杜雪平
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杜雪平,中国矿业大学,电气与动力工程学院,博士、讲师、硕士生导师;博士毕业于西安交通大学动力工程及工程热物理专业,入选中国矿业大学第八批青年教师“启航计划”培养对象。目前主持国家自然科学基金青年项目1项、教育部重点实验室开放基金1项、中央高校基本科研业务费专项资金1项、省博士后基金1项、中国矿业大学人才引进项目1项、横向研发课题2项、教学研究项目3项,撰写英文专著1章、发表SCI论文10篇、其他期刊/会议论文等共30余篇,作国际会议邀请报告(Invited report)1次。科研项目主持科研项目(8)国家自然科学基金青年项目:晃荡条件下复杂缠绕管通道内相变传热机理研究(No.51806236);(7)陕西省博士后科研资助项目:海基LNG螺旋缠绕式通道的多股流强化传热研究(No.2018BSHEDZZ56);(6)热流科学与工程教育部重点实验室开放基金:晃荡对FLNG缠绕式换热器相变传热性能的影响研究(No.KLTFSE2017KFJJ01);(5)“中央高校基本科研业务费专项资金”(学科前沿科学研究专项)资助项目:倾斜角度下的空冷换热器流动与换热性能耦合的机理研究(No.2015XKMS059);(4)中国矿业大学第八批青年教师“启航计划”培养资助项目:基于CFD技术的空气进口角度对空冷换热器综合换热性能的影响研究;(3)中国矿业大学高级人才引进项目:椭圆管翅式空冷换热器的性能预测及优化;(2)杭州福斯达深冷装备股份有限公司:LNG缠绕式换热器气液两相流分配数值模拟研究;(1)贵州盘江煤电(集团)有限责任公司:低浓度瓦斯阵列脉动燃烧技术及装备参与科研项目(4)中国平煤神马能源化工集团有限责任公司:深热矿井采掘面不同劳动条件下舒适性分析与评价研究;(3)国家自然科学基金青年项目:非均匀边界对相变储热过程特性及性能强化的影响机制研究(No.51806237);(2)国家自然科学基金青年项目:微小通道内相变胶囊热输运过程热质传递特性及微观调控机理(No.51806238);(1)国家自然科学基金面上项目:基于微通道的锂离子动力电池热管理系统热质传递特性与强化研究(No.51776218)教学研究项目(4)2019年中国矿业大学研究生教育教学改革研究与实践课题:能源动力工程硕士专业学位《工程伦理》课程建设(项目编号:2019YJSJG019);(3)2019年中国矿业大学教学研究项目一般项目:“新工科”素质拓展课程考核模式改革的研究与实践(No.2019YB51);(2)中国矿业大学电气与动力工程学院2017年度教育教学改革项目:基于能源转化的实践创新能力培养教学改革与实践;(1)教育部高等学校能源动力类专业教育教学改革项目:以学生能力为本的课堂教学模式创新与实践(No.NDJZW2016Y-69)专著[[1]Xueping Du,Min Zeng,Gongnan Xie,Qiuwang Wang*.Thermal performance prediction and optimization of\研究领域
"天然气液化、新型高效换热设备的强化传热/传质研究、基于人工智能算法的优化设计、电子器件及设备的热管理、余热回收利用、智慧换热网络、矿井除湿降温。"近期论文
期刊论文[16]Xueping Du,Zhen Qian,Zhilin Chen,Zhonghao Rao*.Experimental investigation on mini-channel cooling–based thermal management for Li-ion battery module under different cooling schemes[J].International Journal of Energy Research,2018,42(8):2781-2788.[15]Xueping Du,Dongtai Han*,Qiangmin Zhu.Heat transfer enhancement of the air-cooling tower with rotating wind deflectors under crosswind conditions[J].Applied Sciences,2018,8(4):544.[14]Xueping Du,Min Zeng M,Zhaoyi Dong,Qiuwang Wang*.Experimental study of the effect of air inlet angle on the air-side performance for cross-flow finned oval-tube heat exchangers[J].Experimental Thermal and Fluid Science,2014,52:146-155.[13]Xueping Du,Min Zeng,Qiuwang Wang*,Zhaoyi Dong.Experimental investigation of heat transfer and resistance characteristics of a finned oval-tube heat exchanger with different air inlet angles.Heat Transfer Engineering.2014,35(6-8):703-710.[12]Xueping Du,Yantao Yin,Min Zeng,Pengqing Yu,Qiuwang Wang*,Zhaoyi Dong,Yitung Chen.An Experimental investigation on air-side performances of finned tube heat exchangers for indirect air-cooling tower.Thermal Science.2014,18(3):863-874.