张海 - 上海交通大学 - 机械与动力工程学院

个人简介

教育背景 2010-2015 上海交通大学博士 2006-2010 南京师范大学学士工作经历 2022.1-至今上海交通大学热能工程研究所副教授，博士生导师 2019.2-2021.12 上海交通大学热能工程研究所助理教授，博士生导师 2015.12-2019.1 上海交通大学核科学与技术流动站博士后研究员出访及挂职经历 2018年慕尼黑工业大学航空推进研究所科研项目主持项目： 2023-2026 国家自然科学基金面上项目，氨煤掺混燃烧焦炭活性位共振及其对NO生成与还原的影响机制研究, 主持 2023-2026 科技部重点研发计划子课题，掺氨燃料低污染稳定燃烧技术及控制策略，主持 2019-2021 国家自然科学基金青年项目，富氧燃烧模式下基于煤焦表面特征结构电子效应的NO非均相转化机理，主持 2021-2024 上海市自然科学基金面上项目，多尺度耦合计算的煤燃烧氮氧化物链式生成机理研究，主持 2016-2018 中国博士后面上基金一等资助，基于自由基取代定位效应的煤氮环境变异及选择性定向迁移，主持 2023-2024 中国船舶重工集团公司第七一一研究所，石油焦基本特征及资源化利用研究，主持 2022-2023 上海市经济和信息化委员会，碳捕集利用与封存技术路径比较研究，主持 2022-2023 上海发电设备成套设计研究院，燃煤机组协同处置含碳废弃物关键技术研发及应用，主持 2021-2022 欧萨斯能源环境设备有限公司，HRSG锅炉流场及温度场模拟仿真计算，主持 2019-2021 上海交通大学双一流学科建设项目，主持 2022-2024 上海交通大学研究生专业前沿课程建设项目，《低碳能源技术》，主持主参项目： 2021-2024 国家自然科学基金面上项目，基于大分子聚集态定向调控的燃煤超低NOx生成机理，主参 2019-2022 国家自然科学基金面上项目，超细煤粉热解及燃烧过程中间体生成机理耦合反应过程调控，主参 2019-2029 江苏一品环保科技有限公司，污泥高效洁净焚烧技术开发与应用，主参 2018-2021 国家自然科学基金面上项目，基于瞬态中间体识别的多尺度超细煤粉大分子网络模型构建及其热转化分子机理研究，主参 2014-2017 国家自然科学基金面上项目，煤粉机械力化学改性及O2/CO2燃烧的基础研究，主参 2014-2016 国家自然科学基金青年项目：超细煤粉基于自由基反应路径的氮转化通道竞争机制研究，主参教学工作 2020-2021 工科平台 “工程学导论”评价A1 2021-2022 工科平台 “工程学导论”评价A0 2020-2021 机械动力类专业实习 2021-2022 机械动力类专业实习本科生PRP项目：高精度量子化学方法构筑厨余垃圾典型含氮组分迁移转化多通道反应网络；本科生PRP项目：数据驱动的高精度计算化学方法；本科生校企合作毕业设计：电站SO3脱除化学反应模拟及烟气流场优化；本科生校企合作毕业设计：燃煤机组脱硫废水零排放及炉内脱硝系统对机组运行影响研究。荣誉奖励 2022 聘期考核优秀 2022 学院最受欢迎教师 2022 上海交通大学教师教学创新大赛一等奖 2022 全国大学生节能减排社会实践与科技竞赛三等奖指导教师 2021 全国百篇优秀学士学位论文指导教师 2021 上海交通大学优秀班主任 2021 机械与动力工程学院青年教师教学竞赛三等奖 2016 上海交通大学凯原励志奖学金 2014 博士研究生国家奖学金 2013 上海交通大学烟台龙源奖学金 2012 动力工程及工程热物理全国博士生学术论坛优秀报告奖、优秀论文奖 2010 全国大学生节能减排社会实践与科技竞赛一等奖

研究领域

1. 机器学习结合高通量计算的催化材料设计； 2. 复杂热力过程的高保真数值模拟及流程优化； 3. 烟气二氧化碳捕集、利用与封存技术； 4. 基于量子化学计算的燃烧源污染物生成机理。

