所属学院：

材料与能源学院

导师类别：

博士生导师、硕士生导师

科研方向：

相变机理及储能技术、相变材料的制备及性质、传热强化技术

联系方式：

mosp@gdut.edu.cn

招生学院：

材料与能源学院

个人简述

中国科学技术大学博士，广东工业大学教授，博导，国家公派Texas A&M University访问学者，主持国家自然科学基金项目3项，广东省科技计划、广东省教育部产学研结合项目、广州市科技计划产学研协同创新重大专项、企业合作等多个项目研究工作；在国内外知名期刊上发表90多篇，授权国家专利20多项，出版著作1部；获广东省科技进步二等奖等奖励。

学科领域

科学学位：动力工程及工程热物理

专业学位：动力工程

教育背景

2009年6月 中国科学技术大学工程热物理专业 获博士学位

2004年7月 中国科学技术大学热能与动力工程专业 获学士学位

工作经历

2009年7月至今  广东工业大学  历任讲师、副教授、教授

2016年7月至2017年7月 Texas A&M University 访问学者

学术兼职

担任国家自然科学基金通讯评审专家、广东省科技厅评审专家等工作

主要荣誉

2021年    获广东工业大学本科毕业论文创新奖(指导老师)

2021年    获广东工业大学材料与能源学院青年教学竞赛二等奖

2020年    获研究生国家奖学金(指导老师)

2020年    获广东工业大学本科毕业论文创新奖(指导老师)

2018年  获广东省科技进步奖二等奖

2017-2018学年  获广东工业大学教学优秀二等奖

2017年  获广东工业大学先进科技工作者荣誉称号

2015-2016学年  获广东工业大学优秀班主任荣誉称号

2015年  获广东工业大学先进科技工作者荣誉称号

2014年  入选广东工业大学年优秀青年教师培养对象

2013年  获第六届全国大学生节能减排社会实践与科技竞赛初赛三等奖(指导老师)

2012-2013学年  获广东工业大学优秀教师荣誉称号

2012年  入选广东省高等学校“千百十”工程校级培养对象

2011-2012学年  获广东工业大学教学优秀二等奖

2011年  获广东工业大学先进科技工作者荣誉称号

2010-2011学年  获广东工业大学优秀班主任荣誉称号

主要论文

[1]Qing Li, Songping Mo*, Yuxuan Lin, Lisi Jia, Zhi Yang, Yanping Du, Ying Chen. Enhancing thermal properties and moisture resistance of eutectic molten salts via nanoencapsulation for medium-temperature thermal energy storage. Journal of Energy Storage, 2026, 143: 119634

[2]Qing Li, Yufen Chen, Songping Mo*, Yuxuan Lin, Lisi Jia, Yanping Du, Ying Chen. Oil-based phase change emulsions with reduced viscosity for thermal energy storage. Journal of Energy Storage, 2026, 141: 119124

[3]Jiaxuan Li, Songping Mo*, Zicong Zhou, Yanping Du, Lisi Jia, Ying Chen. Nanoparticle-Enhanced Phase Change Materials for Thermal Energy Storage: A Critical Review. Renewable & Sustainable Energy Reviews, 2025, 223: 116040

[4]Songping Mo, Wenke Cheng, Junhao Chen, Yuxuan Lin, Zicai Pan, Zhi Yang, Lisi Jia, Yanping Du, Ying Chen*. Phase change nanoemulsions developed by a modified phase inversion temperature method for low-temperature thermal energy storage. International Journal of Refrigeration, 2025, 178: 9-22

[5]Shihao Wu, Zhi Yang*, Zhiqiang Yang, Ying Chen, Songping Mo*, Xianglong Luo, Jianyong Chen, Yingzong Liang. Development of a new parameterization strategy and GC parameters of halogenated hydrocarbons for PC-SAFT equation of state. Fluid Phase Equilibria, 2025, 589: 114280

[6]Yuxin Yu, Yufen Chen, Songping Mo*, Junhao Chen, Lisi Jia, Yanping Du, Ying Chen. A review on the preparation, dispersion stability, phase change cycling stability and performance enhancement of phase change microemulsions. Solar Energy Materials and Solar Cells, 2025, 282: 113426

[7]Kai Fu, Songping Mo*, Zicong Zhou, Qing Li, Jiaxuan Li, Lisi Jia,Yanping Du, Ying Chen. Enhancement of thermal characteristics of a novel stearic acid-adipic acid eutectic phase change material integrated with expanded graphite for thermal energy storage applications. Journal of Energy Storage, 2025, 121: 116536