[11]Linghong Tang,Xueping Du,Jie Pan J,Bengt Sundén*.Air inlet angle influence on the air-side heat transfer and flow friction characteristics of a finned oval tube heat exchanger[J].International Journal of Heat and Mass Transfer,2019,145:118702.[10]Chengyun Xin*,Xueping Du,Feiqiang Guo,Shuanglin Shen.Radiation Thermometry Algorithms with Emissivity Constraint[J].Spectroscopy and Spectral Analysis,2019,39(3):679-681.[9]Lang Lu,Xueping Du,Chengyun Xin.Modeling and Simulation of Local Thermal Non-equilibrium Effects in Porous Media with Small Thermal Conductivity[J].Transport in Porous Media,2018,124(2):553-575.[8]Xing Lu,Xueping Du,Min Zeng,Sen Zhang,Qiuwang Wang*.Shell-side thermal-hydraulic performances of multilayer spiral-wound heat exchangers under different wall thermal boundary conditions[J].Applied Thermal Engineering,2014,70(2):1216–1227.[7]Qiuwang Wang*,Min Zeng,Ting Ma,Xueping Du,Jian Feng Yang.Recent development and application of several high-efficiency surface heat exchangers for energy conversion and utilization[J].Applied Energy,2014,35:748-777.[6]Xueping Du,Min Zeng,Qiuwang Wang*,Zhaoyi Dong.Experimental study on heat transfer and resistance performance of elliptical finned tube heat exchanger with different air entrance angles[J].Chemical Engineering Transactions,2011,25:369-374.[5]Xing Lu,Xueping Du,Sen Zhang,Min Zeng,Qiuwang Wang*.Experimental and numerical investigation on shell-side performance of multilayer spiral-wound heat exchangers[J],Chemical Engineering Transactions,2013,35:445-450.[4]Gaopeng Zhang,Xing Lu,Xueping Du,Min Zeng,Qiuwang Wang*.Parametric study on flow and heat transfer performance of multi-flow spiral-wound heat exchanger[J],Chemical Engineering Transactions,2014,39:319-324.[3]杜雪平,陈贵冬,曾敏,王秋旺*.基于Goose LDW-PSO的管壳式换热器优化设计.工程热物理学报,2010,31(4):679-681.[2]唐凌虹,杜雪平,曾敏*.进风角度对椭圆管翅式换热器流动性能的影响[J].动力工程学报,2017,37(8):649-654.[1]朱强敏,韩东太*,杜雪平.火电厂间接空冷塔导风板数值研究[J].工程热物理学报,2016,37(12):2660-2667.会议论文[17]Xueping Du*,Zhaofeng Dai,Yuzhen Niu,Qiuwang Wang,Yimin Li.Numerical Simulation on Shell-side Vaporization Heat Transfer of LNG Spiral-Wound Heat Exchangers under Sloshing Condition[C].5th International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control(IWHT2019).Novosibirsk,Russia,2019.(邀请报告)[16]Xueping Du,Min Zeng,Qiuwang Wang*.Ann prediction on thermo-hydraulic performances of finned oval-tube heat exchanger with limited experimental data[C].3rd International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control.Taipei,Taiwan,2015.