 to March 2006, he obtained a doctor's degree in metal engineering in Engineering Research Department of Northeastern University, Sendai, Japan. During his doctoral degree, he was engaged in the research of fine dust capture in steelmaking, and the numerical and experimental analysis of aerosol coalescence velocity considering London van der Waals force was carried out. Since returning to China in April 2006, he has been an associate professor and professor in the Department of ecological science and engineering, School of metallurgy and ecological engineering, Beijing University of science and technology, engaged in the teaching and research of energy conservation and environmental protection and industrial ecology in metallurgical industry. social position 1. Member of American Society of mining, metals and materials (TMS) 2. Member of Japan iron and steel society 3. Senior member of China Society of mechanical engineering, executive director of industrial furnace branch of China Society of mechanical engineering 4. Consulting and evaluation expert of China International Consulting Engineering Corporation 5. Expert group of China material recycling association
Lecture course
Undergraduate course: Metallurgical transmission principle, environmental transmission principle, heat energy conversion and efficient utilization, ecological engineering design principle; postgraduate course: Metallurgical transmission theory and application, energy saving and emission reduction technology of iron and steel industry system, metallurgical energy saving principle and technology.
Research direction
The main research directions are: 1) analysis and Simulation of flow and heat transfer phenomena in industrial processes.
2) basic research and industrial application of new energy technologies: research and development of low-temperature heat source thermal system; research and development of new high emissivity energy-saving coating materials.
3) evaluation and optimization of energy system: Bottleneck Analysis of energy consumption in iron and steel industry; exergy analysis and evaluation of energy system; energy consumption optimization of energy system.
4) carbon emission model and analysis: Construction of carbon emission process model and low carbon index system of iron and steel enterprises.
5) basic research on aerosol and particulate pollution control.
6) research on resource utilization technology of metallurgical solid waste: basic research on ceramic materials with steel slag as raw material.
Main contributions
Research achievements
(1) Collection behavior and turbulent coalescence mechanism of aerosol particles in industrial dust in filter layer, project of National Natural Science Foundation of China, first director, 2006-2009.
(2) structural parameter optimization and special rolling and equipment technology research of energy-saving integral steel spiral finned tube, project undertaker, Ministry of education of Guangdong Province, 2007-2009.
(3) development and application of high temperature radiant material coating technology on the surface of hot blast furnace regenerator, technology innovation fund for small and medium-sized science and technology enterprises, project undertaker, 2006-2009.
(4) Baosteel energy saving advantage analysis and energy saving and emission reduction potential research, Baosteel horizontal project, project undertaker, 2007-2008.
(5) Metallurgical pollution control and ceramic waste recycling technology development and industrial demonstration, key breakthrough bidding project in Guangdong and Hong Kong key fields, project undertaker, 2007-2009.
(6) research on energy consumption diagnosis and energy flow network optimization of Jinan Iron and Steel Co., Ltd., horizontal project of Jinan Iron and Steel Co., Ltd., project leader, 2009-1011.
(7) development of non hydraulic working medium selection and performance optimization technology for thermal system of low temperature waste heat power generation, horizontal project of China Shipbuilding Heavy Industry, project leader, 2011-2012.
(8) basic research on Key Technologies of high value-added products made from steel slag "hot" and "slag", key project of National Natural Science Foundation of China, sub project leader, 2011-2014.
(9) comprehensive development and research of urban low carbon technology, horizontal project of Beijing kapen Low Carbon Technology Research Institute, sub project leader, 2010-2011.
Papers and works
1. Bai Hao, Qian Wentao, Zong Yanbing, et al. Study on coagulation properties of fine particles in iron and steel process, Journal of Beijing University of science and technology, V29 (S2): 69-72. Bai Hao, Wang Miao, Cang Daqiang, et al. Energy saving effect and mechanism analysis of high emissivity coating for blast furnace hot blast stove, Journal of Beijing University of science and technology, V32 (7): 925-921. Bai Hao, Ma Yang, Wang Gang, et al. Scenario analysis based on energy consumption index decomposition model for iron and steel enterprises, Journal of Beijing University of science and technology, V32 (11): 1513-1519. Gao Yufeng, Bai Hao, Cang Daqiang, et al. Numerical simulation of medium frequency induction heating for spiral finned tube rolling, Journal of Beijing University of science and technology, V31 (10): 1311-1315. 8.H.Bai,P.Liu, LH.Zhao ,etc.,Analysisonthemicrostructurecharacteristicsofsteel-slagbasedceramics,AdvancedMaterialsResearch,v150-151,p133-138。 Bai Hao, Liu Pu, Li Hongxu, et al. CO2 emission model and reduction strategy of iron and steel enterprises, Journal of Beijing University of science and technology, V32 (12): 1623-1629. Wang Gang, Bai Hao, Cang Daqiang, et al. Mathematical model and application of energy consumption bottleneck diagnosis in iron and steel enterprises, Journal of Beijing University of science and technology, V31, n91195-1199. 7.M.Wang,H.Bai, DQ.Cang , etc., research on the optimization application of BF hot stop energy saving coating, Journal of South and Steel Research International, v161007-1010, sub series: art2sul. 2. 9.H.Bai,Y.Ma, HF.Li ,ect.,Energysavingbottleneckanalysisinironandsteelplantbasedondecompositionmodelofenergyconsumptionindex,Proceedings-2010InternationalConferenceonDigitalManufacturingandAutomation,ICDMA2010,v1,p648-651,2010。 10.H.Bai,Y.Ma,ect.,Chemicalandmorphologicalpropertiesofparticulatemattergeneratedfromcoal-firedcirculatingfluidizedbedboiler,3rdInternationalConferenceonMeasuringTechnologyandMechatronicsAutomation,ICMTMA2011,v1,708-711。 11.Y.Ma,H.Bai,ect.,Studyontherespirableparticulatemattergeneratedfromthepetroleumcokeandcoalmixed-firedCFBboiler,2010InternationalConferenceonDigitalManufacturingandAutomation,ICDMA2010,v2,569-572,2010。 12.H.Bai, YF.Gao ,W.Wei,ect.,DynamicSimulationandAnalysisofRollingProcessofIntegralSteelSpiralFinnedTube,AdvancedScienceLetters,v4,1-4。 13.H.Bai,P.Liu, HX.Li ,ect.,AnalysisofCarbonEmissionReductionofChina’sIntegratedSteelworks,TMS(TheMinerals,Metals&MaterialsSociety),2011,253-264。 14. Wang Miao, Cang Daqiang, Bai Hao, etc., energy saving effect of high emissivity coating applied to blast furnace hot blast stove, steel,
Chinese PinYin : Bai Hao
Bai Hao