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副教授

王馨

王馨ENGLISH

单位:清华大学建筑学院建筑技术科学系
电话:86-10-62796113
传真:86-10-62773461
E-mail:wangxinlj@tsinghua.edu.cn

研究方向

建筑蓄能节能

可再生能源利用

 

教育简历

1992.09-1996.07   东南大学动力工程系工程热物理专业,学士

1996.09-2001.05   东南大学动力工程系工程热物理专业,博士 (直博)

 

工作履历

博士生导师(2011.07-今),  清华大学建筑学院建筑技术科学系

副研究员(2004.12-今),    清华大学建筑学院建筑技术科学系

讲师(2003.06-2004.11),   清华大学建筑学院建筑技术科学系

博士后(2001.05-2003.06),清华大学建筑学院建筑技术科学系

 

 

科研项目

 

Ø   国家十二五科技支撑项目子课题,高原气候适应性节能建筑关键技术研究与示范子课题(2013BAJ03B04),负责人,2013-2015

Ø   国家十一五科技支撑课题,新型建筑室内热湿负荷调节系统研究(2006BAA04B02),负责人,2006-2010

Ø   国家十一五科技支撑项目子课题,建筑室内热湿环境改善材料开发2006BAJ02A09-5),负责人,2006-2010

Ø   国家自然科学基金青年基金项目,基于理想节能建筑围护结构非线性热容传热反问题研究(50906045),负责人,2010-2012

Ø   国家自然科学基金重点项目子课题,潜热型功能热流体制备调控方法与强化传热机理研究(50436020),负责人,2005-2008

Ø    国家重点基础研究发展计划 (973) 子课题,蓄能释能过程与主动蓄能项目子课题(2010CB227305),第二负责人,2010-2014

Ø   科技部国际科技合作项目子课题,相变蓄能围护结构热性能研究(2010DEA642402),第二负责人,2011-2013

Ø   国家重点实验室开放基金,基于反问题的亚热带建筑理想通风机理及优化策略研究(2011KB16),负责人,2012-2013

Ø   北京市重点实验室开放课题,潜热型功能热流体在暖通空调系统中的应用基础研究(KF200506),负责人,2005-2006

Ø   中国博士后科学基金,潜热型功能热流体在椭圆扭曲管内流动和储换热机理研究,负责人,2002

此外,作为主研人员参与了建筑蓄能节能方向的国家自然科学基金、973863、北京市科技攻关等多项研究工作。

 

 

荣誉和获奖

 

Ø    四川省科技进步奖一等奖,青藏高原气候适应性节能建筑关键技术研究,排名第六,2011

Ø    教育部新世纪优秀人才,排名第一,2009

Ø    教育部自然科学二等奖,相变储能应用基础研究,排名第四,2005

Ø    国际会议ISHVAC2007最佳Poster奖,排名第二(通讯作者),2007

 

 

 

学术任职

Ø   中国环境科学学会室内环境与健康分会, 理事

Ø   国际期刊Journal of Solar EnergyEditorial Board Member

Ø   国际期刊Conference Papers in EnergyEditorial Board Member

Ø   国际中文期刊《电力与能源进展》,Editorial Board Member

Ø   International Solar Energy Society (ISES) Member

Ø   World Society of Sustainable Energy Technology  (WSSET)Member

Ø   二十余种国际期刊审稿人,包括Applied Energy, Energy, Solar Energy, Building and Environment,  Energy and Buildings, International Journal of Heat and Mass transfer, Energy  Conversion and Management, Applied Thermal Engineering, Indoor and Built  Environment, Thermochimica Acta, Heat and Mass transfer, Heat Transfer  Engineering, Building Simulation, Chemical and Biochemical Engineering  Quarterly等。

Ø   曾担任国际会议SET2011,  ISHVAC2011, BEPH2003分会场主席

Ø   曾担任国际会议ISHVAC2003, ISHVAC2007秘书,Indoor Air2005,  ISHVAC2009组委会委员

 

 

教学工作

建筑环境高等传热学

建筑节能原理与应用

暖通空调专业英语阅读与写作

 

代表性论著与论文

 

著作

   Ø     张兴祥、王馨、吴文健,相变材料胶囊制备与应用,化学工业出版社,2009

   Ø     张寅平、潘毅群、王馨,专业英语阅读与写作,中国建筑工业出版社,2005

 

国际期刊论文

1. Wang  X*,  Zeng RL, Cheng R, Zhang YP. Ideal thermal physical properties of building wall  in an active room, Indoor and Built Environment,  In press.  

2. Cheng R, Wang X, Zhang YP,  Energy efficient building envelopes with phase change materials: new  understanding and relating researches, Heat Transfer Engineering,   In press. 

3. Cheng R, Pomianowski M, Heiselberg P,  Wang X*, Zhang YP, A new method to determine thermal physical properties  of the PCM-concrete brick, Applied Energy,  In  press.

