林文野

作者: 时间:2025-04-23 点击数:


 


研究方向建筑节能、相变蓄能、可再生能源系统

办公邮箱:linwy@ms.giec.ac.cn

个人简介

林文野,中国科学院广州能源研究所研究员、博导,入选中国科学院率先行动引才计划青年项目、广东ZJ人才计划引进青年拔尖人才、教育部国家级人才工程项目。2018年博士毕业于澳大利亚伍伦贡大学,2021-2023年在德国弗劳恩霍夫太阳能系统研究所做“洪堡学者”。林文野长期聚焦建筑节能领域展开研究工作,在可再生能源、可持续技术的建筑的一体化应用及优化,尤其是太阳能光伏/光热技术、相变蓄能技术、暖通空调系统等方面取得了一系列成果,获得2019年和2024年澳大利亚制冷、空调和暖通工程师协会“杰出暖空空调及制冷研究奖”,2020/2021世界可持续能源技术协会“创新奖”等。近年来在能源、建筑环境和可持续技术类学术期刊发表期刊论文50余篇,目前Google Scholar被引1721次,H-index22

代表性科研平台

代表性科研项目

1. 中国科学院-“一带一路”国际科学组织联盟(CAS-ANSO)联合资助研究计划项目,基于“能源总线”和新能源微电网耦合的净零能耗建筑区域新型热电综合能源微网研发(CAS-ANSO-CFPR-2024-02),2025/04-至今,30万元,主持;

2. 国家自然科学基金-企业创新发展联合基金,中低温热化学卡诺电池新材料能质传输强化及其能量高效储存机制(No.:U24B20104)2025/01-至今,258万元,参与;

3. 国家重点研发计划-战略性科技创新合作项目,液态空气储能系统安全高效蓄冷与综合能效提升技术研究及示范应用(No.:2024YFE0208500)2025/01-至今,300万元,参与;

4. 中国科学院国际合作局国际伙伴计划项目,光谱分频太阳能光伏/热系统关键材料研发及耦合优化技术研究(No.:041GJHZ2024027MMI)2025/01-至今,75万元,参与;

5. 中国科学院“国际交流计划”国际杰出学者项目,法国里昂国立应用科学学院(INSA LyonFrederic Kuznik教授(No.: 2025PD0085)2025/01-至今,8万元,主持;

6. 中国科学院-“一带一路”国际科学组织联盟访问学者计划-国际伙伴项目,马来西亚双威大学(Sunway UniversityAdarsh Kumar Pandey教授(No.:CAS-ANSO-FP-2024-10)2025/01-至今,2.5万元,主持;

7. 中国科学院-“一带一路”国际科学组织联盟访问学者计划-访问学者项目,伊朗克尔曼沙科技大学(Kermanshah University of TechnologyAmin Shahsavar副教授(No.:CAS-ANSO-FS-2024-23)2025/01-至今,2万元,主持;

8. 盐湖资源绿色高值利用重点实验室开放课题,新型无机水合盐相变浆体优化及灵活冷/热储运特性研究(No.:ISL2024-04)2024/11-至今,20万元,主持;

9. 北京市自然科学基金-怀柔创新联合基金项目,生物质固废基温控蓄热一体化模块构筑及太阳能PVT系统耦合机理研究(No.: L245004)2024/07-至今,100万元,参与;

10. 中国科学院科技服务网络计划(STS-黄埔专项,高效动态冰浆蓄冷空调关键装备研制及工艺-舒适复合场景示范应用(No.:STS-HP202307)2024/06-至今,333万元,主持;

11. 国家自然科学基金青年基金项目,基于光伏阵列热电偶和动态特性的多重故障智慧诊断及运行优化研究(No.: 52306288)2024/01-至今,30万元,主持;

12. 中国科学院引才计划青年项目(Bairen计划(B)”,基于潜热输送的低碳建筑区域智慧热电综合能源微网)(No.:E329020401)2023/02至今 600万元,主持;

13. 中国科学院“国际交流计划”国际访问学者项目,澳大利亚伍伦贡大学Georgios Kokogiannakis副教授(No.:2024VEB0006)2024/019.8万元,主持。

代表性科研成果

1. 第二节能源电子产业创新大赛新型储能产品赛道(既第三届先进储能技术创新挑战赛),2024,工信部,创新创业类,一等奖;

2. HVAC system capable of improving energy efficiency by coupling a dehumidification heat pump and an air to water heat pump to enable peak load shifting and demand side management2021,世界可持续能源技术协会(World Society of Sustainable Energy Technologies),创新奖(Innovation Award),-

