更新日期:2019年9月17日
姓 名 饶中浩 性 别
出生年月 1985年3月 籍贯 河南罗山县
民 族 汉族 政治面貌 中共党员
最后学历 博士研究生 最后学位 工学博士
技术职称 教授 导师类别 博、硕导
行政职务 Email raozhonghao@cumt.edu.cn
工作单位 电气与动力工程学院 邮政编码 221116
通讯地址 江苏省徐州市大学路1号
单位电话
个人主页 http://rao.cumt.edu.cn/
个人简介

饶中浩,教授、博士生导师,江苏省高效储能技术与装备工程实验室主任,中国矿业大学学校学术委员会委员,英国University of Nottingham高级研究学者,美国Texas A&M University高级研究学者,日本Hokkaido University日本学术振兴会外籍聘用研究员(JSPS Fellow)。先后入选第四批国家“万人计划”青年拔尖人才,江苏省“双创团队”核心成员,江苏省优秀青年基金,江苏省“青蓝工程”中青年学术带头人,江苏省“六大人才高峰”高层次人才,江苏省“333高层次人才培养工程”中青年学术技术带头人,江苏省“青蓝工程”优秀青年骨干教师。是第九届侯德榜化工科技青年奖,第十二届江苏省优秀科技工作者,广东省优秀博士学位论文,吴仲华优秀学生奖,教育部学术新人奖获得者。获中国矿业大学首届青年五四奖章,中国矿业大学十佳青年教职工,中国矿业大学优秀教职工共产党员标兵。

科研方面,近年来主持国家自然科学基金3项,江苏省自然科学基金2项,中国博士后基金特别资助、面上项目各1项,中国矿业大学学科前沿科学研究专项重点项目等其它纵向项目10余项。共发表SCI、EI期刊论文136篇 ,其中SCI论文124篇(第一/通讯作者102篇),EI论文12篇(第一/通讯作者9篇),第一/通讯作者SCI论文中,IF大于10的7篇,IF大于5的28篇,IF大于3的78篇,JCR一区70篇、二区14篇,个人H-index为25,先后有2篇SCI论文入选“ESI”热点论文,11篇SCI论文入选“ESI”高被引论文,International Journal of Heat and Mass Transfer期刊19篇,Applied Thermal Engineering期刊12篇,Energy Conversion and Management期刊10篇。出版专著/教材4部(第一作者3部)。获授权发明专利16项(第一发明人10项,其中韩国专利1项,日本专利1项)。研究成果获江苏省科学技术二等奖1项(排名第2),广东省科学技术二等奖2项(排名第2、6),徐州市科学技术奖二等奖1项(排名第1),江苏省教育科学研究成果三等奖2项(均排名第1)。

教学方面,先后主持江苏省研究生教育教学改革课题1项,教育部高等学校能源动力类专业教学指导委员会教育教学改革项目1项(结题评价为优秀),中国矿业大学教学成果培育重点项目1项,中国矿业大学研究生教育教学改革与实践项目1项。第一作者发表教学论文2篇。第一作者出版“十三五”江苏省高等学校重点教材1部、煤炭高等教育“十三五”规划教材1部。获全国煤炭行业教育教学成果奖二等奖1项(排名第1),中国矿业大学优秀教学成果奖一等奖1项(排名第2)、二等奖1项(排名第1)。

先后担任江苏省工程热物理学会常务理事兼副秘书长,中国工程热物理学会传热传质分会青年工作委员会委员,中国工程热物理学会热力学与能源利用分会青年工作委员会委员,中国工程热物理学会多相流青年论坛组委会委员,中国化工学会储能工程专业委员会青年委员会委员、中国硅酸盐学会矿物材料分会青年理事。受邀做国际/国内大会/分会主题报告8次,担任国际学术会议组委会共同主席/分会场主席4次,国内学术会议的大会主席/分会场主席13次。是《矿业科学学报》编委,另担任5个SCI期刊编委/客座编辑,40余个SCI期刊的审稿人,以及国家科学技术奖、国家重点研发计划、国家自然科学基金、江苏省高校自然科学基金、中国博士后科学基金、教育部学位与研究生教育评估等的评审专家。

工作经历

2015.01-至今,中国矿业大学,电力学院,教授(直接破格)。 

2019.08-2019.09,英国诺丁汉大学,高级研究学者。

2018.08-2018.09,美国德克萨斯A&M大学,高级研究学者。

2014.12-2015.02,日本北海道大学,日本学术振兴会外籍聘用研究员(JSPS Fellow)。 

2013.07-2014.12,中国矿业大学,电力学院,副教授(直接破格)。 

教育经历    

2010.09-2013.06,华南理工大学,化工过程机械,博士。 

2008.09-2010.06,广东工业大学,热能工程,硕士。 

2004.09-2008.06,广东工业大学,热能与动力工程,本科。

获奖、荣誉称号

【人才计划】:

[9] 国家“万人计划”青年拔尖人才(2018)

[8] 江苏省优秀青年基金(2018)

[7] 江苏省“双创团队”核心成员(2018)

[6] 江苏省“青蓝工程”中青年学术带头人(2017)

[5] 江苏省第十三批“六大人才高峰”高层次人才(2016)

[4] 江苏省第五期“333高层次人才培养工程”中青年学术技术带头人(2016)

[3] 江苏省“青蓝工程”优秀青年骨干教师(2016)

[2] 中国矿业大学校级优秀青年骨干教师(2014)

[1] 中国矿业大学青年教师“启航计划”培养对象(2013)

【科研获奖】:

[9] 江苏省科学技术二等奖(2018,排名第2)

[8] 江苏省教育教学与研究成果奖(研究类)三等奖(2018,排名第1)

[7] 徐州市科学技术奖二等奖(2017,排名第1)

[6] 江苏省教育科学研究成果自然科学三等奖(2016,排名第1)

[5] 广东省科学技术二等奖(2016,排名第2)

[4] 广东省科学技术二等奖(2014,排名第6)

[3] 日本学术振兴会外籍聘用研究员(JSPS Fellow)(2014)

[2] 广东省优秀博士学位论文(2014)

[1] 广东省优秀硕士学位论文(2012)

【荣誉称号】:

[9] 中国矿业大学十佳青年教职工(2018)

[8] 中国矿业大学优秀教职工共产党员标兵(2018)

[7] 中国矿业大学首届青年五四奖章(2018)

[6] 第九届侯德榜化工科技青年奖(2017)

[5] 第十二届江苏省优秀科技工作者(2016)

[4] 第五届徐州市优秀科技工作者(2016)

[3] 吴仲华优秀学生奖(2013)

[2] 华南理工大学十大学术之星(2012)

[1] 教育部博士研究生学术新人奖(2011)

【学生培养】:

[18] 全国煤炭行业教育教学成果奖二等奖(2017,排名第1)

[17] 中国矿业大学优秀教学成果奖二等奖(2018,排名第1)