[8]Kai Fu, Songping Mo*, Qing Li, Zicong Zhou, Lisi Jia,Yanping Du, Ying Chen. Preparation and thermal performance of a novel 1,10-Decanediol-paraffin/expanded graphite composite phase change material for solar thermal utilization. Solar Energy Materials and Solar Cells, 2025, 289: 113684       

[9]Songping Mo, Jiaxuan Li, Yuxuan Lin, Zhi Yang, Zhibin Wang, Lisi Jia, Yanping Du, Ying Chen*. Nanoencapsulation and performance of water-insoluble sebacic acid as a phase change material for medium-temperature thermal energy storage. Applied Thermal Engineering, 2025, 277: 126975

[10]Songping Mo, Junhao Chen, Yuxin Yu, Yufen Chen, Lisi Jia, Ying Chen*. Development and thermal characteristics of phase change material nanoemulsions for low-temperature thermal energy storage. International Journal of Refrigeration, 2024, 161: 113–123

[11]Songping Mo, Bo Xiao, Jiaxuan Li, Lisi Jia, Ying Chen*. LiNO₃/NaCl nanocapsules with high thermal properties for medium-temperature thermal energy storage. Journal of Energy Storage, 2024, 83: 110672

[12]Yufen Chen, Songping Mo*, Junhao Chen, Yuxin Yu, Lisi Jia, Ying Chen. A novel lauric acid in silicone oil phase change emulsion with enhanced thermal properties and stability prepared by emulsion inversion point method. Solar Energy Materials and Solar Cells, 2024, 271: 112855

[13]Jiaxuan Li, Songping Mo*, Bo Xiao, Qing Li, Lisi Jia, Ying Chen. A novel microencapsulated medium-temperature phase change material employing dicarboxylic acid for thermal energy storage. Applied Thermal Engineering, 2024 255: 123970

[14]Yuxin Yu, Songping Mo*, Yufen Chen, Junhao Chen, Lisi Jia, Yanping Du, Ying Chen. Comprehensive enhanced performance of stearic acid nanoemulsions with nanoparticles addition for thermal energy storage. Solar Energy Materials and Solar Cells, 2024, 276: 113079

[15]Zicong Zhou, Songping Mo*, Qing Li, Kai Fu, Lisi Jia, Ying Chen. Innovative dodecane-hexadecane/expanded graphite composite phase change material for sub-zero cold storage applications. International Journal of Refrigeration, 2024, 166: 98–107

[16]Songping Mo, Bo Xiao, Bingzhong Mo, Junhao Chen, Lisi Jia, Zhibin Wang, Ying Chen*. Improving the Thermal and Photothermal Performances of MXene-Doped Microencapsulated Molten Salts for Medium-Temperature Solar Thermal Energy Storage. Energy & Fuels (Cover Paper), 2023, 37, 7490−7500

[17]Yuanjing Mao, Zhi Yang*, Hao Guo, Ying Chen, Songping Mo*, Xianglong Luo, Jianyong Chen, Yingzong Liang. The Thermodynamic Properties of Non‑Associating and Associating Fluids: A Systematic Evaluation of SAFT‑Type Equations of State. International Journal of Thermophysics, 2023, 44: 32

[18]Songping Mo, Guangping Zhang, Yuanhong Li, Junhao Chen, Lisi Jia, Zhibin Wang, Ying Chen. Copper-coated phase change nanocapsules with improved thermal properties synthesized by a green method. Materials Science and Engineering B-Advanced Functional Solid-State Materials, 2023, 296: 116659

[19]Yuanhong Li, Songping Mo*, Guangping Zhang, Junhao Chen, Bo Xiao, Lisi Jia, Ying Chen. Enhanced thermal conductivity and photothermal conversion efficiency of MXene-doped sugar alcohol nanocapsules for medium-temperature solar utilization. Sustainable Energy & Fuels, 2023, 7, 3981-3992

[20]Songping Mo, Shaofei Shan, Lijuan He, Lisi Jia, Ying Chen. Nanoencapsulation of binary sugar alcohols at neutral pH conditions. Journal of Cluster Science, 2023, 34(1): 547-556