3. Desert Rose Solar Decathlon House2019,澳大利亚制冷、空调和暖通工程师协会(Australian Institute of Refrigerationair conditioning and heatingAIRAH),杰出暖空空调及制冷研究奖(Excellence in HVAC&R Research Award),-

4. Desert Rose Solar Decathlon House2019,澳大利亚新南威尔士州,绿色星球-建筑环境奖(Green Globe Awards Built Environment Award),-

5. Desert Rose Solar Decathlon House2019,澳大利亚新南威尔士州,区域可持续性奖(Green Globe Awards Regional Sustainability Award),-

6. Desert Rose Solar Decathlon House2019,澳大利亚建筑协会(Australian Institute of Building),新南威尔士专业杰出建筑奖(New South Wales Professional Excellence in Building Awards),-

7. Desert Rose Solar Decathlon House2018,国际太阳能十项全能竞赛(中东)(Solar Decathlon Middle East 2018),亚军,-

代表性论文:

1. 张德斌,林文野*,何梓轩,岳心如,宋文吉,冯自平,2025,‘计及广义储能的建筑产消者社区综合能源系统日前调度优化’[J],综合智慧能源(出版中)(中文核心)

2. Kalidasan B.*, Pandey A.K.*, Chinnasamy S., Gu X.B., Lin W.Y. and Tyagi V.V., 2024 Long-term thermal behaviour of silver and graphene nanoparticle-enhanced phase change materials under accelerated thermal stress[J], Journal of Energy Storage, vol. 103, Part B, 114366.

3. Chen M.B., Song W.J.*, Lin W.Y. and Feng Z.P. 2024, Ice nucleation in supercooled water under shear[J], Chemical Engineering Science, vol. 300, 120674. (SCI)

4. Wang J.H., Lin W.Y., Lv J.*, Chen M.B., Song W.J. and Feng Z.P. 2024, Heat generation rate estimation of lithium-ion batteries for electric vehicles by BP-based optimized neural network[J], Applied Thermal Engineering, vol. 253, pp. 123752. (SCI)

5. Liu J.J., Lin W.Y., Hai F.I. and Ma Z.J.* 2024, A hybrid solar-driven membrane distillation-assisted liquid desiccant air conditioning system: Mathematical modelling and feasibility analysis[J], Energy Conversion and Management, vol. 314, pp. 118686. (SCI)

6. Li S.T., Gong X.M., Lin W.Y., Sun Y.J. and Ma Z.J. 2024, Review of transpired solar collectors: Heat and mass transfer mechanisms and enhancement, system integration, and performance assessment and optimisation [J], Journal of Cleaner Production, vol. 450, pp. 141967. (SCI)

7. Lin W.Y., Gschwander S.*, Song W.J., Feng Z.P. and Farid M.M. 2024, Preparation, characterisation and property modification of a calcium chloride hexahydrate phase change material slurry with additives for thermal energy transportation[J], International Journal of Refrigeration, vol. 16., pp.312-328. (SCI)

8. Ushak S., Song W.J., Marin P.E., Milian Y., Zhao D., Grageda M., Lin W.Y., Chen M.B. and Han Y. 2024, A review on phase change materials employed in Li-ion batteries for thermal management systems [J], Applied Materials Today, vol. 37, pp.102021. (SCI)

9. 黎福超,陈明彪,杜群,陈永珍,宋文吉,林文野,冯自平2024,‘基于流态冰浆蓄冷的深远海风电就地消纳’,储能科学与技术,12(12)3730-3739。(中文核心)

10. 王敬翰,吕杰,赵丁,林文野,宋文吉,冯自平2024,‘基于BP神经网络的电动汽车动力电池产热估计’[J],化工进展,43(1)400-406。(EI,中文核心)

11. Chen M.B., Qun D., Yu T., Song W.J.*, Lin W.Y. , Feng Z.P. 2024, Heating performance and optimization of ice source heat pump system with supercooled water [J], Applied Thermal Engineering, vol. 239, pp. 122082. (SCI)

12. Awan M.B., Sun Y.J., Lin W.Y. and Ma Z.J.* 2023, A framework to formulate and aggregate performance indicators to quantify building energy flexibility[J], Applied Energy, vol. 349, pp. 121590. (SCI)

13. Li S.T., Lin W.Y.*, Gong X.M., Sun Y.J. and Ma Z.J.* 2023, Corrugated transpired solar collectors: Mathematical modeling experimental investigation, and performance analysis[J], Solar Energy, vol. 262, pp. 111839. (SCI)

14. Awan M.B., Ma Z.J.*, Lin W.Y., Pandey A.K. and Tyagi V.V. 2023, A characteristic-oriented strategy for ranking and near-optimal selection of phase change materials for thermal energy storage in building applications[J], Journal of Energy Storage, vol. 57, pp. 106301. (SCI)

15. Liu J.J., Lin W.Y., Ren H.S., Albdoor A.K., Hai F.I. and Ma Z.J.*, 2022, Multi-objective optimization of a direct contact membrane distillation regenerator for liquid desiccant regeneration, Journal of Cleaner Production, vol. 373, pp. 133736.

