饒中浩，男，1985年3月生，教授、博士生導師，現任河北工業大學能源與環境工程學院院長，河北省先進儲能技術與裝備工程研究中心主任，曾任英國University of Nottingham高級研究學者，美國Texas A&M University高級研究學者，日本Hokkaido University日本學術振興會外籍聘用研究員（JSPS Fellow）。先后入選國家“萬人計劃”青年拔尖人才（2018年），河北省杰出青年基金（2024年），天津市杰出青年基金（2022年），河北省拔尖人才（2024年），天津市引進領軍人才（2023年），科睿唯安全球高被引科學家（2023、2020年），愛思唯爾中國高被引學者（2021-2023年），全球前2%頂尖科學家（連續5年）。獲河北省師德標兵（2024），中國動力工程學會青年科技獎（2022年），中國可再生能源學會優秀青年科技人才（2021年），中國能源研究會優秀青年能源科技工作者（2020年），中國化工學會侯德榜化工科技青年獎（2017年），中國新銳科技人物卓越影響獎（2019年），Energy and Built Environment國際期刊優秀青年學者獎（2021年）。此外，還曾入選江蘇省“雙創團隊”，江蘇省優秀青年基金，江蘇省“青藍工程”中青年學術帶頭人，江蘇省“六大人才高峰”高層次人才，江蘇省“333高層次人才培養工程”中青年學術技術帶頭人，江蘇省“青藍工程”優秀青年骨干教師。獲江蘇省優秀科技工作者，廣東省優秀博士學位論文，吳仲華優秀學生獎，教育部學術新人獎。江蘇省十佳研究生導師提名獎，中國礦業大學優秀研究生導師標兵、教職工共產黨員標兵、首屆青年五四獎章、十佳青年教職工、優秀創新團隊卓越團隊帶頭人。

教學方面，先后主持河北省高等教育教學改革研究與實踐項目1項，河北省研究生教育教學改革研究項目1項，河北省實驗教學和教學實驗室建設研究項目1項，河北工業大學研究生教材建設項目1項，教育部高等學校能源動力類專業教學指導委員會教育教學改革項目1項，江蘇省研究生教育教學改革課題1項。第一作者發表教學論文5篇（其中核心期刊4篇）。第一作者出版省級高等學校重點教材1部、全國煤炭高等教育“十三五”規劃教材1部。獲省級教學成果獎(高等教育類)一等獎1項（排名第11），全國煤炭行業教育教學成果獎二等獎1項（排名第1），校級課程思政示范課程、優秀教師及教學團隊各2次，校級課程思政教學設計案例大賽一等獎2項（排名第2、3）、校級優秀教學成果獎一等獎1項（排名第2）、二等獎2項（均排名第1）。

科研方面，近年來主持國家重點研發計劃課題1項、子課題1項，國家自然科學基金5項，河北省杰青、天津市杰青、江蘇省優青等其它項目20余項。第一/通訊作者共發表SCI期刊論文190余篇，其中JCR一區140余篇，H-index為51，SCI被引10000余次，先后有15篇論文入選“ESI”高被引論文。出版專著/教材7部（第一作者3部）。獲授權發明專利47項（第一發明人26項，其中美國專利1項，韓國專利1項，日本專利2項）。研究成果獲廣東省科學技術一等獎1項（排名第2）、二等獎2項（排名第2、6），江蘇省科學技術二等獎2項（排名第1、2）。

育人方面，先后獨立或合作指導已畢業博士9人、碩士32人，其中2人入選河北省優秀青年基金，1人入選河北省高等學校青年拔尖人才，1人入選國家博士后創新人才支持計劃， 1人獲省級優秀博士學位論文，3人獲校級優秀博士學位論文，4人獲省級優秀碩士學位論文，9人獲校級優秀碩士學位論文。6人獲CSC資助出國攻讀博士學位或聯合培養，2人入選中國科協優秀中外青年交流計劃，7人獲研究生國家獎學金，4人獲校級優秀創新博士獎學金，15人獲校級優秀創新碩士獎學金。3人獲省級優秀本科畢業論文，12人獲校級優秀本科畢業論文。指導學生獲“挑戰杯”、節能減排等各類競賽獲獎150余人次。

兼職方面，先后擔任中國內燃機學會儲能分會副主任委員，中國動力工程學會理事，中國工程熱物理學會傳熱傳質分會青年工作委員會委員，中國工程熱物理學會熱力學與能源利用分會青年工作委員會委員，中國汽車工程學會青年工作委員會委員，天津市可再生能源學會副理事長；中國機械工業教育協會第一屆新能源與儲能工程專業教學委員會委員。受邀做國際/國內大會/分會主題報告34次，擔任國際學術會議組委會共同主席/分會場主席9次，國內學術會議的大會主席/分會場主席20余次。是8個SCI期刊編委/客座編輯，以及多個國家級項目/獎勵和國家級人才等的評審專家。

工作經歷

2022.09-至今，河北工業大學，能源與環境工程學院，院長

2021.10-2022.09，河北工業大學，能源與環境工程學院，學術副院長

2020.06-2021.10，中國礦業大學，電氣與動力工程學院，副院長

2015.01-2020.06，中國礦業大學電氣與動力工程學院（電力工程學院）教授（其間：2018.08-2018.09美國德克薩斯A&M大學高級研究學者；2019.08-2019.09，英國諾丁漢大學高級研究學者；2019.07-2020年11月，任江蘇省高效儲能技術與裝備工程實驗室主任)

2013.07-2014.12，中國礦業大學電力工程學院副教授(2014.01-2016.12中國礦業大學礦物加工工程專業博士后；2014.12-2015.02日本北海道大學日本學術振興會外籍聘用研究員）