[16] 中国矿业大学优秀教学成果奖一等奖(2016,排名第2)

[15] 第十届全国大学生过程装备实践与创新大赛二等奖(2019,指导教师)

[14] 第十一届全国大学生节能减排社会实践与科技竞赛一等奖(2018,指导教师)

[13] 中国化工学会年会优秀墙报奖(2017,指导教师)

[12] 中国化工学会年会优秀论文奖(2017,指导教师)

[11] 第八届全国大学生过程装备实践与创新大赛三等奖(2017,指导教师)

[10] 中国矿业大学大学生科技创新创业活动优秀指导教师(2017)

[9] 江苏省高等学校本科优秀毕业论文团队(2016,指导教师)

[8] 第三届全国储能科学与技术大会“中聚电池最佳墙报奖”(2016,指导教师)

[7] 第二届“协鑫杯”大学生绿色能源科技创新创业大赛三等奖一项、优秀奖两项和优秀指导教师奖(2016)

[6] 第七届全国大学生过程装备实践与创新大赛一等奖(2016,指导教师)

[5] 第十四届“挑战杯”全国大学生课外学术科技作品竞赛三等奖(2015,指导教师)

[4] 首届“协鑫杯”大学生绿色能源科技创新大赛全国二等奖(2015,指导教师)

[3] 第五届高校环保科技创意设计大赛金奖和最佳导师奖(2014)

[2] 第五届全国大学生过程装备实践与创新大赛二等、三等各一项以及优秀指导教师奖(2014)

[1] 江苏省高等学校本科优秀毕业论文三等奖(2014,指导教师)

社会、学会及学术兼职

[23] 江苏省工程热物理学会,常务理事兼副秘书长

[22] 中国工程热物理学会热力学与能源利用分会青年工作委员会,委员

[21] 中国工程热物理学会传热传质分会青年工作委员会,委员

[20] 中国工程热物理学会多相流青年论坛组委会,委员

[19] 中国化工学会储能工程专业委员会青年委员会,委员

[18] 中国硅酸盐学会矿物材料分会,青年理事

[17] 《矿业科学学报》,编委

[16] SCI期刊Thermal Science,国际顾问委员会委员

[15] SCI期刊Scientific Reports(Nature Publishing Group),编委

[14] SCI期刊Plos One,编委

[13] SCI期刊International Journal of Photoenergy,客座编辑

[12] SCI期刊Energies,客座编辑

[11] 2019年16th UK Heat Transfer Conference, Session Chair.

[10] 2017年3rd International Symposium of Fluids and Thermal Engineering, Session Chair.

[9] 2017年International Symposium on Electric Vehicles, Organizing Committee Co-Chair, Session Chair.

[8] 2016年The 2nd International Conference on Computing and Precision Engineering, Program Co-Chairmen.

[7] 2018年多相流与新能源青年学者论坛组委会委员

[6] 2018年第三届电池设计与管理青年学者论坛,大会主席

[5] 2018年传热传质青年学术论坛,分会场主席

[4] 2017年第二届传热与多相流青年学术论坛,分会场主席

[3] 2016、2017年江苏省工程热物理学会学术年会,分会场主席

[2] 2016、2017、2018年中国工程热物理学会多相流学术会议,分会场主席

[1] 2015、2016、2017、2018年中国工程热物理学会传热传质学术会议,分会场主席

研究领域

[1] 相变、热化学储热,锂离子、锂空、锂硫、燃料电池、超级电容等储能理论与技术。

[2] 新能源汽车热安全、动力电池热管理,电子器件功率/设备散热,热害防控与热能利用

[3] 微纳尺度、微小通道、多孔介质、相变传热传质,纳米流体与多相流动。

[4] 煤、生物质洁净燃烧与转化,太阳能、地热能开发与利用

[5] 矿物加工、利用、回收过程多相流动与传热传质,废弃物资源化、能源化利用

科研项目

科研项目:

[13] 国家自然科学基金,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),2018.01-2021.12. 

[12] 国家自然科学基金,潜热型熔盐储能材料的制备及其多尺度热质传递特性(No.U1407125),2015.01-2017.12.  

[11] 国家自然科学基金,相变材料/脉动热管在动力电池热管理系统中的耦合传热特性与机理研究(No.51406223),2015.01-2017.12.  

[10] 江苏省优秀青年基金,动力电池热管理系统传热传质强化研究(BK20180083), 2018.07-2021.06.  

[9] 江苏省自然科学基金,相变储能材料/微型热管耦合传热特性研究(No.BK20140190),2014.07-2017.06.  

[8] 中国博士后科学基金特别资助,褐煤干燥脱水提质过程热质传递的微观机理研究(No.2015T80607),2014.01-2015.12.  

[7] 中国博士后科学基金(面上),低品质煤干燥脱水过程中传热传质基础问题研究(No.2014M551692),2014.01-2015.12.

[6] 中国矿业大学学科前沿科学研究专项重点项目,储能材料传热与流动特性的分子动力学模拟与实验研究(No.2017XKZD05),2017.01-2020.12.  

[5] 中国矿业大学重点学科建设经费,储能与传热流动(No.XZD201601),2016.01-2016.12. 

[4] 中国矿业大学学科前沿方向研究专项,相变储能过程固液相变传热传质过程强化(No.2015XKQY04),2015.07-2017.07. 

[3] 中国矿业大学青年科技基金,相变储能材料/微型热管耦合传热特性研究(No.2014QNA24),2014.01-2016.12.

[2] 中国矿业大学青年教师“启航计划”,相变储能材料与技术,2013.09-2015.08.  

[1] 中国矿业大学引进人才资助项目,新能源汽车动力电池热管理,2013.07-2015.06. 

教学项目:

[4] 江苏省研究生教育教学改革课题,面向一流学科建设的能源资源类高校研究生拔尖创新人才培养创新与实践(JGLX19_111),2019.01-2019.12.

[3] 教育部高等学校能源动力类专业教学指导委员会教育教学改革项目,矿业类高校能源与动力工程专业学生创新能力培养实践探索(NDJZW2016Y-74),2016.12-2018.12.

[2] 中国矿业大学教学成果培育重点项目,创建一流学科背景下特色拔尖创新人才培养体系研究(2016CG05),2016.05-2018.05.

[1] 中国矿业大学研究生教育教学改革研究与实践项目,中国矿业大学新兴学科研究生拔尖人才创新能力培养实践与探索,2015.05-2017.05.