16. Lin W.Y., Green A.*, Ledo L., Kokogiannakis G., Cooper P. and Adams J. 2023, Thermal effects of dew on cool roofs and conventional roofs in building performance simulations[J], Energy and Buildings, vol. 279, pp. 112645. (SCI)

17. Zhang C., Yang L.W., Lin W.Y.*, Wei J. and Guo F.J. 2022, Performance enhancement and life-cycle cost-saving of supercooled water ice slurry generation systems using heat regeneration[J], Sustainability (accepted). (SCI)

18. Liu J.J., Albdoor A.K., Lin W.Y., Hai F.I. and Ma Z.J.* 2022, Membrane fouling in direct contact membrane distillation for liquid desiccant regeneration: Effects of feed temperature and flow velocity[J], Journal of Membrane Science, vol. 642, paper ID: 119936. (SCI)

19. Hou C., Lin W.Y.*, Wei J., Yang L.W., and Zhang H.F. 2021, Experimental performance evaluation and optimal design of a mechanical vapour recompression system for radioactive wastewater treatment[J], Energy conversion and Management, vol. 252, paper ID: 115087. (SCI)

20. Zhou X.L., Lin W.Y., Kumar R., Cui P. and Ma Z.J.* 2022, A data-driven strategy using long-short term memory models and reinforcement learning to predict building electricity consumption[J], Applied Energy, vol. 306, paper ID: 118078. (SCI)

21. Lin W.Y., Ma Z.J.*, Li K.H. Tyagi V.V. and Pandey A.K. 2021, A dynamic simulation platform for fault modelling and characterisation of Building Integrated Photovoltaics[J], Renewable Energy, vol. 179, pp.963-981. (SCI)

22. Fan X.Y., Gao Z.Z., Ji W.*, Guo L.N., Lin W.Y. and Wang J.J. 2021, Thermodynamic optimisation with muti-objectives and parameters for liquid air energy storage system based on particle swarm optimisation (PSO)[J], Journal of Energy Storage, vol.41, Paper ID 102878. (SCI)

23. Zhou X.L., Lin W.Y., Cui P., Ma Z.J.* and Huang T.S. 2021, An unsupervised data mining strategy for performance evaluation of ground source heat pump systems[J], Sustainable Energy Technologies and Assessments, vol.46, paper ID: 101255. (SCI)

24. Zhang C., Yang L.W., Lin W.Y.*, Wei J., Chen J.X. and Ma Z.J. 2021, Experimental investigation and life-cycle cost analysis of a cold storage enhanced vacuum cooling system using ice slurry, [J] Sustainable Energy Technologies and Assessment, vol.45, Paper ID:101074. (SCI)

25. Lin W.Y., Ma Z.J.*, Sohel M. I. and Wang S.G. 2021, Experimental investigation and two-level model-based optimisation of a solar solar photovoltaic thermal collector coupled with phase change material thermal energy storage[J], Applied Thermal Engineering, vol.182, Paper ID: 116098. (SCI)

26. Ren H.S., He M., Lin W.Y., Yang L.W., Li W.H., Ma Z.J.* 2021, Performance investigation and sensitivity analysis of shell-and-tube phase change material thermal energy storage[J], Journal of Energy Storage, paper ID: 102040. (SCI)

27. Lin W.Y. and Kokogiannakis G.* 2021, Adaptive indoor microclimate optimisation based on occupant thermal preferences for maximal thermal satisfaction and minimal productivity loss in agile open-plan office buildings[J], Energy and Buildings, vol.230, Paper ID: 110536. (SCI)

28. Li K.H., Ma Z.J.*, Robinson D., Lin W.Y. and Li Z.X. 2020, A data-driven strategy to forecast next-day electricity usage and peak electricity demand of a building portfolio using cluster analysis, Cubist regression models and Particle Swarm Optimization[J], Journal of Cleaner Production, vol.273, no.10, Paper ID: 123115. (SCI)