教育經歷

2010.09-2013.06，華南理工大學，化工過程機械，博士

2008.09-2010.06，廣東工業大學，熱能工程，碩士

2004.09-2008.06，廣東工業大學，熱能與動力工程，本科

社會、學會及學術兼職

[25]IEEE PES中國區電動汽車技術委員會動力電池技術分委會，常務理事；

[24]江蘇省工程熱物理學會，常務理事兼副秘書長

[23]中國工程熱物理學會熱力學與能源利用分會青年工作委員會，委員

[22]中國工程熱物理學會傳熱傳質分會青年工作委員會，委員

[21] 中國工程熱物理學會多相流青年論壇組委會，委員

[20] 中國化工學會儲能工程專業委員會青年委員會，委員

[19]中國硅酸鹽學會礦物材料分會，青年理事

[18]《能源研究與利用》，《礦業科學學報》，編委

[17] International Journal of Mining Science and Technology，Energy and Built Environment，青年編委

[16]Energies，Thermal Science，Scientific Reports，Plos One，編委

[15] Frontiers in Energy Research，International Journal of Photoenergy，Energies，客座編輯

[14] 2019年16th UK Heat Transfer Conference, Session Chair.

[13] 2017年3rd International Symposium of Fluids and Thermal Engineering, Session Chair.

[12] 2017年International Symposium on Electric Vehicles, Organizing Committee Co-Chair, Session Chair.

[11] 2016年The 2nd International Conference on Computing and Precision Engineering, Program Co-Chairmen.

[10] 2020智慧能源高端****論壇，組委會主席。

[9] 2020年第六屆全國儲能工程大會，組委會副主席。

[8]2019年淮海綠色功能材料產學研論壇，大會共同主席

[7] 2018年多相流與新能源青年****論壇組委會委員

[6] 2018年第三屆電池設計與管理青年****論壇，大會主席

[5] 2018年傳熱傳質青年學術論壇，分會場主席

[4] 2017年第二屆傳熱與多相流青年學術論壇，分會場主席

[3] 2016、2017年江蘇省工程熱物理學會學術年會，分會場主席

[2] 2016、2017、2018年中國工程熱物理學會多相流學術會議，分會場主席

[1] 2015、2016、2017、2018年、2020年中國工程熱物理學會傳熱傳質學術會議，分會場主席

 

 

 