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）

First-authored 1.Hai Zhang, Lei Luo, Jiaxun Liu, Anyao Jiao, Jianguo Liu, Xiumin Jiang. Theoretical study on the reduction reactions from solid char(N): the effect of the nearby group and the high-spin state. Energy 2019 https://doi.org/10.1016/j.energy.2019.116286 2.Hai Zhang, Xiumin Jiang, Jiaxun Liu, Jianguo Liu. Theoretical study on the reactions originating from solid char(N): Radical preference and possible surface N2 formation reactions. Industrial Engineering Chemistry Research 2019; 58: 18021-18026. 3.Hai Zhang, Jiaxun Liu, Jianguo Liu, Lei Luo, Xiumin Jiang. DFT study on the alternative NH3 formation path and its functional group effect. Fuel 2018; 214: 108-114. 4.Hai Zhang, Jiaxun Liu, Xiaoye Wang, Lei Luo, Xiumin Jiang. DFT study on the C(N)-NO reaction with isolated and contiguous active sites. Fuel 2017; 203: 715-724. 5.Hai Zhang, Xiaoye Wang, Lei Luo, Jiaxun Liu, Xiumin Jiang. First principles investigation on the two-state reactivity of N-exposure during coal combustion. Fuel 2017; 190: 21-31. 6.Hai Zhang, Jiaxun Liu, Xiaoye Wang, Xiumin Jiang. Density functional theory study on two different oxygen enhancement mechanisms during NO-char interaction. Combustion and Flame 2016; 169: 11-18. 7.Hai Zhang, Jiaxun Liu, Jun Shen, Xiumin Jiang. Thermodynamic and kinetic evaluation of the reaction between NO (nitric oxide) and char(N) (char bound nitrogen) in coal combustion. Energy 2015; 82: 312-321. 8.Hai Zhang, Xiumin Jiang, Jiaxun Liu, Jun Shen. Application of density functional theory to the nitric oxide heterogeneous reduction mechanism in the presence of hydroxyl and carbonyl groups. Energy Conversion and Management 2014; 83: 167-176. 9.Hai Zhang, Xiumin Jiang, Jiaxun Liu, Jun Shen. New insights into the heterogeneous reduction reaction between NO and char-bound nitrogen. Industrial Engineering Chemistry Research 2014; 53: 6307-6315. 10.Hai Zhang, Xiumin Jiang, Jiaxun Liu, Jun Shen. Theoretical study on the specific role of superfine char surface oxygen-NO consumption mechanism. Powder Technology 2013; 249: 82-88. 11.Hai Zhang, Jiaxun Liu, Jun Shen, Xiumin Jiang. A combined experimental and theoretical study of micronized coal reburning. Frontiers in Energy 2013; 7: 119-126. 12.Hai Zhang, Jian Pu, Xiaocheng Zhang. A model for predicting vacuum in the condenser based on Elman neural network by using particle swarm optimization algorithm (in Chinese). Thermal Power Generation, 2010, 39(4): 7-11. 13.Hai Zhang, Jian Pu. Prediction of coal slurry concentration based on PSO-BP neural networks (in Chinese). Gas Turbine Technology, 2009, 22(2): 42-46. 14.Hai Zhang, Jian Pu, Xiaocheng Zhang. A optimizing sequencing of compressor vanes based on simulated annealing partheno genetic algorithm (in Chinese). Gas Turbine Technology, 2009, 22(4): 49-53. 15.Hai Zhang, Xiaocheng Zhang, Bicui Ye, Yaqi Liu. Research on optimizing algorithm for nonlinear optimization model for blending power coal (in Chinese). Coal Preparation Technology, 2009, 5: 57-60. Co-authored: 16.Lei Luo, Hai Zhang, Anyao Jiao, Yuanzhen Jiang, Jiaxun Liu, Xiumin Jiang, Feng Tian. Study on the formation and dissipation mechanism of gas phase products during rapid pyrolysis of superfine pulverized coal in entrained flow reactor. Energy 2019; 173: 985-994. 17.Jun Shen, Hai Zhang, Jiaxun Liu, Lei Luo, Sha Wang, Bin Chen, Xiumin Jiang. Density functional and experimental study of NO/O2 on zigzag char. Journal of Environmetal Science 2020; 88: 283-291. 18.Anyao Jiao, Hai Zhang, Jiaxun Liu, Xiumin Jiang. Quantum chemical and kinetics calculations for the NO reduction with char(N): Influence of the carbon monoxide. Combustion and Flame 2018; 196: 377-385. 19.Anyao Jiao, Hai Zhang, Jiaxun Liu, Jun Shen, Xiumin Jiang. The role of CO played in the nitric oxide heterogeneous reduction: A quantum chemistry study. Energy 2017; 141: 1538-1546. 20.Jiaxun Liu, Hai Zhang, Jianguo Liu, Xiumin Jiang. Comminution theory of superfine pulverized coal based on fractal analysis of aggregate structures. Energy and Fuels 2016; 30: 10244-10252. 21.Lei Luo, Jiaxun Liu, Hai Zhang, Junfang Ma, Xiaoye Wang, Xiumin Jiang. TG-MS-FTIR study on pyrolysis behavior of superfine pulverized coal. Journal of Analytical and Applied Pyrolysis 2017; 128: 64-74. 