[15]Xueping Du,Pengqing Yu,Min Zeng,Ting Ma,Qiuwang Wang*.Experimental Investigation on Comprehensive Performances of Finned Tube Heat Exchangers for Indirect Air-Cooling Tower[C].The 8th Conference on Sustainable Development of Energy,Water and Environment Systems.Dubrovnik,Croatia,2013,September 22-27.[14]Xueping Du,Pengqing Yu,Min Zeng,Qiuwang Wang*.Experimental data analysis for a finned oval-tube heat exchanger under four air inlet angles using ANN approach[C].23rd International Symposium on Transport Phenomena.Auckland,New Zealand,2012,November 19-22.[13]Xueping Du,Min Zeng,Qiuwang Wang*,Zhaoyi Dong.Experimental Study on Heat Transfer and Resistance Performance of Elliptical Finned Tube Heat Exchanger with Different Air Entrance Angles[C].14th International Conference on Process Integration,Modelling and Optimisation for Energy Saving and Pollution Reduction.Florence,Italy,2011.[12]Xueping Du,Min Zeng,Qiuwang Wang*,Zhaoyi Dong.Experimental Investigation of Heat Transfer and Pressure Drop Characteristics of Elliptical Finned Tube Heat Exchanger with Different Air Inlet Angles[C].2011 International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control.Xi'an,China,2011,October 17-20.[11]Xing Lu,Xueping Du,Sen Zhang,Min Zeng,Qiuwang Wang*.Experimental and Numerical Investigation on Shell-side Performance of Multilayer Spiral-Wound Heat Exchangers[C].16th International Conference on Process Integration,Modelling and Optimisation for Energy Saving and Pollution Reduction.Rhodes,Greece,2013.[10]杜雪平*,戴照峰,陈志杰.LNG缠绕式换热器壳侧汽化传热数值模拟研究[C].2019年中国工程热物理学会传热传质学术会议.青岛,2019,10.18-20.[9]杜雪平,王兴明,辛成运,饶中浩*.基于相变储能的重力热管传热特性实验研究[C].2017江苏省工程热物理年会.南京,2017.[8]杜雪平,曾敏,王秋旺*.基于ANN的椭圆管翅式空冷换热器的性能预测[C].2016江苏省工程热物理年会.南京,2016.[7]杜雪平,曾敏,王秋旺*.基于PSO的空冷三角单元的多目标优化[C].2015年中国工程热物理学会传热传质学术会议.大连,2015.[6]戴照峰,李恒,赵长鑫,杜雪平*.吸热涂层对自然冷却塔冷却性能的影响[C].2017江苏省工程热物理年会.南京,2017.[5]张高鹏,芦星,杜雪平,曾敏,王秋旺*.多股流绕管式换热器流动传热数值研究[C].2014年中国工程热物理学会传热传质学术会议.西安,2014.[4]芦星,杜雪平,张高鹏,曾敏,王秋旺*.列管式多重套管换热器耦合换热数值模拟[C].2013年中国工程热物理学会传热传质学术会议.重庆,2013.[3]杜雪平,喻澎清,曾敏,王秋旺*.基于人工神经网络的椭圆管翅式换热器实验数据分析[C].2012年中国工程热物理学会传热传质学术会议.东莞,2012.[2]杜雪平,曾敏,王秋旺*,董兆一.双排管单管程椭圆管翅式换热器的实验研究[C].2011年中国工程热物理学会传热传质学术会议.西安,2011.[1]杜雪平,陈贵冬,曾敏,王秋旺*.基于Goose LDW-PSO的管壳式换热器优化设计[C].2009年中国工程热物理学会传热传质学术会议.青岛,2009.[7]西安交通大学徐州校友会副秘书长;[6]国家自然科学基金项目评审专家;[5]International Journal of Heat and Mass Transfer、Applied Thermal Engineering、Journal of Enhanced Heat Transfer、Journal of Porous Media、Special Topics&Reviews in Porous Media、IHTC、IWHT等期刊/会议的审稿人;[4]高等学校工程热物理学会会员;[3]2015年江苏省工程热物理年会组委会委员;[2]江苏省工程热物理学会会员;[1]中国工程热物理学会会员 相关热点
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