教學活動

研究生：

微納尺度傳熱學（30學時）：2017級、2018級、2019級。

先進儲能理論與技術（30學時）：2017級、2018級、2019級。

學科專題講座（4學時）：2014級、2015級。

本科生：

工程熱力學（64學時）：2015級、2016級、2017級、2018級、2019級。

制冷原理與設備（48學時）：2012級、2013級。

學科前沿講座（16學時）：2013級、2014級、2015級、2016級、2017級、2018級。

新能源技術與應用（32學時）：2011級。

儲能科學與技術（16學時）：2015-2016學年（下）。

指導學生情況

[1] 國家博士后創新人才支持計劃

2018：霍宇濤

[2] 國家公派出國留學

2020：呂培召（2019級，博），喬羽（2019級，博）

2019：劉新�。�2018級，博）

2018：曲捷（2017級，博），王立（2017級，碩）

2017：趙佳騰（2016級，博）

[3] 中國科協優秀中外青年交流計劃

2017：曲捷（2017級，博）

2018：劉新�。�2018級，博）

[4] 研究生國家獎學金

2020：呂培召（2019級，博）

2017：霍宇濤（2016級，博），呂培召（2017級，碩）

2016：劉新健（2016級，碩）

2015：趙佳騰（2013級，碩），霍宇濤（2014級，碩）

[5] 江蘇省優秀博士學位論文

2020：趙佳騰（2016級）

[6] 中國礦業大學優秀博士學位論文

2019：趙佳騰（2016級）

2018：霍宇濤（2016級）

2017：劉臣臻（2014級）

[7] 中國礦業大學優秀創新博士獎學金

2019：劉新健（2018級）

2018：曲 捷（2017級）

2017：趙佳騰（2016級）

2016：劉臣臻（2014級）

[8] 江蘇省優秀碩士學位論文

2019：劉新�。�2016級，專碩）

2018：陳斌（2014級，學碩）

2017：趙佳騰（2013級，學碩），王慶超（2014級，專碩）

[9] 中國礦業大學優秀碩士學位論文

2019：許淘淘（2016級，學碩）

2018：劉霞（2015級，學碩），鄭辰陽（2015級，學碩），劉新�。�2016級，專碩），張光通（2016級，專碩）

2017：陳斌（2014級，學碩）

2016：趙佳騰（2013級，學碩），王慶超（2014級，專碩）

[10] 中國礦業大學優秀創新碩士獎學金

2019：張 軒（2017級），呂培召（2017級）

2018：王文�。�2015級）

2017：陳斌（2014級），曲捷（2015級），劉霞（2015級），吳凡塵（2015級），錢振（2015級），鄭辰陽（2015級）

2016：趙佳騰（2013級），霍宇濤（2014級），王慶超（2014級），張倩楠（2014級）

2015：趙佳騰（2013級），霍宇濤（2014級）

[11] 江蘇省優秀本科畢業設計（論文）

2019：徐澤

2016：劉新�。▓F隊）

2014：霍宇濤

[12] 中國礦業大學優秀本科畢業設計（論文）

2020：左安昊

2019：徐澤

2017：呂培召，林長鵬

2016：劉新健

2015：常宏宇

2014：霍宇濤

[13] 課外創新

2020：

第十三屆全國大學生節能減排社會實踐與科技競賽一等獎（韓雅嫻、安振華、徐一鈞、沈圳、李登昊、劉健濱、張睿杰）

第十三屆全國大學生節能減排社會實踐與科技競賽三等獎（王增鵬、劉擁衡、徐旺、戴宇成、孫森山、張天健、萬旭）

第十一屆全國大學生過程裝備實踐與創新大賽三等獎（韓雅嫻、安振華、徐一鈞、沈圳）

第七屆中國研究生能源裝備創新設計大賽三等獎（呂培召、龐曉文、房慧、劉卓然、王蒙）

2020江蘇省研究生節能低碳科研創新實踐大賽二等獎（呂培召、龐曉文、房慧、劉卓然）

2020江蘇省研究生節能低碳科研創新實踐大賽二等獎（賀德清、殷冒彬、馮張威）

2020江蘇省研究生節能低碳科研創新實踐大賽三等獎（喬羽、宗建華、曹歡欣、吳宜衡）

2019：

江蘇省工程熱物理學會第十三屆學術會議優秀論文獎（喬羽、盛穩、何琛）

第十屆全國大學生過程裝備實踐與創新大賽二等獎（姜威、王增鵬、戴宇成、崔曉楠）

2018：

第十一屆全國大學生節能減排社會實踐與科技競賽一等獎（姜威、王佳晨、林蒼粟、宋燕、徐一鈞、楊春暉、柯志棋）

2017：

中國化工學會年會優秀墻報獎（張軒）

中國化工學會年會優秀論文獎（劉臣臻，呂培召，張軒）

第八屆全國大學生過程裝備實踐與創新大賽三等獎（王佳晨、趙傲、孫永漮、徐澤、馬嘯天）

2016：

第三屆全國儲能科學與技術大會“中聚電池最佳墻報獎”（許淘淘）

第七屆全國大學生過程裝備實踐與創新大賽一等獎（張倩楠、錢振、曲捷、吳凡塵、林長鵬）

第二屆“協鑫杯”大學生綠色能源科技創新創業大賽三等獎（劉新健、張光通、許淘淘、文一平、呂培召、張軒、王興明）

第二屆“協鑫杯”大學生綠色能源科技創新創業大賽優秀獎（呂培召、張軒、王興明、馬鉦沅、王翠、李蕭紋、胡鵬博）

第二屆“協鑫杯”大學生綠色能源科技創新創業大賽優秀獎（錢振、曲捷、王文健、吳凡塵、劉霞、鄭辰陽）

2015：

第十四屆“挑戰杯”全國大學生課外學術科技作品競賽三等獎（劉新健、金玉、陳娟、林長鵬、劉�，�、王祥）

第十四屆“挑戰杯”江蘇省大學生課外學術科技作品競賽三等獎（劉新健、金玉、陳娟、林長鵬、劉�，�、王祥）

首屆“協鑫杯”大學生綠色能源科技創新大賽全國二等獎（王慶超、趙佳騰、霍宇濤、張倩楠、陳斌、劉新�。�

2014：

第五屆高校環保科技創意設計大賽金獎（劉新健、陳娟、金玉、劉�，�、林長鵬、王祥）

第五屆全國大學生過程裝備實踐與創新大賽二等（劉新健、陳娟、金玉、劉�，摗⒘珠L鵬）

第五屆全國大學生過程裝備實踐與創新大賽三等（霍宇濤、趙佳騰、劉新健、劉�，摗⑼跸椋�

 

我的團隊

中國礦業大學第九批優秀創新團隊卓越團隊

中國礦業大學儲能與傳熱課題組（http://rao.cumt.edu.cn）：

[2] 中國礦業大學優秀研究生創新創業團隊（2016）；

[1] 中國礦業大學優秀研究生創新創業團隊（2015）。

中國礦業大學工程熱物理研究所：

[1] 中國礦業大學“優秀教學科研群體”（2016）。

中國礦業大學人工智能研究院智慧能源研究中心

徐州市儲能安全與強化工程研究中心

徐州市礦物儲能工程技術研究中心

教學項目：

[4] 江蘇省研究生教育教學改革課題，面向一流學科建設的能源資源類高校研究生拔尖創新人才培養創新與實踐（JGLX19_111），2019.01-2019.12.

[3] 教育部高等學校能源動力類專業教學指導委員會教育教學改革項目，礦業類高校能源與動力工程專業學生創新能力培養實踐探索（NDJZW2016Y-74），2016.12-2018.12.

[2] 中國礦業大學教學成果培育重點項目，創建一流學科背景下特色拔尖創新人才培養體系研究（2016CG05），2016.05-2018.05.

[1] 中國礦業大學研究生教育教學改革研究與實踐項目，中國礦業大學新興學科研究生拔尖人才創新能力培養實踐與探索，2015.05-2017.05.

(1) 相變、熱化學儲熱，鋰離子、鋰空、鋰硫等電池儲能，氫能與燃料電池技術。

(2) 儲能系統、新能源汽車動力電池熱安全與熱管理，電子器件、功率設備散熱。

(3) 多相流傳熱傳質，微納尺度、微小通道、納米流體、多孔介質、相變傳熱傳質。

在研項目

(1) 國家重點研發計劃課題，相變材料的儲能動力學及宏/微觀封裝界面調控與長效穩定機制（No.2022YFB3806503），2022.11-2025.10，260萬，主持。

(2) 國家重點研發計劃子課題，熔鹽儲熱系統儲/放熱動態響應特性及優化研究（No.2022YFB240520102），2022.11-2026.10，50萬，主持。