[21]Songping Mo, Jiarong Ye, Lisi Jia, Ying Chen. Properties and performance of hybrid suspensions of MPCM/nanoparticles for LED thermal management. Energy, 2022, 239, 122650

[22]Jiarong Ye, Songping Mo^*, Lisi Jia, Ying Chen. Experimental study on the performance of an LED thermal management system with microencapsulated phase change material suspension. Applied Thermal Engineering. 2022, 207: 118155

[23]Bingzhong Mo, Songping Mo^*, Lisi Jia, Zhibin Wang, Ying Chen. Microencapsulation of ethanol-soluble inorganic salts for high temperature thermal energy storage. Materials Chemistry and Physics, 2022, 275: 125261

[24]Jiarong Ye, Xiaohui Lin, Songping Mo^*, Lisi Jia, Ying Chen, Zhengdong Cheng. Orthogonal study and analysis of variance on a thermal management system for high-power LED package. Microelectronics Journal, 2021, 108: 104969

[25]Songping Mo, Bingzhong Mo, Fan Wu, Lisi Jia, Ying Chen. Preparation and thermal performance of ternary carbonates/silica nanocomposites as phase change materials, Journal of Sol-Gel Science and Technology, 2021, 99: 220–229

[26]Songping Mo, Yuanhong Li, Shaofei Shan, Lisi Jia, Ying Chen. Synthesis and properties of inositol nanocapsules. Materials, 2021, 14: 5481

[27]Lijuan He, Songping Mo^*, Pengcheng Lin, Lisi Jia, Ying Chen, Zhengdong Cheng. D-mannitol@silica/graphene oxide nanoencapsulated phase change material with high phase change properties and thermal reliability. Applied Energy, 2020, 268: 115020

[28]Lijuan He, Songping Mo^*, Pengcheng Lin, Lisi Jia, Ying Chen, Zhengdong Cheng. Synthesis and properties of nanoencapsulated D-mannitol for medium temperature thermal energy storage. Solar Energy Materials and Solar Cells. 2020, 209: 110473

[29]Xiaohui Lin, Songping Mo^*, Bingzhong Mo, Lisi Jia, Ying Chen, Zhengdong Cheng. Thermal management of high-power LED based on thermoelectric cooler and nanofluid-cooled microchannel heat sink. Applied Thermal Engineering. 2020, 172: 115165

[30]Songping Mo, Lijuan He, Lisi Jia, Ying Chen, Zhengdong Cheng. Thermophysical properties of a novel microencapsulated phase change material, International Journal of Thermophysics. 2020, 41: 68

[31]Yang Zhi, Zhong Weilin, Chen Ying, Wang Chao, Mo Songping, Zhang Jingtao, Shu Riyang, Song Qingbin. Improving Glycerol Photoreforming Hydrogen Production Over Ag2O-TiO2 Catalysts by Enhanced Colloidal Dispersion Stability. Frontiers in Chemistry, 2020, 8: 342

[32]Xiaohui Lin, Songping Mo^*, Lisi Jia, Zhi Yang, Ying Chen^*, Zhengdong Cheng. Experimental study and Taguchi Analysis on LED Cooling by Thermoelectric Cooler Integrated with Microchannel Heat Sink. Applied Energy, 2019, 242: 232–238

[33]Songping Mo, Ting Pan, Fan Wu, Minxiang Zeng, Dali Huang, Lecheng Zhang, Lisi Jia, Ying Chen, Zhengdong Cheng. Facile one-step microwave-assisted modification of kaolinite and performance evaluation of pickering emulsion stabilization for oil recovery application. Journal of Environmental Management, 2019, 238: 257–262

[34]Jia Lisi, Li Yi'ang, Chen Ying, Wang Jiacheng, Mo Songping, Li Jun, Liu Gang. New hybrid suspension of MEPCM/GO particles with enhanced dispersion stability and thermo-physical properties. Applied Energy, 2019, 255: 113827

[35]Jun Li, Lisi Jia, Ying Chen, Longjian Li, Songping Mo, Jiacheng Wang,Chao Wang. Microfluidic fabrication and thermal properties of microencapsulated n-heptadecane with hexanediol diacrylate shell for thermal energy storage. Applied Thermal Engineering, 2019, 162: 114278

[36]Xiao Yuan, Songping Mo^*, Ying Chen, Lisi Jia, Tao Yin, Zhi Yang, Zhengdong Cheng. Improving the supercooling degree of TiO₂ suspensions by coupling with zirconium phosphate nanoplatelets. Journal of Heat Transfer, 2018, 140: 072403