29. Ren H.S., Sun Y.J., Lin W.Y., Wang S.G., Li W.H. and Ma Z.J.* 2020, A review of heat and mass transfer mechanisms of dehumidifiers and regenerators for liquid desiccant cooling systems[J], Science and Technology for the Built Environment, vol.26, no.4, pp.465-483. (SCI)

30. Lin W.Y., Ma Z.J.*, McDowell C., Baghi Y. and Banfield B. 2020, Optimal design of a thermal energy storage system using phase change materials for a net-zero energy Solar Decathlon house[J], Energy and Buildings, vol.208, pp. 109626. (SCI)

31. Ma Z.J.*, Ren H.S.* and Lin W.Y. 2019, A review of HVAC technologies and innovations used in solar-powered net zero energy Solar Decathlon houses[J], Journal of Cleaner Production, vol.240, pp.118158. (SCI)

32. He M.Z., Yang L.W., Lin W.Y.*, Chen J.X., Mao X. and Ma Z.J. 2019, Preparation, thermal characterization and examination of phase change materials (PCMs) enhanced by carbon-based nanoparticles for solar thermal energy storage[J], Journal of Energy Storage¸ vol.25, Paper ID 100874. (SCI)

33. Lin W.Y., Ren H.S. and Ma Z.J.* 2019, Using fuzzy clustering and weighted cumulative probability distribution techniques for optimal design of phase change material thermal energy storage[J], Journal of Cleaner Production, vol.233, pp.1259-1268. (SCI)

34. Ren H.S., Ma Z.J.*, Lin W.Y., Wang S.G. and Li W.H. 2019, Optimal design and size of a desiccant cooling system with onsite energy generation and thermal storage using a multilayer perceptron neural network and a genetic algorithm[J], Energy Conversion and Management, vol.180, pp. 598608. (SCI)

35. Lin W.Y., Ma Z.J.*, Ren H.S., Gschwander S., Wang S.G. 2019, Multi-objective optimisation of thermal energy storage using phase change materials for solar air systems, Renewable Energy [J], vol.130, pp.1116-1129. (SCI)

36. Yuan Y., Lin W.Y., Li W.Z., Yang L.W.*, Wei J. and Xiao B. 2019, Performance analysis of heat pump dryer with unit-room in cold climate regions[J], Energies. vol.12, 3125. (SCI)

37. Wang Z.H.*, Wang F.H., Ma Z.J., Lin W.Y. and Ren H.S. 2018, Investigation on the feasibility and performance of transcritical CO2 heat pump integrated with thermal energy storage for space heating[J], Renewable Energy, vol.134, pp.496-508. (SCI)

38. Lin W.Y., Ren H.S., Ma Z.J.* and Knight M. 2020, Mathematical modelling and experimental investigation of solar air collectors with corrugated absorbers[J], Renewable Energy, vol.145, pp.164-179. (SCI)

39. Ren H.S., Ma Z.J.* and Lin W.Y. 2018. Integrating photovoltaic thermal collectors and thermal energy storage systems using phase change materials with desiccant wheels[J], Sustainable Cities and Society, vol.36, pp.131-143. (SCI)

40. Ren H.S., Lin W.Y., Ma Z.J.*, Fan W.K. and Wang X.L. 2017, Thermal performance evaluation of an integrated photovoltaic thermal-phase change material system using Taguchi method[J], Energy Procedia, vol.121, pp. 118-125. (EI)

41. Lin W.Y. and Ma Z.J.* 2016, Using Taguchi-Fibonacci search method to optimize phase change materials enhanced buildings with integrated solar photovoltaic thermal collectors[J], Energy, vol.106, pp.23-37. (SCI)

42. Yang J.L., Zhang C., Zhang Z.T., Yang L.W.* and Lin W.Y. 2016, Study on mechanical vapour recompression system with wet compression single screw compressor[J], Applied Thermal Engineering, vol.103, pp.205-211. (SCI)

43. Ma Z.J.*, Lin W.Y. and Sohel M.I. 2016, Nano-enhanced phase change materials for improved building performance[J], Renewable and Sustainable Energy Reviews, vol.5, pp.1256-1268.(SCI)

44. Lin W.Y., Ma Z.J.*, Cooper P., Sohel M.I. and Yang L.W. 2016, Thermal performance investigation and optimization of buildings with integrated phase change materials and solar photovoltaic thermal collectors[J], Energy and Buildings, vol.116, pp.562-573. (SCI)