(3) 國家自然科學基金，相變儲能材料在電池熱管理應用中的熱質傳遞調控機理（No.52311530086），2023.05-2025.04，10萬，主持。

(4) 國家自然科學基金，相變儲能過程多孔骨架強化傳熱微納調控機理（No.52176092），2022.01-2025.12，58萬，主持。

(5) 河北省高層次創新型人才項目，可持續能源開發與儲能技術，2023.01-2025.12，200萬，主持。

(6) 河北省重大科技支撐計劃，高比能鹵化物全固態電池關鍵材料設計及其高低溫性能研究(242G4401Z)，2024.10-2026.09，100萬，主持。

(7) 河北省杰出青年基金，電池儲能系統高效熱管理過程多相傳熱傳質（NO.E2024202056），2024.01-2026.12，50萬，主持。

(8) 天津市杰出青年基金，相變微納膠囊熱輸運過程傳熱傳質強化及其微觀調控機理（No.22JCJQJC00010），2022.10-2026.09，100萬，主持。

(9) 京津冀基礎研究合作專項，鋰金屬電池界面多尺度熱電力耦合輸運機理及熱失控抑制關鍵技術(E2024202293)，2024.10-2027.09, 60萬, 主持。

(10) 河北省高等學�？茖W技術研究項目基礎研究重點培育專項，電池熱安全與熱管理中的傳熱傳質基礎問題研究（NO.JZX2024003），2024.01-2026.12，20萬，主持。

(11) 石家莊市駐冀高�；�礎研究項目重點項目，退役鋰離子電池多組分低能耗回收過程熱質傳遞及其調控機理（NO.241790887A），2024.01-2026.12，50萬，主持。

已研項目：

[14]國家自然科學基金，基于微通道的鋰離子動力電池熱管理系統熱質傳遞特性與強化研究（No.**），2018.01-2021.12.

[13]國家自然科學基金，潛熱型熔鹽儲能材料的制備及其多尺度熱質傳遞特性（No.U**），2015.01-2017.12.

[12]國家自然科學基金，相變材料/脈動熱管在動力電池熱管理系統中的耦合傳熱特性與機理研究（No.**），2015.01-2017.12.

[11]江蘇省優秀青年基金，動力電池熱管理系統傳熱傳質強化研究（BK**），2018.07-2021.06.

[10]江蘇省自然科學基金，相變儲能材料/微型熱管耦合傳熱特性研究（No.BK**），2014.07-2017.06.

[9]中國博士后科學基金特別資助，褐煤干燥脫水提質過程熱質傳遞的微觀機理研究（No.2015T80607），2014.01-2015.12.

[8]中國博士后科學基金(面上)，低品質煤干燥脫水過程中傳熱傳質基礎問題研究（No.2014M551692），2014.01-2015.12.

[7]中國礦業大學第九批校級創新團隊，新能源開發與儲存（NO.2020ZY003），2020.04-2023.04.

[6]中國礦業大學學科前沿科學研究專項重點項目，儲能材料傳熱與流動特性的分子動力學模擬與實驗研究（No.2017XKZD05），2017.01-2020.12.

[5]中國礦業大學重點學科建設經費，儲能與傳熱流動（No.XZD201601），2016.01-2016.12.

[4]中國礦業大學學科前沿方向研究專項，相變儲能過程固液相變傳熱傳質過程強化（No.2015XKQY04），2015.07-2017.07.

[3]中國礦業大學青年科技基金，相變儲能材料/微型熱管耦合傳熱特性研究（No.2014QNA24），2014.01-2016.12.

[2]中國礦業大學青年教師“啟航計劃”，相變儲能材料與技術，2013.09-2015.08.

[1]中國礦業大學引進人才資助項目，新能源汽車動力電池熱管理，2013.07-2015.06.

第一發明人：

[15]饒中浩,吳晨輝, 趙佳騰. 一種基于重力熱管的分層式相變儲熱器. ZL1.5, 2020.12.22.

[14] 饒中浩, 龐曉文, 霍宇濤, 秦江. 一種具有應急處理及后處理裝置的電池系統. ZL.6, 2020.10.30.

[13] 饒中浩, 劉昌會, 曹玉棋, 賀靖峰, 段晨龍, 趙躍民. 一種基于低共熔溶劑納米流體回收廢舊鋰離子電池正極材料的方法. ZL8.4, 2020.10.27.

[12]饒中浩, 周艷磊, 霍宇濤, 張曉. 一種電動汽車低溫環境下電池保溫系統及控制方法. ZL3.5, 2020.07.28.

[11]饒中浩, 呂培召, 劉新健, 霍宇濤, 劉臣臻, 劉昌會, 趙佳騰. 一種用于電池的全氣候熱管理系統及其工作方法. ZL1.4, 2020.06.23.

[10] 饒中浩, 劉昌會, 徐澤, 趙佳騰, 劉臣臻, 霍宇濤.一種超交聯聚苯乙烯擔載有機相變材料的制備方法及其制備的復合相變材料.ZL5.8,2020.04.03.

[9]饒中浩, 張軒, 賀靖峰, 段晨龍, 趙躍民. 一種基于太陽能和儲熱的顆粒礦物干法分選系統. ZL9.X, 2019.12.24.

[8]饒中浩, 霍宇濤. 一種相變材料/空氣耦合的階級式電池熱管理系統. ZL.0, 2019.04.26.（韓國專利: , 2019.01.24;日本專利: **, 2019.04.19）

[7]饒中浩, 趙佳騰. 一種相變材料與發散熱管耦合儲能系統. ZL2.5,2019.02.22.（美國專利:US ** B2, 2020.05.26; 日本專利: **, 2019.11.8）

[6]饒中浩,呂培召, 王興明，趙佳騰.一種基于耦合式熱管理的電池儲能系統及方法. ZL5.2, 2018.09.21.