发表论文

标记星号为通讯作者。

2019年度:

[137] Chenzhen Liu, Chengyuan Luo, Taotao Xu, Peizhao Lv, Zhonghao Rao*. Experimental study on the thermal performance of capric acid-myristyl alcohol/expanded perlite composite phase change materials for thermal energy storage. Solar Energy 191 (2019) 585–595. (SCI)

[136] Qingwen Zhang, Chenzhen Liu, Zhonghao Rao*. Preparation and Characterization of n‐Nonadecane/CaCO3 Microencapsulated Phase Change Material for Thermal Energy Storage. ChemistrySelect, 2019,  4 (29), 8482-8492. (SCI)

[135] Xiaojie Zhang*, Xiaoyan Gao, Zhanyu Wu, Minghai Zhu, Qinghai Jiang, Shoubin Zhou, Yi Huang, Zhonghao Rao*. High-capacitance supercapacitor based on nitrogen-doped porous carbons-sandwiched graphene hybrid frameworks. Ionics. 2019, doi.org/10.1007/s11581-019-03154-7. (SCI)

[134] Xiao Luo, Dongxu Wu, Congliang Huang*, Zhonghao Rao*. Skeleton double layer structure for high solar steam generation. Energy. 2019,183:1032-1039. (SCI)

[133] Mingyue Ding, Chenzhen Liu, Zhonghao Rao*. Experimental investigation on heat transfer characteristic of TiO2-H2O nanofluid in microchannel for thermal energy storage. Applied Thermal Engineering. 2019, 160:114024. (SCI)

[132] Zhonghao Rao*, Yiping Wen, Jiateng Zhao. Thermal performance of battery thermal management system using composite matrix coupled with mini‐channel. Energy Storage, 2019, 1: e59. (SCI)

[131] Zhonghao Rao*, Xuan Zhang. Investigation on Thermal Management Performance of Wedge-shaped Micro-channels for Rectangular Li-ion Batteries. International Journal of Energy Research, 2019; 43: 3876-3890. (SCI)

[130] Xiaojie Zhang*, Xiaoyan Gao, Zhanyu Wu, Minghai Zhu, Qinghai Jiang, Shoubin Zhou, Kun Hong, Zhonghao Rao*. Effects of binders on electrochemical sodium storage performance with porous CoFe2O4 nanocubes derived from metal-organic frameworks. Chemical Physics.  2019,523:124–129. (SCI)

[129] Jiateng Zhao, Wei Jiang, Chenzhen Liu, Zhonghao Rao*. Thermal performance enhancement of an oscillating heat pipe with external expansion structure for thermal energy recovery and storage. Applied Thermal Engineering. 2019, 155:667-675. (SCI)

[128] Feiqiang Guo, Xiaochen Jiang, Xiaopeng Jia, Shuang Liang, Lin Qian, Zhonghao Rao*. Synthesis of biomass carbon electrode materials by bimetallic activation for the application in supercapacitors. Journal of Electroanalytical Chemistry, 2019, 844:105-115. (SCI)

[127] Guangqing Zhu, Bo Zhang*, Pengfei Zhao, Chenlong Duan, Yuemin Zhao*, Zhenxing Zhang, Guanghui Yan, Xiangnan Zhu, Wenjie Ding, Zhonghao Rao. Upgrading low-quality oil shale using high-density gas-solid fluidized  bed. Fuel 2019, 252:666–674. (SCI)

[126] Changhui Liu, Hui Fang, Yu Qiao, Jiateng Zhao, Zhonghao Rao*. Properties and heat transfer mechanistic study of glycerol/choline chloride deep eutectic solvents based nanofluids, International Journal of Heat and Mass Transfer, 2019, 138:690–698. (SCI)

[125] Feiqiang Guo, Xiaochen Jiang, Xiaolei Li, Kuangye Peng, Chenglong Guo, Zhonghao Rao*.Carbon electrode material from peanut shell by one-step synthesis for high performance supercapacitor, Journal of Materials Science: Materials in Electronics, 2019, 30:914–925. (SCI)

[124] Yutao Huo, Jianhua Zong, Zhonghao Rao*. The investigations on the heat transfer in thermal energy storage with time-dependent heat flux for power plants, Energy, 2019,175:1209-1221. (SCI)

[123] Changhui Liu, Ze Xu, Yan Song, Peizhao Lv, Jiateng Zhao, Yutao Huo, Chenzhen Liu, Ben Xu, Chunyu Zhu and Zhonghao Rao*. A novel shape-stabilization strategy for phase change material thermal energy storage, Journal of Materials Chemistry A, 2019,7:8194. (SCI)

[122] Keqing Zheng, Yong Kuang, Zhonghao Rao, Shuanglin Shen*. Numerical study on the effect of bi-polar plate geometry in the SOFC heating-up process. Journal of Renewable and Sustainable Energy, 2019, 11: 014301. (SCI)

[121] Chenzhen Liu, Pengbo Hu, Ze Xu, Xiaotian Ma, Zhonghao Rao*. Experimental investigation on thermal properties of sodium acetate trihydrate based phase change materials for thermal energy storage. Thermochimica Acta, 2019,674:28-35. (SCI)

[120]. En-Dong Miao, Meng-Qi Ye, Cheng-Long Guo*, Lin Liang, Qi Liu, Zhong-Hao Rao*. Enhanced solar steam generation using carbon nanotube membrane distillation device with heat localization. Applied Thermal Engineering,2019,149 :1255–1264. (SCI)

[119] 饶中浩, 刘霞. 二级膨胀石墨/石蜡相变储能元件热质传递特性研究. 工程热物理学报, 2019, 40(1):164-169. (EI)

[118] Yutao Huo, Yunqi Guo, Zhonghao Rao*. Investigation on the thermal performance of phase change material/porous medium-based battery thermal management in pore scale. International Journal of Energy Research. 2019; 43: 767-778. (SCI)

[117] Yutao Huo, Zhonghao Rao*. The improved enthalpy-transforming based lattice Boltzmann model for solid-liquid phase change. International Journal of Heat and Mass Transfer. 2019,133:861-871. (SCI)

[116] Xinjian Liu, Zhonghao Rao*. Thermal diffusion and phase transition of n-octadecane as thermal energy storage material on nanoscale copper surface: A molecular dynamics study. Journal of the Energy Institute. 2019,92:161-176. (SCI)

[115] Jiateng Zhao, Wei Jiang, Zhonghao Rao*. Thermal performance investigation of an oscillating heat pipe with external expansion structure used for thermal energy recovery and storage. International Journal of Heat and Mass Transfer, 2019,132:920-928. (SCI)

[114] Xinjian Liu, Zhonghao Rao*. Molecular dynamics simulations on the heat and mass transfer of hypercrosslinked shell structure of phase change nanocapsules as thermal energy storage materials. International Journal of Heat and Mass Transfer . 2019,132:362-374. (SCI)

[113] Jie Qu, Zhiqi Ke, Anhao Zuo, Zhonghao Rao*. Experimental investigation on thermal performance of phase change material coupled with three-dimensional oscillating heat pipe (PCM/3D-OHP) for thermal management application. International Journal of Heat and Mass Transfer,2019, 129: 773-782. (SCI)

[112] Peizhao Lv, Mingyue Ding, Chenzhen Liu, Zhonghao Rao*. Experimental investigation on thermal properties and thermal performance enhancement of octadecanol/expanded perlite form stable phase change materials for efcient thermal energy storage. Renewable Energy, 2019, 131: 911-922. (SCI)