45. Lin W.Y., Ma Z.J.*, Sohel M.I. and Cooper P. 2014, Development and evaluation of a ceiling ventilation system enhanced by solar photovoltaic thermal collectors and phase change materials[J], Energy Conversion and Management, vol.88, pp.218-230. (SCI)

46. Lin W.Y., Wu X.H. , Yang J.L. and Yang L.W.* 2013, Experimental study and numerical analysis of thermocompressors with annular regenerators[J], International Journal of Refrigeration, vol.36, no.4, pp.1376-1387. (SCI)

47. 王力威,庄景发,杨鲁伟*,林文野,张振涛,杨鲁平,张俊浩 2015,‘单螺杆水蒸汽压缩机驱动的MVR系统性能试验研究’ [J],中国科学院大学学报,32(1)pp.38-45(EI)

48. Pang W.K., Lin W.J., Pan Q.L., Lin W.Y., Dai Q.T., Yang L.W.* and Zhang Z.T. 2014, Operation characteristic of a heat pump of mechanical vapour recompression propelled by fans and its performance analysis applied to waste-water treatment[J], AIP Conference Proceedings, 1573, 1122. (EI)

49. Zhang Z.T.*, Lin W.Y., Yang L.W., Dong Y.H. and Zhang B.G. 2013, Study of wood drying with two-stage compression high temperature heat pump[J], Advance Journal of Food Science and Technology, vol.5, no.2, pp.180-185. (EI)

50. 庞卫科,林文举,潘麒麟,林文野,戴群特,杨鲁伟*,张振涛 2013,‘离心风机驱动机械蒸汽再压缩热泵系统的性能分析’ [J],机械工程学报,49(12)pp.142-146(EI)

51. 林文举,林文野,杨鲁伟* 2013,‘板式蒸发器式蒸汽再压缩系统研究及设计’ [J],化工机械,40(2)pp.176-181。(中文核心)

52. 庞卫科,林文野,戴群特,杨鲁伟*,张振涛 2012,‘机械蒸汽再压缩热泵技术研究进展’ [J],节能技术,7(4)pp.312-315。(中文核心)

53. 林文野,吴小华,杨俊玲,杨鲁伟* 2011,‘用于驱动脉管的热压缩机性能的数值模拟及实验研究 [J],工程热物理学报,33(11)pp.1848-1852(EI)

54. 吴小华,杨俊玲,林文野,杨鲁伟*,周远2011,‘直线电机驱动热压缩机数值模拟及实验研究’ [J],工程热物理学报,32(5)pp.741-711(EI)

主要授权发明专利

专利类(发明/实用新型)

1. 林文野,张振涛,杨鲁伟,李金荣,郑鹤立,‘压比工况可调的容积式压缩机MVR热泵蒸发系统’ [P],专利公开号:CN104069642B,公开日:2015.12.23

2. 张振涛,林文野,杨鲁伟,林文举,庞卫科,‘一种MVR热泵蒸发系统’ [P],专利公开号:CN103908788B,公开日:2015.12.23

3. 庞卫科,杨鲁伟,张振涛,林文野,戴群特,‘可实现升膜降膜两种蒸发模式的热泵装置’ [P],专利公开号:CN103893982B,公开日:2015.10.21

4. 杨鲁伟,林文野,张振涛,庞卫科,‘机械蒸汽再压缩热泵MVR污泥干化系统’ [P],专利公开号:CN103708697B,公开日:2015.09.30

5. 戴群特,杨鲁伟,张振涛,林文野,‘一种MVR连续蒸发结晶系统及连续蒸发结晶方法’ [P],专利公开号¬CN103203116B,公开日:2015.09.16

6. 戴群特,杨鲁伟,张振涛,蔺雪军,林文野,‘一种无电式避难硐室或救生舱用蓄冰制冷系统’ [P],专利公开号:CN102562121B,公开日:2015.09.09

7. 林文野,戴群特,杨鲁伟,张振涛,张亦飞,‘一种容积式压缩机MVR热泵蒸发系统’ [P],专利公开号:CN203208699U,公开日:2013.09.25

8. 林文野,杨鲁伟,戴群特,张振涛,庞卫科,张亦飞,‘一种用于污泥干化的机械蒸汽再压缩热泵系统’ [P],专利公开号:CN203212442U,公开日:2013.09.25

软件著作权类

其他成果


广东技术师范大学自动化学院 版权所有 地址:广东省广州市白云区江高镇环镇西路155号第一实训楼4-6楼  E-Mail:gszdhx@gdin.edu.cn