[5]饒中浩,趙佳騰.一種三維脈動熱管相變材料耦合儲能系統. ZL9.1, 2018.07.27.

[4]饒中浩,趙佳騰,劉臣臻,王慶超.一種基于空氣、熱管和相變材料耦合冷卻的動力電池模塊. ZL6.9, 2016.09.21.

[3]饒中浩,劉新健,梁運民,陳娟,黃能.一種基于金屬相變材料的動力電池熱管理系統. ZL2.1, 2015.12. 02.

[2]饒中浩,梁運民,劉新健,金玉,黃能.一種基于脈動熱管的電池熱管理系統. ZL1.4, 2015.12.02.

[1]饒中浩,高憲花,魏賞賞,崔晨曉,王偉,馬貴保,周家理,林長鵬,劉新健.一種電動汽車動力電池余熱利用裝置. ZL1.4, 2015.12.02.

非第一發明人：

[9] 趙佳騰, 喬羽, 劉昌會, 饒中浩. 一種兩親性高分子負載納米流體及其制備方法, ZL8.2, 2020, 07.17.

[8]劉昌會, 房慧, 喬羽, 趙佳騰, 劉臣臻, 霍宇濤, 饒中浩. 一種基于丙三醇低共融溶劑體系的納米流體的制備方法及其制備的納米流體. ZL2.3, 2020.05.05.

[7]劉昌會,饒中浩, 劉臣臻, 趙佳騰, 霍宇濤.一種石墨烯改進納米流體傳熱工質及其制備方法.ZL7.7,2020.01.21.

[6]汪雙鳳,饒中浩,陳錦芳,胡艷鑫,鄭偉偉,熊志江,孫志強,徐智慧,孫威,賴勇志.一種用于鋰電池散熱的微通道冷卻均溫系統. ZL7.4, 2015.03.11.

[5]張國慶,張云云,熊中瓊,張文靜,饒中浩.一種基于泡沫金屬復合相變材料的動力電池冷統. ZL4.2, 2014.07.09.

[4]張江云,王長宏,張國慶,饒中浩,袁韓生,張磊.一種具有強化散熱功能的管殼式電動汽車電池裝置. ZL4.5, 2014.04.09.

[3]王長宏,林濤,陶肖生,饒中浩,黃金.一種太陽能溫差發電裝置. ZL4.X, 2014.04.02.

[2]張國慶,黃鋅鵬,饒中浩.一種圓柱形動力電池材料產熱量測量裝置. ZL0.3, 2012.01.18.

[1]張國慶,吳忠杰,傅李鵬,饒中浩,楊承昭.一種使用超聲波防垢除垢的光催化反應裝置. ZL5.6, 2011.09.07.

出版專著和教材

[4] 劉臣臻, 饒中浩. 相變儲能材料與熱性能. 徐州: 中國礦業大學出版社, 2019. ISBN: 978-7-5646-4439-0.

[3]饒中浩,劉臣臻.相變儲能實驗與分析.徐州:中國礦業大學出版社, 2018. ISBN:978-7-5646-3953-2.（江蘇省“十三五”高等學校重點教材）

[2]饒中浩,汪雙鳳.儲能技術概論.徐州:中國礦業大學出版社, 2016. ISBN:978-7-5646-3384-4.（煤炭高等教育“十三五”規劃教材）

[1]饒中浩,張國慶.電池熱管理.北京:科學出版社, 2015. ISBN:978-7-03-044863.

發表論文

標記星號為通訊作者。

2021年度：

[179]Changhui Liu, Pan Jiang, Yixuan Huo, Tianjian Zhang, Zhonghao Rao*. Experimental study on ethylene glycol/choline chloride deep eutectic solvent system based nanofluids. Heat and Mass Transfer, 2021, DOI: 10.1007/s00231-021-03030-z.(SCI)

[178]Yutao Huo, Xiaowen Pang, Zhonghao Rao*. Heat transfer enhancement in thermal energy storage using phase change material by optimal arrangement. International Journal of Thermal Sciences, 161 (2021) 106736.(SCI)

[177]Huanguang Wang, Yunhao Bao, Shuai Zhu, Meng Liu, Zhonghao Rao*. Experimental research on heat transfer performance of CO2 low temperature heat pipe. International Journal of Heat and Mass Transfer, 170 (2021) 120987.(SCI)

[176]Jie Qu, Anhao Zuo, Heng Liu, Jiateng Zhao, Zhonghao Rao*. Three-dimensional oscillating heat pipes with novel structure for latent heat thermal energy storage application. Applied Thermal Engineering, 187 (2021) 116574.(SCI)

[175]Huanguang Wang, Yunhao Bao, Yuming Tang, Meng Liu, Bilin Zhang, Shuai Zhu, Zhonghao Rao*. Analytical solutions of heat storage and heat transfer performance of parallel-plate regenerators in Stirling cycle. International Journal of Energy Research, 2021;45:3327–3342.(SCI)

[174]Ruitong Yang, Dong Li a*, Samanta L´opez Salazar,Zhonghao Rao*, Müslüm Ar?c?, Wei Wei. Photothermal properties and photothermal conversion performance of nano-enhanced paraffin as a phase change thermal energy storage material.Solar Energy Materials and Solar Cells, 219 (2021) 110792. (SCI)

[173]Xinjian Liu, Changpeng Lin,Zhonghao Rao*. Thermal conductivity of straight-chain polytetrafluoroethylene: A molecular dynamics study.International Journal of Thermal Sciences, 159 (2021) 106646.(SCI)