2018年度:

[111] Feiqiang Guo, Kuangye Peng, Tiantao Li, Xingmin Zhao, Yuping Dong, Zhonghao Rao*. Catalytic Cracking of Primary Tar Vapor from Biomass over High Ash-Containing Paper Sludge Ash. Energy Fuels, 2018, 32:12514−12522. (SCI)

[110] Changhui Liu, Jiateng Zhao, Yu Qiao, Wenbo Huang, Zhonghao Rao*, Yanlong Gu*.Selective synthesis of oxazoles and pyrazines from a-bromo-1-phenylethanone using a by-product-promoted strategy.Tetrahedron, 2018, 74: 7351-7357. (SCI)

[109] Feiqiang Guo*, Kuangye Peng, Xingmin Zhao, Xiaochen Jiang, Lin Qian, Chenglong Guo, Zhonghao Rao. Influence of impregnated copper and zinc on the pyrolysis of rice husk in a micro-fluidized bed reactor: Characterization and kinetics International Journal of Hydrogen Energy, 2018, 43: 21256-21268. (SCI)

[108] Zhonghao Rao*, Yiping Wen, Chenzhen Liu. Enhancement of heat transfer of microcapsulated particles using copper particles and copper.Particuology, 2018, 41: 85-93. (SCI)

[107]  Zhonghao Rao*, Taotao Xu, Chenzhen Liu, Zhangjing Zheng, Lin Liang, Kun Hong. Experimental study on thermal properties and thermal performance of eutectic hydrated salts/expanded perlite form-stable phase change materials for passive solar energy utilization. Solar Energy Materials and Solar Cells, 2018, 188: 6–17. (SCI)

[106] Cong Qi, Maoni Liu, Tao Luo, Yuhang Pan, Zhonghao Rao*. Effects of twisted tape structures on thermo-hydraulic performances of nanofluids in a triangular tube. International Journal of Heat and Mass Transfer, 2018, 127: 146-159. (SCI)

[105] Xuan Zhang, Chenzhen Liu, Zhonghao Rao*. Experimental investigation on thermal management performance of electric vehicle power battery using composite phase change material. Journal of Cleaner Production, 2018, 201: 916-924.(SCI)

[104] Shang Liu, Congliang Huang*, Xiao Luo, Zhonghao Rao*. High-performance solar steam generation of a paper-based carbon particle system. Applied Thermal Engineering, 2018, 142: 566-572.(SCI)

[103] Feiqiang Guo*, Xiaolei Li, Xiaochen Jiang, Xingmin Zhao, Chenglong Guo, Zhonghao Rao. Characteristics and toxic dye adsorption of magnetic activated carbon prepared from biomass waste by modified one-step synthesis. Colloids and Surfaces A, 2018, 555: 43-54. (SCI)

[102] Jiateng Zhao, Jie Qu, Zhonghao Rao*. Thermal characteristic and analysis of closed loop oscillation heat pipe/phase change material (CLOHP/PCM) coupling module with different working media. International Journal of Heat and Mass Transfer, 2018, 126: 257-266. (SCI)

[101] 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. International Journal of Energy Research, 2018,42: 2781-2788.(SCI)

[100] Yutao Huo, Zhonghao Rao*. The Enthalpy-Transforming-Based Lattice Boltzmann Model for Solid–Liquid Phase Change.  Journal of Heat Transfer-Transactions of the ASME. 2018, 140: 102301. (SCI)

[99] Jiateng Zhao, Wei Jiang, Zhonghao Rao*. Operational characteristics of oscillating heat pipe with long heat transport distance for solar energy application. Experimental Thermal and Fluid Science, 2018, 98: 137-145. (SCI)

[98] 霍宇涛, 饶中浩*. 基于伪焓法的多孔介质固液相变格子Boltzmann方法. 工程热物理学报, 2018, 39(5): 1011-1015.(EI)

[97] Feiqiang Guo*, Xiaolei Li, Yuan Liu, Kuangye Peng, Chenglong Guo, Zhonghao Rao. Catalytic cracking of biomass pyrolysis tar over char-supported catalysts. Energy Conversion and Management, 2018, 167: 81–90.(SCI)

[96] Zun Huang, Congliang Huang*, Dongxu Wu, Zhonghao Rao*. Influence of chemical bonding on thermal contact resistance at silica interface: A molecular dynamics simulation. Computational Materials Science, 2018,  149: 316–323.(SCI)

[95]  Zhonghao Rao*, Guangtong Zhang, Taotao Xu, Kun Hong. Experimental study on a novel formstable phase change materials based on diatomite for solar energy storage. Solar Energy Materials and Solar Cells. 2018, 182: 52–60.(SCI)

[94] Wenjian Wang, XuanZhang, Chengyun Xin, Zhonghao Rao*. An experimental study on thermal management of lithium ion battery packs using an improved passive method. Applied Thermal Engineering. 2018,134:163-170.(SCI)

[93] Yutao Huo, Zhonghao Rao*. The discrete unified gas kinetic scheme for solid-liquid phase change problem. International Communications in Heat and Mass Transfer, 2018, 91: 187-195.(SCI)

[92] Yutao Huo, Zhonghao Rao*. Investigation of solid-liquid phase change in the spherical capsule using axisymmetric lattice Boltzmann model. International Journal of Heat and Mass Transfer. 2018,119:1-9.(SCI)

[91] Cong Qi, Liyuan Yang, Tiantian Chen, Zhonghao Rao*. Experimental study on thermo-hydraulic performances of TiO2-H2O nanofluids in a horizontal elliptical tube. Applied Thermal Engineering. 2018,129:1315-1324.  (SCI)

[90] Zhonghao Rao*,Yutao Huo, Yimin Li. The Lattice Boltzmann Investigation for the Melting Process of Phase Change Material in an Inclined Cavity. Journal of Heat Transfer-Transations of the ASME. 2018, 140(1),012301. (SCI)

[89] Zhonghao Rao*, Chenyang Zheng, Fan Geng. Proton conduction of fuel cell polymer membranes: Molecular dynamics simulation. Computational Materials Science.2018,142:122-128. (SCI)

[88]  Chenzhen Liu, Ling Ma, Zhonghao Rao*, Yimin Li. Synthesis and Thermal Properties of Magnesium Sulfate Heptahydrate/Urea Resin as Thermal Energy Storage Microencapsulated Phase Change Material. Journal of Heat Transfer-Transations of the ASME. 2018, 140(1), 014501. (SCI)

2017年度:

[87] Jie Qu, Peizhao Lyu, Zhonghao Rao*. Experimental Investigation of a Three-Dimensional Pulsating Heat Pipe for Electric Vehicle Applications. Journal of Beijing Institute of Technology (English Edition). 2017,26: 187-193. (EI)

