一、
基本信息:
学位:博士研究生
职称:教授、硕士生导师
电子邮箱:chenbm@dgut.edu.cn
招生专业:能源动力
二、教育、工作经历:
2023年05月 - 至今,东莞理工学院,国际交流与合作部副部长、国际学院副院长(主持工作)、教授、硕士生导师
2022年12月- 至今,兼任科技部中国—拉美和加勒比国家技术转移中心主任、科技部国际科技合作基地主任
2018年10月 - 2023年05月,东莞理工学院化学工程与能源技术学院,副院长、硕士生导师
2016年09月 - 2018年09月,东莞理工学院能源与动力工程系,系主任、硕士生导师
2014年05月 - 2016年08月,东莞理工学院能源与动力工程专业,专业负责人、副教授
2013年10月 - 2014年01月,浙江大学低温与制冷研究所,访问学者
2013年04月 - 2015年12月,东莞理工学院化学工程与能源技术学院,讲师
2009年09月 - 2013年04月,英国诺丁汉大学,机械工程专业,博士
2005年09月 - 2009年07月,英国诺丁汉大学,机械工程专业,学士
三、研究领域:
主要从事动力工程及工程热物理领域的研究与人才培养工作,在多能源互补的分布式能源系统、低品位余热回收与热声转换技术、流体传热应用、工业节能与系统优化等方面取得了一系列原创性的成果。依托广东省分布式能源系统重点实验室、广东省分布式能源系统工程技术研究中心等平台,先后完成国家自然科学基金重点项目子课题、国家自然科学基金项目、广东省自然科学基金面上项目等 10 余项。累计发表SCI论文40余篇,获授权中国发明专利20项,并实现多项成果的转化与应用。目前担任中国机械工业教育协会能源动力工程专业委员会委员,《International Journal of Heat and Mass Transfer》等期刊编委。
四、代表性研究成果:
(一)代表性论文/论著(部分)
1.Chen B, Ho K , Xiao H , et al. The effects of swirling decaying flow towards pipe entry length and heat transfer in an annular pipe [J]. International Journal of Heat and Mass Transfer, 2018, 123:668-677.
2.Chen B, Ho K , Abakr Y A , et al. Fluid dynamics and heat transfer investigations of swirling decaying flow in an annular pipe Part 1: Review, problem description, verification and validation [J]. International Journal of Heat and Mass Transfer, 2015:S0017931015008479.
3.Chen B, Ho K , Abakr Y A , et al. Fluid dynamics and heat transfer investigations of swirling decaying flow in an annular pipe Part 2: Fluid flow[J]. International Journal of Heat & Mass Transfer, 2016, 97:1012-1028.
4.J.J. Feng, C.P. Teh, K.C. Ng, J.C. Jen-Haw, D. Xiao, Y.A. Abakr, A. Chan, B. Chen, Heat transfer and fluid flow analysis in circular tubes with multi-delta-winglets vortex generators, Int. Commun. Heat Mass Transfer 159 (2024) 108267.
5.Z.-Y. Lim, J. Tu, Y. Xu, B. Chen, Ni@ZrO2 yolk-shell catalyst for CO2 methane reforming: Effect of Ni@SiO2 size as the hard-template, Journal of Colloid and Interface Science 590 (2021) 641–651.
6.C.J.-H. Jansen, Y.A. Abakar, B. Chen, Local mechanisms prior to flow boiling of a subcooled liquid in rectangular micro-channel heat sinks, International Communications in Heat and Mass Transfer 160 (2025).
7.D. Xiao, C.J.-H. Jansen, Y.A. Abakr, C.P. Teh, B. Chen, Computational analysis of delta-winglet vortex generators for enhanced thermal-hydraulic performance in plate-fin heat sinks under turbulent flow, International Communications in Heat and Mass Transfer 169 (2025) 109777.
8.J.J. Feng, K.C. Ng, Y.A. Abakr, A. Chan, B. Chen, Experimental and numerical investigation on heat transfer and fluid flow in annular tubes with delta winglets, Applied Thermal Engineering 278 (2025).
(二)科研项目(部分)
1.科技部“小而美”科技YZ项目(KY202401006),面向拉美国家的科技YZ协作网络建设,150万,在研,主持。
2.国家自然科学基金项目,可利用中温热能的双级高效行波热声发动机机理研究(5140060061),26万,结题,主持。
3.广东省自然科学基金项目,低品位余热驱动的非对称多级环路热声热机机理研究(2019A1515010460),10万,结题,主持。
4.广东省科技厅项目,肉桂种植技术示范及推广(KTP20210418),30万,结题,主持。
5.广东省教育厅项目,基于低品位热高效回收利用的多级环路热声热机机理研究(2016KTSCX138),20万,结题,主持。
6.东莞理工学院项目,智能型节能中央空调系统及其控制方法成果育成团队,30万,结题,主持。
7.东莞理工学院项目,东燃热能工业余热回收再利用节能服务小分队(2018010),25万,结题,主持。
8.广东高鑫信息股份有限公司项目,“一种自适应型风力驱动的户外全方位信息展示装置”科技成果转化,150万,结题,主持。
9.国家自然科学基金委员会项目,太阳能与化石能源互补机理试验验证(国家级重点项目子课题),80万,结题,参加。
(三)专利(部分)
1. 陈佰满,methods, apparatuses, and control systems for adaptive wind-driven outdoor all-surrounding information display,授权美国发明专利,授权专利号:US9741272B1.