2020年度：

[172]Xiaojie Zhang, Xiaoyan Gao*, Junfeng Li*, Kun Hong, Lei Wu, Shigang Xu, Kailong Zhang, Chenzhen Liu, Zhonghao Rao*. In-situ synthesis of Fe7S8 nanocrystals decorated on N, S-codoped carbon nanotubes as anode material for high-performance lithium-ion batteries. Journal of Colloid and Interface Science, 579 (2020) 699–706.(SCI)

[171] Xinjian Liu, Ivan Korotkin, Zhonghao Rao, and Sergey Karabasov*. A Thermostat-Consistent Fully Coupled Molecular Dynamics-Generalized Fluctuating Hydrodynamics Model. Advanced Theory and Simulations, 2020, **.(SCI)

[170]Jiangyun Zhang, Xinxi Li*, Guoqing Zhang, Hongwei Wu,Zhonghao Rao, Jianwei Guo, Dequan Zhou. Experimental investigation of the flame retardant and form-stable composite phase change materials for a power battery thermal management system.Journal of Power Sources, 480 (2020) 229116.(SCI)

[169] 趙佳騰，王增鵬，戴宇成，劉昌會，饒中浩*. 兩親性納米流體太陽能重力熱管傳熱性能研究. 化工學報, 2020, 71(12): 5461-5469. (EI)

[168] YuTao Huo, Wen Hu, Zhe Li, Zhonghao Rao*. Research on parameter identification and state of charge estimation of improved equivalent circuit model of Li-ion battery based on temperature effects for battery thermal management. International Journal of Energy Research, 2020; 44: 11583-11596.(SCI)

[167]Chenzhen LIU, Zhengyuan MA, Ruicheng JIANG, Jie QU, Zhonghao RAO*. Experimental Study on Heat Transfer Enhancement of Phase Change Material using Embedded Oscillating Heat Pipe for Thermal Energy Storage. ISIJ International, 60 (2020), 10, 2157–2164.(SCI)

[166] Changhui Liu, Peixing Du, Bin Fang, Ziyan Li, Bohao Chen, Zhonghao Rao*. Experimental study on a functional microencapsulated phase change material for thermal management. International Communications in Heat and Mass Transfer, 118 (2020) 104876.(SCI)

[165]Xinjian Liu, Zhonghao Rao*. Interfacial thermal conductance across hexagonal boron nitride & paraffin based thermal energy storage materials. Journal of Energy Storage, 32 (2020) 101860. (SCI)

[164]Jie Qu, Anhao Zuo, Fei Liu, Zhonghao Rao*. Quantitative analysis of thermal performance and flow characteristics of oscillating heat pipes with different initial pressure. Applied Thermal Engineering, 181 (2020) 115962.(SCI)

[163] Changhui Liu, Tianjian Zhang, Bingru Lv, Yu Qiao, Zhonghao Rao*. Preparation and thermo-physical properties of stable graphene/water nanofluids for thermal management. Journal of Molecular Liquids, 319 (2020) 114165.(SCI)

[162]Changhui Liu, Jianhua Zong, Jiahao Zhang, Deqing He, Chenglong Guo, Ben Xu, Zhonghao Rao*. Knitting aryl network polymers (KAPs)-embedded copper foam enables highly efficient thermal energy storage. Journal of Materials Chemistry A, 2020, 8, 15177-15186.(SCI)

[161]Deqing He, Jianglu Xiang, Chenyang Zha, Rong Wu, Jun Deng, Yuwei Zhao, Hongguang Xie, You Liu, Pengcheng Wang, Wei Wang, Yao Yin, Tianshi Qin, Chao Zhu, Zhonghao Rao*, Lin Wang*, Wei Huang*. The efficient redox electron transfer and powered polysulfide confinement of carbon doped tungsten nitride with multi-active sites towards highperformance lithium-polysulfide batteries. Applied Surface Science, 525 (2020) 146625.(SCI)

[160] Huagen Liang, Xu Gong, Linhui Jia, Fu Chen, Zhonghao Rao, Shengyu Jing*Panagiotis Tsiakaras*. Highly efficient Li-O2 batteries based on self-standing NiFeP@NC/BC cathode derived from biochar supported Prussian blue analogues. Journal of Electroanalytical Chemistry, 867 (2020) 114124.(SCI)

[159]PeizhaoLyu, XinjianLiu, JieQu, JiatengZhao, YutaoHuo, ZhiguoQu*, ZhonghaoRao*. Recent advances of thermal safety of lithium ion battery for energy storage. Energy Storage Materials, 2020, 31: 195-220.(SCI)

[158]劉昌會，黃文博，顧彥龍，饒中浩*. 廢棄聚苯乙烯塑料在環境與能源中的高值化應用進展. 化工學報, 2020, 71(7): 2956-2972.(EI)

[157]Weixiong Wu, Jizhen Liu, Min Liu, Zhonghao Rao, Hui Deng, Qian Wang, Xiao Qi, Shuangfeng Wang*. An innovative battery thermal management with thermally induced flexible phase change material. Energy Conversion and Management,221 (2020) 113145.(SCI)

[156] Guorui Gao, Tongxing Zhang, Chenglong Guo*, Shaokai Jiao, Zhonghao Rao. Photo-thermal conversion and heat storage characteristics of multi-walled carbon nanotubes dispersed magnetic phase change microcapsules slurry. International Journal of Energy Research, 2020; 44: 6873-6884.(SCI)

[155]Jiateng Zhao, Chenhui Wu, Zhonghao Rao*. Numerical study on heat transfer enhancement of closed loop oscillating heat pipe through active incentive method. International Communications in Heat and Mass Transfer, 115 (2020) 104612.(SCI)

[154]霍宇濤, 陳之琳, 饒中浩*. 方腔內相變材料固液相變傳熱研究. 工程熱物理學報, 2020, 41(3): 615-620.(EI)