[86] Yutao Huo, Li Wang, Zhonghao Rao*. Lattice Boltzmann Investigation of U-Type Channel Battery Thermal Management Using Al2O3 Nanofluid. Journal of Beijing Institute of Technology (English Edition). 2017,26: 175-180. (EI)

[85] Jiateng Zhao, Xuan Zhang, Zhonghao Rao*. Oscillating Heat Pipe Coupled with Phase Change Material (OHP/PCM) Used for Battery Thermal Management. Journal of Beijing Institute of Technology (English Edition). 2017,26: 181-186. (EI)

[84] Yutao Huo, Zhonghao Rao*. Lattice Boltzmann investigation on phase change of nanoparticle-enhanced phase change material in a cavity with separate plate. Energy Conversion and Management. 2017,154: 420-429. (SCI)

[83] Cong Qi, Jinding Hu, Maoni Liu, Leixin Guo, Zhonghao Rao*. Experimental study on thermo-hydraulic performances of CPU cooled by nanofluids. Energy Conversion and Management, 2017(153): 557–565. (SCI)

[82] Yutao Huo, Zhonghao Rao*. Lattice Boltzmann investigation of the solid-liquid phase change process in a cavity with protruding heater. International Journal of Thermal Sciences, 2017(122 ): 292-301.(SCI)

[81] Zhonghao Rao*, Qingchao Wang, Jiateng Zhao, Congliang Huang. Experimental investigation on the thermal performance of a closed oscillating heat pipe in thermal management. Heat Mass Transfer, 2017(53): 3059–3071.(SCI)

[80] Cong Qi *, Yong-Liang Wan, Chun-Yang Li, Dong-Tai Han, Zhong-Hao Rao*. Experimental and numerical research on the flow and heat transfer characteristics of TiO2-water nanofluids in a corrugated tube. International Journal of Heat and Mass Transfer, 2017, 115(PartB): 1072–1084.(SCI)

[79] Jie Qu, Jiateng Zhao, Zhonghao Rao*. Experimental investigation on thermal performance of multi-layers three-dimensional oscillating heat pipes. International Journal of Heat and Mass Transfer, 2017, 115(PartB): 810–819.(SCI)

[78] Chenzhen Liu,Zhengyuan Ma,Jiachen Wang,Yimin Li,Zhonghao Rao*. Experimental research on flow and heat transfer characteristics of latent functional thermal fluid with microencapsulated phase change materials.International Journal of Heat and Mass Transfer. 2017,115,part A:737-742.(SCI)

[77] Zhonghao Rao*, Zhen Qian, Yong Kuang, Yimin Li. Thermal performance of liquid cooling based thermal management system for cylindrical lithium-ion battery module with variable contact surface. Applied Thermal Engineering.2017,123:1514-1522.(SCI)

[76] Chenzhen Liu, Xuan Zhang, Peizhao Lv, Yimin Li, Zhonghao Rao*. Experimental study on the phase change and thermal properties of paraffin/carbon materials based thermal energy storage materials. Phase Transitions. 2017, 90,(7):717–731.(SCI)

[75] Xinjian Liu, Changpeng Lin, Zhonghao Rao*. Diffusion and thermal conductivity of the mixture of paraffin and polystyrene for thermal energy storage: A molecular dynamics study. Journal of the Energy Institute, 2017, 90: 534-543.(SCI)

[74] Changpeng Lin, Xiaoliang Zhang, Zhonghao Rao*. Theoretical prediction of thermal transport in BC2N monolayer. Nano Energy, 2017, 38: 249–256.(SCI)

[73] Zhonghao Rao*, Bin chen, Jiateng Zhao. A series of generalized correlations for predicting the thermal conductivity of composite materials packing with artificially designed filler shapes.Applied Thermal Engineering, 2017,120:444-452.(SCI)

[72] Chenyang Zheng, Fan Geng, Zhonghao Rao*. Proton mobility and thermal conductivities of fuel cell polymer membranes:Molecular dynamics simulation. Computational Materials Science. 2017,132:55-61.(SCI)

[71] Yutao Huo, Zhonghao Rao*. The quasi-enthalpy based lattice Boltzmann model for solid-liquid phase change. Applied Thermal Engineering, 2017,115:1237-1244.(SCI)

[70]  Jie Qu, Jiateng Zhao, Zhonghao Rao*. Experimental investigation on the thermal performance of three-dimensional oscillating heat pipe. International Journal of Heat and Mass Transfer. 2017,109:589-600.(SCI)

[69] Chenzhen Liu, Zhonghao Rao*. Challenges in various thermal energy storage technologies. Science Bulletin, 2017, 62(4):231-233.(SCI)

[68] Chenzhen Liu, Cui Wang, Yimin Li, Zhonghao Rao*. Preparation and Characterization of Sodium Thiosulfate Pentahydrate/Silica Microencapsulated Phase Change Material for Thermal Energy Storage. RSC Advances, 2017, 7:7238-7249.(SCI)

[67] Fanchen Wu, Zhonghao Rao*. The lattice Boltzmann investigation of natural convection for nanofluid based battery thermal management. Applied Thermal Engineering. 2017,115:659-669.(SCI)

[66] Jiateng Zhao, Jie Qu, Zhonghao Rao*. Experiment investigation on thermal performance of a large-scale oscillating heat pipe with self-rewetting fluid used for thermal energy storage. International Journal of Heat and Mass Transfer. 2017,108, Part A:760-769.(SCI)

[65] Yutao Huo, Zhonghao Rao*. Investigation of phase change material based battery thermal management at cold temperature using lattice boltzmann method. Energy Conversion and Management,2017,133:204-215.(SCI)

[64] Jiateng Zhao, Peizhao Lv, Zhonghao Rao*.Experimental study on the thermal management performance of phase change material coupled with heat pipe for cylindrical power battery pack. Experimental Thermal and Fluid Science, 2017,82: 182–188. (SCI)

[63] Xia Liu, Zhonghao Rao*. Experimental study on the thermal performance of graphene and exfoliated graphite sheet for thermal energy storage phase change material. Thermochimica Acta, 2017,647:15-21.(SCI)

[62] Peizhao Lv, Chenzhen Liu, Zhonghao Rao*. Review on clay mineral-based form-stable phase change materials: preparation, characterization and applications. Renewable & Sustainable Energy Reviews, 2017, 68: 707-726.(SCI)

[61] Cong Qi, Guiqing Wang, Liyuan Yang, Yongliang Wan, Zhonghao Rao*. Two-phase lattice Boltzmann simulation of the effects of base fluid and nanoparticle size on natural convection heat transfer of nanofluid. International Journal of Heat and Mass Transfer, 2017, 105: 664–672.(SCI)

[60] Changpeng Lin, Zhonghao Rao*.Thermal conductivity enhancement of paraffin by adding boron nitride nanostructures: A molecular dynamics study. Applied Thermal Engineering, 2017,110:1411–1419.(SCI)

2016年度:

[59] Peizhao Lv, Chenzhen Liu, Zhonghao Rao*. Experiment study on the thermal properties of paraffin/kaolin thermal energy storage form-stable phase change materials. Applied Energy, 2016,182:475-487.(SCI)

[58] Zhen Qian,Yimin Li, Zhonghao Rao*. Thermal performance of lithium-ion battery thermal management system by using mini-channel cooling. Energy Conversion and Management, 2016, 126: 622–631.(SCI)

[57] 赵佳腾, 饶中浩*, 李意民. 基于相变材料的动力电池热管理数值模拟. 工程热物理学报, 2016, 37(6): 1275-1280.(EI)

[56] Bin Chen, Jiateng Zhao, Zhonghao Rao*. Thermal conductivity of energy conversion and storage composite materials packing with short fiber fillers and artificial size cylinder fillers. Applied Thermal Engineering,2016,103:1196-1204.(SCI)

[55] Cong Qi, Yongliang Wan, Lin Liang, Zhonghao Rao, Yimin Li*. Numerical and experimental investigation into the effects of nanoparticle mass fraction and bubble size on boiling heat transfer of TiO2-water nanofluid. Journal of Heat Transfer,2016,138(8),081503.(SCI)

[54] Jiateng Zhao, Zhonghao Rao*, Chenzhen Liu, Yimin Li. Experimental study of oscillating heat pipe and phase change materials coupled for thermal energy storage and thermal management. International Journal of Heat and Mass Transfer, 2016,99:252-260.(SCI)

[53] Chenzhen Liu, Zhonghao Rao*, Yimin Li. Composites Enhance Heat Transfer in Paraffin/Melamine Resin Microencapsulated Phase Change Materials. Energy Technology, 2016, 4(4): 496-501.(SCI)

[52] Qiannan Zhang, Yutao Huo, Zhonghao Rao*. Numerical Study on Solid-Liquid Phase Change of Paraffin as Phase Change Material for Battery Thermal Management. Science Bulletin, 2016,61(5), 391-400.(SCI)

[51] Xinjian Liu, Yu Jin,Jingfeng He, Zhonghao Rao*, Yuemin Zhao*. Self-diffsion of lignite/water under different temperature and pressure: A molecular dynamics study. Modern Physics Letters B, 2016,30(1): 1550253.(SCI)

[50] Zhonghao Rao*, Qingchao Wang, Chongliang Huang. Investigation of the thermal performance of phase change material/mini-channel coupled battery thermal management system. Applied Energy, 2016,164:659-669.(SCI)

[49] Qingchao Wang, Zhonghao Rao*, Yutao Huo, Shuangfeng Wang. Thermal performance of phase change material/oscillation heat pipe-based battery thermal management system. International Journal of Thermal Sciences, 2016,102:9-16.(SCI)

[48] Cong Qi, Lin Liang, Zhonghao Rao*. Study on the flow and heat transfer of liquid metal based nanofluid with different nanoparticle radiuses using two-phase lattice Boltzmann method. International Journal of Heat and Mass Transfer, 2016, 94:316-326.(SCI)

[47] Jiateng Zhao, Zhonghao Rao*, Chenzhen Liu, Yimin Li. Experimental investigation on thermal performance of phase change material coupled with closed-loop oscillating heat pipe (PCM/CLOHP) used in thermal management. Applied Thermal Engineering, 2016,93:90-100.(SCI)

2015年度:

[46] 王焕光, 吴 迪, 饶中浩*.  孤 立 系 内 热 传 导 过 程(火积) 耗 散 的 解 析 解.  物理学报, 2015,64(24): 244401.(SCI)

[45] Yutao Huo, Zhonghao Rao*. The numerical investigation of nanofluid based cylinder battery thermal management using lattice Boltzmann method. International Journal of Heat and Mass Transfer, 2015, 91: 374–384.(SCI)

[44] Jiateng Zhao, Zhonghao Rao*, Yimin Li. Thermal performance of mini-channel liquid cooled cylinder based battery thermal management for cylindrical lithium-ion power battery. Energy Conversion and Management, 2015, 103: 157-165.(SCI)

[43] C. H. Wang*, T. Lin, J. T. Huang, Z. H. Rao*. Temperature response of a high power lithium-ion battery subjected to high current discharge. Materials Research Innovations, 2015, 19 (S2): 156-160.(SCI)

[42] Jiateng Zhao, Zhonghao Rao*, Yutao Huo, Xinjian Liu, Yimin Li. Thermal management of cylindrical power battery module for extending the life of new energy electric vehicles. Applied Thermal Engineering, 2015(85): 33-43. (SCI)

[41] Congliang Huang*, Qingchao Wang, Zhonghao Rao*. Thermal conductivity prediction of copper hollow nanowire. International Journal of Thermal Sciences, 2015,94: 90-95.(SCI)

[40] Yutao Huo, Zhonghao Rao*. Lattice Boltzmann simulation for solid–liquid phase change phenomenon of phase change material under constant heat flux. International Journal of Heat and Mass Transfer, 2015, 86: 197–206.(SCI)

[39] Chenzhen Liu, Zhonghao Rao*, Jiateng Zhao, Yutao Huo, Yimin Li. Review on nanoencapsulated phase change materials: Preparation, characterization and heat transfer enhancement. Nano Energy, 2015, 13: 814-826.(SCI, IF: 10.3)

[38] 林长鹏, 刘新健, 饶中浩*. 铝纳米颗粒的热物性及相变行为的分子动力学模拟. 物理学报, 2015, 64(8): 083601.(SCI)

[37] Zhonghao Rao*, Yuemin Zhao*, Congliang Huang, Chenlong Duan, Jingfeng He. Recent Developments in Drying and Dewatering for Low Rank Coals, Progress in Energy and Combustion Science, 2015, 46: 1-11. (SCI, IF: 19.2)

[36] Yutao Huo, Zhonghao Rao*, Xinjian Liu, Jiateng Zhao. Investigation of power battery thermal management by using mini-channel cold plate. Energy Conversion and Management, 2015, 89: 387-395. (SCI)

[35] Zhonghao Rao*, Yutao Huo, Xinjian Liu, Guoqing Zhang. Experimental investigation of battery thermal management system for electric vehicle based on paraffin/copper foam. Journal of the Energy Institute, 2015, 88(3): 241-246. (SCI)

[34] Cheng-Long Guo*, Hong-Xia Cao, Fei-Qiang Guo, Cong-Liang Huang, Huan-Guang Wang, Zhong-Hao Rao*. Enhanced photo-H2 production by unsaturated flow condition in continuous culture. Biotechnology Letters, 2015, 37(2): 359-366.(SCI)

2014年度:

[33] Xinjian Liu, Zhonghao Rao*, Yutao Huo. Molecular Dynamics Simulation of the Molar Volumes and Solubility Parameters of Straight Alkanes. Modern Physics Letters B, 2014, 28(31), 1450240. (SCI)