2. 陈佰满,垂直轴风力转动机与电机结合驱动的冷却塔及控制方法,授权发明专利,授权专利号:ZL201510720908.4
3. 陈佰满,徐如长,肖汉敏,蒋润花,黄斯珉,杨小平,王文豪,一种可驱动外置热机的生物质炉灶,授权发明专利,授权专利号:ZL201510448796.1
4. 陈佰满、焦钒、徐如长,一种利用中温热源的可调式行波热声热机系统,授权发明专利,授权专利号:ZL201510584522.5
五、 获奖、荣誉称号:
1.2021年获中国产学研合作创新成果奖
2.2021年获创新东莞科技进步奖
3.2020年获东莞市优秀科技工作者
4.2018年度获广东省南粤优秀教师称号
5.2018年获得东莞市特色人才称号
6.2018年度获东莞理工学院优秀教师称号
7.2016年东莞理工学院突出成就奖(重要学术论文类)
CHEN Baiman
Ⅰ、Basic information:
Degree:Ph.D
Job Title:Professor, Master's Supervisor
Email address:chenbm@dgut.edu.cn
Admission Majors: Energy and Power
Ⅱ、Education and work experience:
l2023.05 - Present: Dongguan University of Technology, Associate Director of International Office / Executive Vice Dean of International College (in charge) / Professor / Master's Supervisor
l2022.12 - Present: Concurrently, Director of China-LAC Technology Transfer Center, Ministry of Science and Technology; Director of International Science and Technology Cooperation Base, Ministry of Science and Technology
l2018.10 - 2023.05: Dongguan University of Technology, School of Chemical Engineering and Energy Technology, Vice Dean / Master's Supervisor
l2016.09 - 2018.09: Dongguan University of Technology, Department of Energy and Power Engineering, Head of Department / Master's Supervisor
l2014.05 - 2016.08: Dongguan University of Technology, Energy and Power Engineering Program, Program Leader / Associate Professor
l2013.10 - 2014.01: Zhejiang University, Institute of Refrigeration and Cryogenics, Visiting Scholar
l2013.04 - 2015.12: Dongguan University of Technology, School of Chemical Engineering and Energy Technology, Lecturer
l2009.09 - 2013.04: University of Nottingham, UK, Mechanical Engineering, Ph.D.
l2005.09 - 2009.07: University of Nottingham, UK, Mechanical Engineering, B.Eng.
Ⅲ、Research Interests
Mainly engaged in research and talent cultivation in the field of Power Engineering and Engineering Thermophysics, with a focus on multi-energy complementary distributed energy systems, low-grade waste heat recovery and thermoacoustic conversion, fluid flow and heat transfer applications, as well as industrial energy conservation and system optimization. The research is supported by platforms including the Guangdong Provincial Key Laboratory of Distributed Energy Systems and the Guangdong Provincial Engineering Research Center for Distributed Energy Systems. Over 10 national and provincial research projects have been completed, such as sub-projects of Key Programs of the National Natural Science Foundation of China (NSFC), NSFC General Programs, and Guangdong Natural Science Foundation General Programs. More than 40 SCI-indexed papers have been published, 20 Chinese invention patents have been granted, and multiple research outcomes have been successfully commercialized. Currently serving as a committee member of the Energy and Power Engineering Specialty Committee under the China Machinery Industry Education Association and as an editorial board member for journals including the International Journal of Heat and Mass Transfer.
Ⅳ、Representative research achievements:
(Ⅰ)Representative papers/books
1.Chen B, Ho K , Xiao H , et al. The effects of swirling decaying flow towards pipe entry length and heat transfer in an annular pipe [J]. International Journal of Heat and Mass Transfer, 2018, 123:668-677.
2.Chen B, Ho K , Abakr Y A , et al. Fluid dynamics and heat transfer investigations of swirling decaying flow in an annular pipe Part 1: Review, problem description, verification and validation [J]. International Journal of Heat and Mass Transfer, 2015:S0017931015008479.
3.Chen B, Ho K , Abakr Y A , et al. Fluid dynamics and heat transfer investigations of swirling decaying flow in an annular pipe Part 2: Fluid flow[J]. International Journal of Heat & Mass Transfer, 2016, 97:1012-1028.