[37]Xiao Yuan, Songping Mo^*, Ying Chen, Lin Zheng, Lisi Jia, Tao Yin, Zhi Yang, Zhengdong Cheng. Effect of Nanoplatelet Size on the Colloidal Stability of Coupled Nanocomposite of TiO₂ and Zirconium Phosphate. Materials Science, 2018, 24(2): 135-142

[38]Wei Cui, Lisi Jia, Ying Chen, Yi’ang Li, Jun Li and Songping Mo. Supercooling of Water Controlled by Nanoparticles and Ultrasound. Nanoscale Research Letters, 2018, 13:145-155

[39]Songping Mo, Kangda Zhu, Tao Yin, Ying Chen, Zhengdong Cheng. Phase change characteristics of ethylene glycol solution-based nanofluids for subzero thermal energy storage. International Journal of Energy Research, 2017, 41: 81-91

[40]Xue-Feng Shao, Song-Ping Mo^*, Ying Chen, Tao Yin, Zhi Yang, Li-Si Jia, Zheng-Dong Cheng. Solidification Behavior of Hybrid TiO₂ Nanofluids Containing Nanotubes and Nanoplatelets for Cold Thermal Energy Storage. Applied Thermal Engineering, 2017, 117: 427-436

[41]Songping Mo, Zhuowei Liu, Xiao Yuan, Ying Chen, Lisi Jia, Zhi Yang, Tao Yin, Zhengdong Cheng. Synthesis and comparative study on dispersion stability of binary suspensions of mixed and composite nanoparticles. Nanoscience and Nanotechnology Letters, 2017, 9(10): 1505-1513

[42]Xuefeng Shao, Songping Mo^*, Ting Pan, Ying Chen, Lisi Jia, Zhi Yang, Tao Yin, Zhengdong Cheng. Improved Dispersion Stability of Water-Based TiO₂ Nanofluids through Combined Effects of Nanoparticle Mixing and Dispersant Addition. Nanoscience and nanotechnology letters, 2017, 9(10): 1497-1504

[43]Songping Mo, Xuefeng Shao, Ying Chen, Zhengdong Cheng. Increasing entropy for colloidal stabilization. Scientific Reports, 2016, 6: 36836

[44]Jia Lisi, Chen Ying, Lei Shijun, Mo Songping, Luo Xianglong, Shao Xuefeng. External electromagnetic field-aided freezing of CMC-modified graphene/water nanofluid. Applied Energy, 2016, 162: 1670-1677

[45]Songping Mo, Ying Chen, Zhengdong Cheng, Lisi Jia, Xianglong Luo, Xuefeng Shao, Xiao Yuan, Gang Lin. Effects of nanoparticles and sample containers on crystallization supercooling degree of nanofluids. Thermochimica Acta, 2015, 605: 1–7

[46]Songping Mo, Ying Chen, Xueqing Chen, Zhen Yang. Effect of geometric parameters of liquid-gas separator units on phase separation performance. Korean Journal of Chemical Engineering, 2015, 32(7): 1243-1248

[47]Liu Zhuowei, Chen Ying, Mo Songping, Cheng Zhengdong, Li Huawei. Stability of TiO2 Nanoparticles in Deionized Water with ZrP Nanoplatelets. Journal of Nanoscience and Nanotechnology, 2015, 15(4): 3271-3275

[48]Chen Ying, Deng Lisheng, Mo Songping, Luo Xianglong. Energy and Exergy Analysis on a Parallel-Flow Condenser With Liquid-Vapor Separators in an R22 Residential Air-Conditioning System. Heat Transfer Engineering, 2015, 36(1): 102-112

[49]Songping Mo, Xueqing Chen, Ying Chen, Zhen Yang. Passive control of gas-liquid flow in a separator unit using an apertured baffle in a parallel-flow condenser. Experimental Thermal and Fluid Science, 2014, 53: 127–135

[50]Xing Li, Ying Chen, Zhengdong Cheng, Lisi Jia, Songping Mo, Zhuowei Liu. Ultrahigh specific surface area of graphene for eliminating subcooling of water. Applied Energy, 2014, 130: 824-829

[51]Jia Lisi, Peng Lan, Chen Ying, Mo Songping, Li Xing. Improving the supercooling degree of titanium dioxide nanofluids with sodium dodecylsulfate. Applied Energy, 2014, 124: 248-255