[32] Feiqiang Guo, Yuping Dong*, Tonghui Zhang, Lei Dong, Chuwen Guo, Zhonghao Rao*. Experimental Study on Herb Residue Gasification in an Air-Blown Circulating Fluidized Bed Gasifier. Industrial & Engineering Chemistry Research, 2014, 53 (34): 13264–13273. (SCI)

[31] Zhonghao Rao*, Xinyu You, Yutao Huo and Xinjian Liu. Dissipative particle dynamics study of nanoencapsulated thermal energy storage phase change material. RSC Advances, 2014, 4(74): 39552-39557. (SCI)

[30] 张艳来, 李秀平, 饶中浩, 汪双凤. 相变材料微胶嚢流体相变化过程流体内部流态的变化. 工程热物理学报, 2014, 35(7): 1382-1386. (EI)

[29]  Rao Zhonghao*, Huo Yutao, Liu Xinjian. Dissipative particle dynamics and experimental study of alkane-based nanoencapsulated phase change material for thermal energy storage. RSC Advances, 2014, 4(40), 20797–20803. (SCI)

[28] Zhonghao Rao*, Yutao Huo, Xinjian Liu. Experimental study of an OHP-cooled thermal management system for electric vehicle power battery. Experimental Thermal and Fluid Science 2014, 57: 20–26. (SCI)

[27] Rao Zhong-Hao, Liu Xin-Jian, Zhang Rui-Kai, Li Xiang, Wei Chang-Xing, Wang Hao-Dong, Li Yi-Min*. A comparative study on the self diffusion of n-octadecane with crystal and amorphous structure by molecular dynamics simulation. Chinese Physics Letters, 2014, 31(1): 010501. (SCI)

[26] Chengyun Xin, Zhonghao Rao*, Xinyu You, ZhengchangSong, Dongtai Han. Numerical investigation of vapor-liquid heat and mass transfer in porous media. Energy Conversion and Management, 2014, 78: 1-7. (SCI)

2013以及之前:

[25] 张艳来, 饶中浩, 李复活, 汪双凤. 含相变材料微胶囊流体相变过程对储热蓄热的影响. 工程热物理学报, 2014, 35(1): 140-144. (EI)

[24] Z. H. RAO, S. F. WANG, Y. L. ZHANG. Thermal management with phase change material for a power battery under cold temperatures. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects.2014, 36(20): 2287-2295. (SCI)

[23] Z. H. RAO, S. F. WANG, Y. L. ZHANG., G.Q. ZHANG, J.Y. ZHANG. Thermal properties of paraffin/nano-AlN phase change energy storage materials. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects. 2014, 36(20): 2281-2286. (SCI)

[22] Shuangfeng Wang, Song Cheng, Huimin Yu, Zhonghao Rao, Zhongmin Liu. Experimental investigation of Al–Cu composed tube–fin heat exchangers for air conditioner. Experimental Thermal and Fluid Science, 2013, 51: 264–270. (SCI)

[21] Zhonghao Rao, Shuangfeng Wang, Feifei Peng. Molecular dynamics simulations of nano-encapsulated and nanoparticle-enhanced thermal energy storage phase change materials. International Journal of Heat and Mass Transfer, 2013, 66: 575-584. (SCI)

[20] Zhonghao Rao, Shuangfeng Wang, Feifei Peng. Self diffusion and heat capacity of n-alkanes based phase change materials: A molecular dynamics study. International Journal of Heat and Mass Transfer, 2013, 64: 581-589. (SCI)

[19] Zhonghao Rao, Shuangfeng Wang, Maochun Wu, Zirong Lin, Fuhuo Li. Experimental investigation on thermal management of electric vehicle battery with heat pipe. Energy Conversion and Management, 2013, 65: 92-97. (SCI)

[18] 饶中浩, 汪双凤, 张艳来, 彭飞飞, 蔡颂恒. 相变材料热物理性质的分子动力学模拟. 物理学报, 2013, 62(5): 056601. (SCI)

[17] J. HUANG, T.Y. WANG, C.H. WANG, Z.H. RAO*. Molecular dynamics simulations of melting behaviour of n-hexacosane as phase change material for thermal energy storage. Asian Journal of Chemistry, 2013, 25(4): 1839-1841. (SCI)

[16] 饶中浩,汪双凤,洪思慧,巫茂春. 电动汽车动力电池热管理实验与数值分析. 工程热物理学报, 2013, 34(6): 1157-1160. (EI)

[15] Zhonghao Rao, Shuangfeng Wang, Zhengguo Zhang. Energy saving latent heat storage and environmental friendly humidity-controlled materials for indoor climate. Renewable & Sustainable Energy Reviews, 2012, 16(5): 3136-3145. (SCI)

[14] Zhonghao Rao, Shuangfeng wang, Feifei Peng. Self diffusion of the nano-encapsulated phase change materials: A molecular dynamics study. Applied Energy, 2012, 100: 303-308. (SCI)

[13] Zhonghao Rao, Shuangfeng wang, Feifei Peng, Wei Zhang, Yanlai Zhang. Dissipative particle dynamics investigation of microencapsulated thermal energy storage phase change materials. Energy, 2012, 44(1): 805-812. (SCI)

[12] Zhonghao Rao, Shuangfeng Wang, Maochun Wu, Yanlai Zhang, Fuhuo Li. Molecular dynamics simulations of melting behavior of alkane as phase change materials slurry. Energy Conversion and Management, 2012, 64: 152-156. (SCI)

[11] Zhonghao Rao, Shuangfeng Wang, Yanlai Zhang. Molecular dynamics simulations of phase transition of n-nonadecane under high pressure. Phase Transitions, 2012, 85(5): 400-408. (SCI)

[10] Z. H. Rao, S. F. Wang, Y. L. Zhang. Simulation of heat dissipation with phase change material for cylindrical power battery. Journal of the Energy Institute, 2012, 85(1): 38-43. (SCI)

[9] Zhonghao Rao, Yanlai Zhang, Shuangfeng Wang. Energy saving of Power Battery by Liquid Single-phase Convective Heat Transfer. Energy Education Science & Technology, Part: A Energy Science and Research, 2012, 30(1): 103-112. (SCI)

[8] Yanlai Zhang, Zhonghao Rao, Shuangfeng Wang, Zhao Zhang, Xiuping Li. Experimental evaluation on natural convection heat transfer of microencapsulated phase change materials slurry in a rectangular heat storage tank. Energy Conversion and Management, 2012, 59: 33-39. (SCI)

[7] 张艳来, 饶中浩, 汪双凤, 张召. 相变微胶囊流体相变化对自然对流的促进作用. 太阳能学报, 2012, 33(11): 1951-1955. (EI)

[6] Zhonghao Rao, Shuangfeng Wang. A review of power battery thermal energy management. Renewable & Sustainable Energy Reviews, 2011, 15(9): 4554-4571. (SCI)