4.J.J. Feng, C.P. Teh, K.C. Ng, J.C. Jen-Haw, D. Xiao, Y.A. Abakr, A. Chan, B. Chen, Heat transfer and fluid flow analysis in circular tubes with multi-delta-winglets vortex generators, Int. Commun. Heat Mass Transfer 159 (2024) 108267.
5.Z.-Y. Lim, J. Tu, Y. Xu, B. Chen, Ni@ZrO2 yolk-shell catalyst for CO2 methane reforming: Effect of Ni@SiO2 size as the hard-template, Journal of Colloid and Interface Science 590 (2021) 641–651.
6.C.J.-H. Jansen, Y.A. Abakar, B. Chen, Local mechanisms prior to flow boiling of a subcooled liquid in rectangular micro-channel heat sinks, International Communications in Heat and Mass Transfer 160 (2025).
7.D. Xiao, C.J.-H. Jansen, Y.A. Abakr, C.P. Teh, B. Chen, Computational analysis of delta-winglet vortex generators for enhanced thermal-hydraulic performance in plate-fin heat sinks under turbulent flow, International Communications in Heat and Mass Transfer 169 (2025) 109777.
8.J.J. Feng, K.C. Ng, Y.A. Abakr, A. Chan, B. Chen, Experimental and numerical investigation on heat transfer and fluid flow in annular tubes with delta winglets, Applied Thermal Engineering 278 (2025). …
(Ⅱ)Scientific research project
1.Ministry of Science and Technology "Small Yet Effective" Project (KY202401006), Building a Science and Technology Collaboration Network for Latin American Countries, 1.5 million RMB, Ongoing, Principal Investigator.
2.National Natural Science Foundation of China (NSFC) Project, Mechanism Study on a Two-stage Efficient Traveling-Wave Thermoacoustic Engine Driven by Medium-Temperature Heat (5140060061), 260,000RMB, Concluded, Principal Investigator.
3.Guangdong Natural Science Foundation Project, Mechanism of Asymmetric Multi-stage Loop Thermoacoustic Heat Engine Driven by Low-Grade Waste Heat (2019A1515010460), 100,000 RMB, Concluded, Principal Investigator.
4.Guangdong Provincial Department of Science and Technology Project, Cinnamon Planting Technology Demonstration and Promotion (KTP20210418), 300,000 RMB, Concluded, Principal Investigator.
5.Guangdong Provincial Department of Education Project, Mechanism Study on Multi-stage Loop Thermoacoustic Heat Engine for Efficient Utilization of Low-Grade Heat (2016KTSCX138), 200,000RMB, Concluded, Principal Investigator.
6.Dongguan University of Technology Project, Cultivation Team for Achievements in Intelligent Energy-Saving Central Air Conditioning System and Its Control Method, 300,000 RMB, Concluded, Principal Investigator.
7.Dongguan University of Technology Project, Energy-Saving Service Team for Waste Heat Recovery and Reuse in Dongran Thermal Energy (2018010), 250,000 RMB, Concluded, Principal Investigator.
8.Guangdong Gaoxin Information Co., Ltd. Project, Technology Transfer: "An Adaptive Wind-Driven Outdoor All-Surrounding Information Display Device", 1.5 million RMB, Concluded, Principal Investigator.
9.National Natural Science Foundation of China (NSFC) Project, Experimental Verification of the Complementary Mechanism of Solar and Fossil Energy (Sub-project of a National Key Program), 800,000 RMB, Concluded, Participant.
(Ⅲ)Patents
1.Chen Baiman. Methods, apparatuses, and control systems for adaptive wind-driven outdoor all-surrounding information display. United States Invention Patent, Grant No.: US9741272B1.
2.Chen Baiman. Cooling Tower Driven by Combination of Vertical Axis Wind Rotor and Motor and Its Control Method. Chinese Invention Patent, Grant No.: ZL201510720908.4.
3.Chen Baiman, Xu Ruchang, Xiao Hanmin, Jiang Runhua, Huang Simin, Yang Xiaoping, Wang Wenhao. A Biomass Stove Capable of Driving an External Heat Engine. Chinese Invention Patent, Grant No.: ZL201510448796.1.
4.Chen Baiman, Jiao Fan, Xu Ruchang. An Adjustable Traveling-Wave Thermoacoustic Heat Engine System Utilizing Medium-Temperature Heat Source. Chinese Invention Patent, Grant No.: ZL201510584522.5.…
Ⅴ、Awards and honorary titles:
1.China Industry-University-Research Institute Collaboration Innovation Award, 2021.
2.Innovation Dongguan Science and Technology Progress Award, 2021.
3.Outstanding Dongguan Science and Technology Worker, 2020.
4.Guangdong Province Southern Guangdong Outstanding Teacher, 2018.
5.Dongguan Special Talent, 2018.
6.Dongguan University of Technology Outstanding Teacher, 2018.
7.Dongguan University of Technology Outstanding Achievement Award (for Significant Academic Papers), 2016.