[153]褚召祥, 周國慶*,饒中浩, 趙曉東, 王濤. 顆粒巖土介質熱導率預測關聯式及其演化機制. 巖石力學與工程學報, 2020, 39(2): 384-397.(EI)

[152] Z.Y. Jiang, Z.G. Qu*, J.F. Zhang, Z.H. Rao. Rapid prediction method for thermal runaway propagation in battery pack based on lumped thermal resistance network and electric circuit analogy. Applied Energy, 268 (2020) 115007.(SCI)

[151]Jiateng Zhao, Chenhui Wu, Zhonghao Rao*. Investigation on the cooling and temperature uniformity of power battery pack based on gradient phase change materials embedded thin heat sinks. Applied Thermal Engineering, 174 (2020) 115304.(SCI)

[150]Ruijie Zhu, Chunyu Zhu*, Nan Sheng, Zhonghao Rao, Yoshitaka Aoki, Hiroki Habazaki. A widely applicable strategy to convert fabrics into lithiophilic textile current collector for dendrite-free and high-rate capable lithium metal anode. Chemical Engineering Journal, 388 (2020) 124256.(SCI)

[149] Changhui Liu, Yu Qiao, Bingru Lv, Tianjian Zhang, Zhonghao Rao*. Glycerol based binary solvent: Thermal properties study and its application in nanofluids. International Communications in Heat and Mass Transfer, 112 (2020) 104491. (SCI)

[148]Changhui Liu, Xiaotian Ma, Peixing Du, Zhonghao Rao*. Fabrication of highly efficient thermal energy storage composite from waste polystyrenes. Chemical Engineering Science, 216 (2020) 115477.(SCI)

[147]Changhui Liu , Yan Song , Ze Xu , Jiateng Zhao , Zhonghao Rao*. Highly efficient thermal energy storage enabled by a hierarchical structured hypercrosslinked polymer/expanded graphite composite. International Journal of Heat and Mass Transfer, 148 (2020) 119068.(SCI)

[146]Peizhao Lyu, Yutao Huo, Zhiguo Qu*, Zhonghao Rao*. Investigation on the thermal behavior of Ni-rich NMC lithium ion battery for energy storage. Applied Thermal Engineering,166 (2020) 114749.(SCI)

[145]Jie Qu, Luis Escobar, Jianzhi Li, Zhonghao Rao*, Ben Xu*. Experimental study of evapowration and crystallization of brine droplets under different temperatures and humidity levels. International Communications in Heat and Mass Transfer,110 (2020) 104427.(SCI)

[144]Nan Sheng, Ruijie Zhu, Takahiro Nomura, Zhonghao Rao, Chunyu Zhu*, Yoshitaka Aoki, Hiroki Habazaki, Tomohiro Akiyama. Anisotropically enhanced heat transfer properties of phase change material reinforced by graphene-wrapped carbon fibers.Solar Energy Materials and Solar Cells, 2020:206,110280. (SCI)

[143]Nan Sheng, Zhonghao Rao, Chunyu Zhu*, Hiroki Habazaki. Enhanced thermal performance of phase change material stabilized with textile-structured carbon scaffolds. Solar Energy Materials and Solar Cells, 205 (2020) 110241.(SCI)

[142]Nan Sheng, Zhonghao Rao, Chunyu Zhu*, Hiroki Habazakib. Honeycomb carbon fibers strengthened composite phase change materials for superior thermal energy storage. Applied Thermal Engineering, 164 (2020) 114493.(SCI)

[141]Xinjian Liu, Zhonghao Rao*. A molecular dynamics study on heat conduction of crosslinked epoxy resin based thermal interface materials for thermal management. Computational Materials Science, 172 (2020) 109298.(SCI)

2019年度:

[140]Ruijie Zhu, Nan Sheng, Zhonghao Rao, Chunyu Zhu*, Yoshitaka Aoki, Hiroki Habazaki. Employing a T-shirt template and variant of Schweizer's reagent for constructing a low-weight, flexible, hierarchically porous and textilestructured copper current collector for dendritesuppressed Li metal. Journal of Materials Chemistry A, 2019, 7, 27066-27073.(SCI)

[139] Xiaojie Zhang*, Xiaoyan Gao, Kun Hong, Jinlong Jiang, Lijing Zhang, Jing Chen, Zhonghao Rao*. Hierarchically porous carbon materials derived from MIL-88(Fe) for superior high-rate and long cycling-life sodium ions batteries. Journal of Electroanalytical Chemistry, 852 (2019) 113525.(SCI)

[138]Changhui Liu, Hui Fang, Xinjian Liu, Ben Xu, and Zhonghao Rao*. Novel Silica Filled Deep Eutectic Solvent Based Nanofluids for Energy Transportation. ACS Sustainable Chemistry & Engineering, 2019, 7, 20159-20169.(SCI)

[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.Chemistry Select, 2019, 4 (29), 8482-8492. (SCI)

[135]Xiaojie Zhang*, Xiaoyan Gao, Zhanyu Wu, MinghaiZhu, Qinghai Jiang, Shoubin Zhou, Yi Huang, Zhonghao Rao*. High-capacitance supercapacitor based on nitrogen-doped porous carbons-sandwiched graphene hybrid frameworks.Ionics. 2019, 25: 6017-6023. (SCI)

[134]XiaoLuo,DongxuWu,CongliangHuang*,ZhonghaoRao*.Skeletondoublelayerstructureforhighsolarsteamgeneration.Energy.2019,183:1032-1039.(SCI)