[52]Zhong Tianming, Chen, Ying, Hua Nan, Zheng Wenxian, Luo Xianglong, Mo Songping. In-tube performance evaluation of an air-cooled condenser with liquid-vapor separator. Applied Energy, 2014, 136: 968-978

[53]Zhong T. M., Chen Y., Zheng W. X., Hua N., Luo X. L., Yang Q. C., Mo S. P., Jia L. S. Experimental investigation on microchannel condensers with and without liquid-vapor separation headers. Applied Thermal Engineering, 2014, 73(2): 1510-1518

[54]Li Xing, Chen Ying, Mo Songping, Jia Lisi, Shao Xuefeng. Effect of surface modification on the stability and thermal conductivity of water-based SiO₂-coated graphene nanofluid. Thermochimica Acta, 2014, 595: 6-10

[55]Songping Mo, Ying Chen, Lisi Jia, Xianglong Luo. Reduction of supercooling of water by TiO₂ nanoparticles as observed using differential scanning calorimeter. Journal of Experimental Nanoscience, 2013, 8(4): 533-539

[56]Jia Lisi, Chen Ying, Mo Songping. Solid-liquid phase transition of nanofluids. International Journal of Heat and Mass Transfer. 2013, 59(1): 29-34

[57]Songping Mo, Ying Chen, Lisi Jia, Xianglong Luo. Investigation on crystallization of TiO₂-water nanofluids and deionized water. Applied Energy, 2012, 93: 65-70

[58]Songping Mo, Ying Chen, Xing Li, Lisi Jia. Solidification Characteristics of Titania nanofluids. Journal of Thermophysics and Heat Transfer, 2012, 26(1): 192-196

[59]Xueqing Chen, Ying Chen, Lisheng Deng, Songping Mo, Haiyan Zhang. Experimental verification of a condenser with liquid–vapor separation in an air conditioning system. Applied Thermal Engineering. 2012, 51: 48-54

[60]Shouli Jiang, Peng Hu, Songping Mo, Zeshao Chen. Optical modeling for a two-stage parabolic trough concentrating photovoltaic/thermal system using spectral beam splitting technology. Solar Energy Materials and Solar Cells, 2010, 94(10): 1686-1696

[61]Zeshao CHEN, Songping MO, Peng HU, Shouli JIANG, Gang WANG, Xiaofang CHENG. Entropy flow, entropy generation, exergy flux, and optimal absorbing temperature in radiative transfer between parallel plates. Front. Energy Power Eng. China, 2010, 4(3): 301–305

知识产权

[1]莫松平，莫丙忠，王智彬，贾莉斯，陈颖。一种适用于水溶性无机盐的相变复合材料及其制备方法。专利号: 202110794483.7

[2]叶嘉荣，莫松平^*，林潇晖，程东波，王智彬，陈颖。一种微通道换热器结合热管的散热装置。专利号: 202010420564.6

[3]程东波，莫松平^*，叶嘉荣，陈铭彦，莫崇茂，陈颖，贾莉斯。一种动力电池组散热管理系统。专利号: 202010724106.1

[4]陈俊豪，莫松平^*，程东波，叶嘉荣，陈铭彦，林潇晖，陈颖。一种液冷结合强制性风冷的电池冷却箱。专利号: 202010669470.2

[5]魏胜侠，莫松平^*。自动控温选择性储冷的自循环冷却系统。专利号: 201610171445.5

[6]魏胜侠，莫松平^*，魏胜佳，黄漫芳。一种容积泵及其传输方法。专利号: 201610165237.4

[7]陈颖，莫松平，罗向龙，华楠。一种太阳能热泵系统及其装置。专利号：201010274118.5

[8]杨智，吴世浩，莫松平，陈颖，高新强。一种磁制冷与电卡制冷耦合的制冷装置及制冷循环系统。专利号: 2023106795694

[9]陈颖，罗向龙，莫松平，陈雪清。一种带汽液分离布膜功能的降膜蒸发器。专利号：201010274132.5

[10]陈颖，罗向龙，莫松平，何凯龙。一种铜基换热表面及其制作方法。专利号：201010274122.1

[11]陈颖，乐文璞，莫松平，郑文贤。分液芯及带有分液芯的多级冷却换热器。专利号201210585989.8

[12]陈颖，王慧昌，贾莉斯，莫松平，钟凯，李俊，覃光军。一种利用不同壳层材料降低烷烃类相变微胶囊过冷度的方法及其制成的微胶囊和应用。专利号：202111012323.9