22.Jun Shen, Jiaxun Liu, Hai Zhang, Xiumin Jiang. NOx emission characteristics of superfine pulverized anthracite coal in air-staged combustion. Energy Conversion and Management 2013; 74: 454-461. 23.Jun Shen, Jiaxun Liu, Yanfeng Xing, Hai Zhang, Lei Luo, Xiumin Jiang. Application of TG-FTIR analysis to superfine pulverized coal. Journal of Analytical and Applied Pyrolysis 2018; 133: 154-161. 24.Lei Luo, Wang Yao, Jiaxun Liu, Hai Zhang, Junfang Ma, Xiumin Jiang. Evolution of NOx precursors of superfine pulverized coal with a fixed bed in N2 and CO2. Fuel 2018; 234: 263-275. 25.Lei Luo, Wang Yao, Jiaxun Liu, Hai Zhang, Junfang Ma, Xiumin Jiang. The effect of the grinding process on pore structures, functional groups and release characteristic of flash pyrolysis of superfine pulverized coal. Fuel 2019; 235: 1337-1346. 26.Jiaxun Liu, Junfang Ma, Lei Luo, Hai Zhang, Xiumin Jiang. Pyrolysis of superfine pulverized coal. Part 5. Thermogravimetric analysis. Energy Conversion and Management 2017; 154: 491-502. 27.Jiaxun Liu, Xiumin Jiang, Yuchen Zhang, Hai Zhang, Lei Luo, Xiaoye Wang. Size segregation behavior of heavy metals in superfine pulverized coal using synchrotron radiation-induced X-ray fluorescence. Fuel 2016; 181: 1081-1088. 28.Lei Luo, Jiaxun Liu, Yuchen Zhang, Hai Zhang, Junnfang Ma, Yulong You, Xiumin Jiang. Application of small angle X-ray scattering in evaluation of pore structure of superfine pulverized coal/char. Fuel 2016; 185: 190-198. 29.Jiaxun Liu, Lei Luo, Junfang Ma, Hai Zhang, Xiumin Jiang. Chemical Properties of Superfine Pulverized Coal Particles. 3. Nuclear Magnetic Resonance Analysis of Carbon Structural Features. Energy and Fuels 2016; 30: 6321-6329. 30.Jiaxun Liu, Xiumin Jiang, Jun Shen, Hai Zhang. Influences of particle size, ultraviolet irradiation and pyrolysis temperature on stable free radicals in coal. Powder Technology 2015; 272: 64-74. 31.Jiaxun Liu, Xiumin Jiang, Jun Shen, Hai Zhang. Pyrolysis of superfine pulverized coal. Part 3. Mechanisms of nitrogen-containing species formation. Energy Conversion and Management 2015; 94: 130-138. 32.Jun Shen, Jiaxun Liu, Junfang Ma, Hai Zhang, Xiumin Jiang. Parametric study of reburning of nitrogen oxide for superfine pulverized coal. Energy Conversion and Management 2015; 89: 825-832. 33.Jiaxun Liu, Xiumin Jiang, Jun Shen, Hai Zhang. NO emissions from oxidizer staged combustion of superfine pulverized coal in the O2/CO2 atmosphere. Energy and Fuels 2014; 28: 5497-5504. 34.Jiaxun Liu, Xiumin Jiang, Jun Shen, Hai Zhang. Pyrolysis of superfine pulverized coal in different atmospheres. Part 1. Mechanisms of methane formation. Energy Conversion and Management 2014; 87: 1027-1038. 35.Jiaxun Liu, Xiumin Jiang, Jun Shen, Hai Zhang. Pyrolysis of superfine pulverized coal in different atmospheres. Part 2. Mechanisms of carbon monoxide formation. Energy Conversion and Management 2014; 87: 1039-1049. 36.Jiaxun Liu, Xiumin Jiang, Jun Shen, Hai Zhang. Chemical properties of superfine pulverized coal particles. Part 1. Electron paramagnetic resonance analysis of free radical characteristics. Advanced Powder Technology 2014; 25: 916-925. 37.Jiaxun Liu, Yang Ma, Lei Luo, Junfang Ma, Hai Zhang, Xiumin Jiang. Pyrolysis of superfine pulverized coal. Part 4. Evolution of functionalities in chars. Energy Conversion and Management 2017; 134: 32-46. 38.Jiaxun Liu, Xiumin Jiang, Yuchen Zhang, Jun Shen, Hai Zhang. Size effects on the thermal behavior of superfine pulverized coal ash. Energy Conversion and Management 2016; 123: 280-289. 39.Jiaxun Liu, Shan Gao, Xiumin Jiang, Jun Shen, Hai Zhang. NO emission characteristics of superfine pulverized coal combustion in the O2/CO2 atmosphere. Energy Conversion and Management 2014; 77: 349-355. 40.Jiaxun Liu, Xiumin Jiang, Xiangxin Han, Jun Shen, Hai Zhang. Chemical properties of superfine pulverized coals. Part 2. Demineralization effects on free radical characteristics. Fuel 2014; 115: 685-696. 41.Jun Shen, Xiumin Jiang, Jiaxun Liu, Xiangyong Huang, Hai Zhang. Investigation of NOx emissions for superfine pulverized coal in air-staging combustion. Energy and Fuels 2011; 25: 4999-5006.