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

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

[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]GuangqingZhu, BoZhang*, PengfeiZhao, ChenlongDuan, YueminZhao*, ZhenxingZhang, GuanghuiYan, XiangnanZhu, WenjieDing, ZhonghaoRao. Upgradinglow-qualityoilshaleusinghigh-densitygas-solid fluidized bed.Fuel2019, 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 withtime-dependent heat flux for powerplants,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]饒中浩,劉霞.二級膨脹石墨/石蠟相變儲能元件熱質傳遞特性研究.工程熱物理學報, 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 ofEnergy 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]霍宇濤, 饒中浩*. 基于偽焓法的多孔介質固液相變格子Boltzmann方法. 工程熱物理學報, 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] 趙佳騰, 饒中浩*, 李意民. 基于相變材料的動力電池熱管理數值模擬. 工程熱物理學報, 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): **.(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] 王煥光, 吳 迪, 饒中浩*. 孤 立 系 內 熱 傳 導 過 程(火積) 耗 散 的 解 析 解. 物理學報, 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] 林長鵬, 劉新健, 饒中浩*. 鋁納米顆粒的熱物性及相變行為的分子動力學模擬. 物理學報, 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), **. (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] 張艷來, 李秀平, 饒中浩, 汪雙鳳. 相變材料微膠嚢流體相變化過程流體內部流態的變化. 工程熱物理學報, 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] 張艷來, 饒中浩, 李復活, 汪雙鳳. 含相變材料微膠囊流體相變過程對儲熱蓄熱的影響. 工程熱物理學報, 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, andEnvironmental 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, andEnvironmental 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] 饒中浩, 汪雙鳳, 張艷來, 彭飛飛, 蔡頌恒. 相變材料熱物理性質的分子動力學模擬. 物理學報, 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] 饒中浩,汪雙鳳,洪思慧,巫茂春. 電動汽車動力電池熱管理實驗與數值分析. 工程熱物理學報, 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] 張艷來, 饒中浩, 汪雙鳳, 張召. 相變微膠囊流體相變化對自然對流的促進作用. 太陽能學報, 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)

 

獲獎、榮譽稱號

【人才計劃】：

[10]國家“****”青年拔尖人才（2018）

[9]江蘇省優秀青年基金（2018）

[8] 江蘇省“雙創團隊”核心成員（2018）

[7]江蘇省“青藍工程”中青年學術帶頭人（2017）

[6]江蘇省第十三批“六大人才高峰”高層次人才（2016）

[5]江蘇省第五期“333高層次人才培養工程”中青年學術技術帶頭人（2016）

[4]江蘇省“青藍工程”優秀青年骨干教師（2016）

[3] 中國礦業大學第九批優秀創新團隊卓越團隊帶頭人（2019）

[2]中國礦業大學校級優秀青年骨干教師（2014）

[1]中國礦業大學青年教師“啟航計劃”培養對象（2013）

【科研獲獎】：

[12]江蘇省科學技術二等獎（2020，排名第1）

[11] 江蘇省輕工業科學技術獎一等獎（2020，排名第1）

[10]江蘇省工程熱物理學會科學技術獎二等獎（2019，排名第1）

[9]江蘇省科學技術二等獎（2018，排名第2）

[8]江蘇省教育教學與研究成果獎（研究類）三等獎（2018，排名第1）

[7]徐州市科學技術獎二等獎（2017，排名第1）

[6]江蘇省教育科學研究成果自然科學三等獎（2016，排名第1）

[5]廣東省科學技術二等獎（2016，排名第2）

[4]廣東省科學技術二等獎（2014，排名第6）

[3]日本學術振興會外籍聘用研究員（JSPS Fellow）（2014）

[2]廣東省優秀博士學位論文（2014）

[1]廣東省優秀碩士學位論文（2012）

【教學獲獎】：

[4] 全國煤炭行業教育教學成果獎二等獎（2017，排名第1）

[3] 中國礦業大學優秀教學成果獎二等獎（2020，排名第1）

[2] 中國礦業大學優秀教學成果獎二等獎（2018，排名第1）

[1] 中國礦業大學優秀教學成果獎一等獎（2016，排名第2）

【榮譽稱號】：

[22] 江蘇省十佳研究生導師提名獎（2020）

[21]科睿唯安全球高被引科學家（2020）

[20] 中國能源研究會優秀青年能源科技工作者（2020）

[19] 中國礦業大學優秀研究生導師標兵（2019）

[18] 中國新銳科技人物卓越影響獎（2019）

[17] 江蘇省工程熱物理學會優秀青年科技工作者（2019）

[16] 中國礦業大學十佳青年教職工（2018）

[15] 中國礦業大學優秀教職工共產黨員標兵（2018）

[14] 中國礦業大學首屆青年五四獎章（2018）

[13] 第九屆侯德榜化工科技青年獎（2017）

[12] 中國礦業大學大學生科技創新創業活動優秀指導教師（2017）

[11] 中國礦業大學2016年度教職工考核優秀（2016）

[10] 第十二屆江蘇省優秀科技工作者（2016）

[9] 第五屆徐州市優秀科技工作者（2016）

[8] 第二屆“協鑫杯”大學生綠色能源科技創新創業大賽優秀指導教師獎（2016）

[7] 中國礦業大學2014年度教職工考核優秀（2014）

[6] 中國礦業大學2014屆本科畢業設計（論文）優秀指導教師（2014）

[5] 第五屆高校環保科技創意設計大賽最佳導師獎（2014）

[4] 第五屆全國大學生過程裝備實踐與創新大賽優秀指導教師獎（2014）

[3] 吳仲華優秀學生獎（2013）

[2] 華南理工大學十大學術之星（2012）

[1] 教育部博士研究生學術新人獎（2011）