[13]贾莉斯，钟凯，陈颖，莫松平，王慧昌，李俊，覃光军。一种可控过冷度相变微胶囊及其制备方法和应用。专利号: 202110955960.3

[14]陈颖，王慧昌，贾莉斯，莫松平，沈俊峰，马妍琦，钟凯。一种多粒径混合降低烷烃类相变微胶囊过冷度的方法及制成的相变微胶囊和应用. 专利号：202111677306.7

[15]贾莉斯，常包虎，陈颖，莫松平，王慧昌，钟凯，邓卓夫，黄耀凯。一种利用温度变化速率调控烷烃类相变微胶囊悬浮液粘度的方法。专利号: 202310555320.2

[16]陈颖，雷世骏，贾莉斯，莫松平。用于纳米流体定向凝固的实验装置及方法。专利号：201410834023.2

[17]陈颖，杨庆成，罗向龙，莫松平，许俊俊，钟天明。一种具有气液分离功能的板式冷凝器。专利号: 201510970125.1

[18]罗向龙，陈颖，许俊俊，莫松平。有机朗肯循环中换热器性能测试系统。专利号: 201410836016.6

[19]王智彬，王奕淋，贾莉斯，莫松平，陈颖。一种模块化多蒸汽腔散热装置。专利号: 202310521835.0

[20]刘小伟，王智彬，陈展珠，陈颖，莫松平。一种不对称叶脉型翅片微通道冷凝器及多蒸发器环路热管。专利号: 202211475270.9

[21]贾莉斯，钟凯，陈颖，张艳婵，莫松平，王慧昌，沈俊峰。一种消除石蜡相变微胶囊过冷度且相变焓无损失的方法和制成的相变微胶囊及其应用，专利号：202210429979.9

[22]莫松平，陈颖。新能源技术现状与应用前景。广东经济出版社，2015年

科研项目

[1]国家自然科学基金面上项目，受应变能作用的高粘度相变材料成核机制，主持。

[2]国家自然科学基金面上项目，异形同种粒子间排空作用下的混合纳米流体分散稳定性及热物性，主持。

[3]国家自然科学基金项目，水基纳米流体凝固成核中的表面机理，主持。

[4]广东省自然科学基金项目，纳米颗粒调控相变材料潜热的机理研究，主持。

[5]广东省科技计划项目，高性能水基纳米流体相变储能工质开发，主持。

[6]广州市科技计划产学研协同创新重大专项，基于高性能热电制冷及纳米流体微通道的高密度超大功率LED散热技术的开发，主持(与企业合作)。

[7]广东省教育部产学研结合项目，大型公共建筑用集中式太阳能喷射式制冷与蒸汽压缩热泵复合技术的研发与应用，主持(与企业合作)。

[8]佛山市产学研专项资金项目，太阳能热泵联供机组的研发，主持(与企业合作)。

[9]珠海市科技工贸和信息化局合作项目，珠海市节能项目委托评审，主持。

[10]珠海市科技工贸和信息化局合作项目，珠海市重点耗能工业企业能源审计和“十二五规划”委托评审，主持。

[11]国家自然科学基金面上项目，磁场驱动的双核水基纳米流体的自组装凝固，参与。

[12]国家科技支撑计划项目，地热资源综合梯级利用集成技术研究，参与。

[13]国家自然科学基金广东联合基金重点项目，分液式冷凝器的关键基础与技术基础原理探讨，参与。

[14]国家自然科学基金面上项目，水基纳米流体固液相变过程的机理及传热特性的研究，参与。

[15]国家自然科学基金面上项目(合作)，短管内凝结传热形态与热力学非平衡性效应，参与。

[16]广东省科技计划项目，分布式甲醇重整PEMFC冷热电联供系统关键技术研究，参与。

[17]广东省科技计划粤港联合创新领域项目，第三代半导体封装整体散热关键技术的研发，参与。

[18]广东省教育部产学研合作专项，高温热泵换热器表面化学复合镀Ni-P-PTFE的防垢研究，参与。

[19]东莞市科技计划项目，高效高热流密度散热关键技术研究及产业化，参与。

[20]佛山市科技计划项目，跨温区高能效空气源热泵冷暖机组的研发和产业化，参与。