[5] Zhonghao Rao, Shuangfeng Wang, Guoqing Zhang. Simulation and experiment of thermal energy management with phase change material for ageing LiFePO4 power battery. Energy Conversion and Management. 2011, 52(12): 3408-3414. (SCI)

[4] Z.H. Rao, G.Q. Zhang. Thermal properties of paraffin wax based composites containing graphite. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2011, 33(7):587-593. (SCI)

[3] Jin Huang, Tingyu Wang, Changhong Wang, Zhonghao Rao*. Exfoliated Graphite/Paraffin Nanocomposites as Phase Change Materials for Thermal Energy Storage Application. Materials Research Innovations, 2011, 15 (6):422-427. (SCI)

[2] Yanlai Zhang, Shuangfeng Wang, Zhonghao Rao, JiefeiXie. Experiment on heat storage characteristic of microencapsulated phase change material slurry. Solar Energy Materials & Solar Cells. 2011, 95(10): 2726–2733. (SCI)

[1] Z. H. Rao, G. Q. Zhang, Z. J. Wu. Thermal properties of paraffin/graphite composite phase change materials in battery thermal management system. Energy Materials: Materials Science and Engineering for Energy Systems. 2009, 4(3):141-144. (EI)

出版专著和教材

[4] 刘臣臻, 饶中浩. 相变储能材料与热性能. 徐州: 中国矿业大学出版社, 2019. ISBN: 978-7-5646-4439-0.

[3] 饶中浩, 刘臣臻. 相变储能实验与分析. 徐州: 中国矿业大学出版社, 2018. ISBN:978-7-5646-3953-2.(江苏省“十三五”高等学校重点教材)

[2] 饶中浩, 汪双凤. 储能技术概论. 徐州: 中国矿业大学出版社, 2016. ISBN:978-7-5646-3384-4.(煤炭高等教育“十三五”规划教材)

[1] 饶中浩, 张国庆. 电池热管理. 北京: 科学出版社, 2015. ISBN:978-7-03-044863.

科研创新

[16] Rao Zhonghao, Huo Yutao.  Phase-change material/air coupled hierarchical battery thermal management system.(韩国专利:10-1944053, 2019.01.24)

[15] Rao Zhonghao, Huo Yutao.  Phase-change material/air coupled hierarchical battery thermal management system.(日本专利:6515252, 2019.04.19)

[14] 饶中浩, 霍宇涛. 一种相变材料/空气耦合的阶级式电池热管理系统. ZL20161120001.0, 2019.04.26.

[13] 饶中浩, 赵佳腾. 一种相变材料与发散热管耦合储能系统. ZL201710253242.5,2019.02.22.

[12] 饶中浩, 吕培召, 王兴明,赵佳腾. 一种基于耦合式热管理的电池储能系统及方法. ZL201610289105.2, 2018.09.21.

[11] 饶中浩, 赵佳腾. 一种三维脉动热管相变材料耦合储能系统. ZL201610268189.1, 2018.07.27.

[10] 饶中浩, 赵佳腾, 刘臣臻, 王庆超. 一种基于空气、热管和相变材料耦合冷却的动力电池模块. ZL201410519706.9, 2016.09.21.

[9] 饶中浩, 刘新健, 梁运民, 陈娟, 黄能. 一种基于金属相变材料的动力电池热管理系统. ZL201410001452.1, 2015.12. 02.

[8] 饶中浩, 梁运民, 刘新健, 金玉, 黄能. 一种基于脉动热管的电池热管理系统. ZL201410001591.4, 2015.12.02.

[7] 饶中浩, 高宪花, 魏赏赏, 崔晨晓, 王伟, 马贵保, 周家理, 林长鹏, 刘新健. 一种电动汽车动力电池余热利用装置. ZL201410026401.4, 2015.12.02.

[6] 汪双凤, 饶中浩, 陈锦芳, 胡艳鑫, 郑伟伟, 熊志江, 孙志强, 徐智慧, 孙威, 赖勇志. 一种用于锂电池散热的微通道冷却均温系统. ZL201210209217.4, 2015.03.11.

[5] 张国庆, 张云云, 熊中琼, 张文静, 饶中浩.一种基于泡沫金属复合相变材料的动力电池冷统. ZL201110457984.2, 2014.07.09.

[4] 张江云, 王长宏, 张国庆, 饶中浩, 袁韩生, 张磊 . 一种具有强化散热功能的管壳式电动汽车电池装置. ZL201010614774.5, 2014.04.09.

[3]王长宏, 林涛, 陶肖生, 饶中浩, 黄金. 一种太阳能温差发电装置. ZL201110292434.X, 2014.04.02.

[2] 张国庆, 黄锌鹏, 饶中浩. 一种圆柱形动力电池材料产热量测量装置. ZL201010101760.3, 2012.01.18.

[1] 张国庆, 吴忠杰, 傅李鹏, 饶中浩, 杨承昭. 一种使用超声波防垢除垢的光催化反应装置. ZL200910041295.6, 2011.09.07.

教学活动

研究生:

微纳尺度传热学(30学时)。

先进储能理论与技术(30学时)。

学科专题讲座(4学时)。

本科生:

工程热力学(64学时):2015级、2016级、2017级。

制冷原理与设备(48学时):2012级、2013级。

学科前沿讲座(16学时):2013级、2014级、2015级、2016级。

新能源技术与应用(32学时):2011级。

储能科学与技术(16学时):2015-2016学年(下)。

指导学生情况

储能与传热课题组历年研究生:

2019级:

博:吕培召,乔羽

硕:吴晨辉,殷冒彬,李夏,鲍义斌,冯张威,张家豪,曹玉棋,吴宜衡,曹欢欣,陈健鑫,陈子禾,卢家辉

2018级:

博:刘新健,贺德清

硕:乔羽,杜沛星,宗建华,赵博,郭云琪,刘卓然,房慧,庞晓文

2017级:

博:曲捷

硕:吕培召,张轩,胡文,张青文,丁明月,陈之琳,王立

2016级:

博:赵佳腾,霍宇涛

硕:刘新健,许淘淘,文一平,张光通

2015级:

硕:曲捷,钱振,刘霞,吴凡尘,郑辰阳,王文健

2014级:

博:刘臣臻

硕:霍宇涛,陈斌,张倩楠,王庆超

2013级:

硕:赵佳腾

我的团队

江苏省高效储能技术与装备工程实验室(http://este.cumt.edu.cn)

徐州市高效储能技术与装备重点实验室

徐州市储能安全与强化工程研究中心

徐州市矿物储能工程技术研究中心

中国矿业大学“储能与传热课题组(http://rao.cumt.edu.cn):

[2] 2014-2015年度中国矿业大学优秀研究生创新创业团队;

[1] 2015-2016年度中国矿业大学优秀研究生创新创业团队。

中国矿业大学工程热物理研究所:

[1] 中国矿业大学“优秀教学科研群体”。