4. Jiang F,  Wang X*, Zhang YP. Analytical optimization of specific heat for building  internal envelope, Energy Conversion and Management, 2012, 63,  239–244.

5. Jiang F,  Wang X*, Zhang YP. A new method to estimate optimal phase change material  characteristic in a passive solar room, Energy Conversion and  Management, 2011,52, 24372441.

6. Zeng RL,  Wang X, Di HF, Jiang F, Zhang YP. New concepts and approach for  developing energy efficient buildings: Ideal specific heat for building internal  thermal mass, Energy and Buildings, 2011, 43, 1081–1090.   

7. Zhou GB,  Yang YP, Wang X, Cheng JM. Thermal characteristics of shape-stabilized  phase change material wallboard with periodical outside temperature waves.  Applied Energy, 2010, 87(8), 2666-2672. 

8. Wang X, Zhang YP, Xiao W, Zeng RL, Zhang QL, Di HF.  Review on thermal performance of phase change energy storage building envelope,  Chinese Science Bulletin, 2009, 54(6), 920-928.  

9. Zeng  RL, Wang X*, Chen BJ, Zhang YP, Niu JL, Di HF. Heat transfer  characteristics of microencapsulated phase change material slurry in laminar  flow under constant heat flux, Applied Energy, 2009, 86(12), 2661-2670.

10. Xiao  W, Wang X*, Zhang YP. Analytical optimization of interior PCM for energy  storage in a lightweight passive solar room, Applied  Energy, 2009, 86 (10), 2013-2018.

11. Yang R,  Zhang Y, Wang X, Zhang YP, Zhang QW. Preparation of  n-tetradecane-containing microcapsules with different shell materials by phase  separation method, Solar Energy Materials and Solar Cells, 2009,  93, 1817–1822.

12. Zhou GB, Yang YP, Wang X, Zhou  SX. Numerical analysis of effect of shape-stabilized phase change material  plates in a building combined with night ventilation. Applied  Energy, 2009, 86(1), 52-59.

13. Wang Y,  Guo BH, Wan X, Xu J, Wang X, Zhang YP. Janus-like polymer particles  prepared via internal phase separation from emulsified polymer/oil droplets,  Polymer, 2009, 50, 33613369.

14. Xu J, Wan X, Zhang BQ, Wang Y, Guo  BH, Zhang YP, Wang X. Preparation of phase change material  wax/p(MMA-co-AA) core-shell microcapsules, Acta Polymerica Sinica,  2009. 20(11), 1154-1156. 

15. Chen  BJ, Wang X*, Zeng RL, Zhang YP, Wang XC, Niu JL, Li Y, Di HF. An  experimental study of convective heat transfer with microencapsulated phase  change material suspension: laminar flow in a circular tube under constant heat  flux,  Experimental Thermal and Fluid Science, 2008, 32,  1638-1646.

16. Wang XC,  Niu JL, Li Y, Zhang YP, Wang X, Chen BJ, Zeng RL, Song QW. Heat transfer  of microencapsulated PCM slurry flow in a circular tube, AIChE  Journal, 2008, 54(4), 1110-1120.

17. Zhou GB,  Zhang YP, Wang X, Lin KP, Xiao W. An assessment of mixed type PCM-gypsum  and shape-stabilized PCM plates in a building for passive solar heating,  Solar Energy, 2007, 84(10), 1351-1360.

18. Wang XC, Niu JL, Li Y, Wang X, Chen BJ, Zeng RL, Song QW, Zhang  YP. Flow and heat transfer behaviors of phase change material slurries in a  horizontal circular tube, International Journal of Heat and Mass  Transfer, 2007, 50, 2480-2491.

19. Wang  X, Liu J, Zhang YP, Di HF, Jiang Y.  Experimental research on a kind of novel high-temperature phase change storage  heater, Energy Conversion and Management, 2006, 47,  2211-2222.

20. Chen BJ, Wang X*, Zhang YP, Xu  H, Yang R. Experimental research on laminar flow performance of phase change  emulsion. Applied Thermal Engineering, 2006, 26(11-12),  1238-1245.

21. Zhang YP,  Ding JH, Wang X, Yang R, Lin KP. Influence of additives on thermal  conductivity of shape-stabilized phase change material, Solar Energy  Materials and Solar Cells, 2006, 90(11),  1692-1702.

22. Xu H, Yang R, Zhang YP, Huang Z, Lin J, Wang X.  Thermal physical properties and key influence factors of phase change emulsion,  Chinese Science Bulletin, 2005, 50(1),  88-93.

23. Wang  X, Zhang YP, Hu XX. Turbulent heat transfer enhancement of  microencapsulated phase change material slurries with constant wall heat flux,  Journal of Enhanced Heat Transfer, 2004, 11(1), 13-22.  

24. Shi MH,  Wang X. Investigation on moisture transfer mechanism in porous  media during rapid drying process, Drying Technology, 2004,  22(1-2), 111-122.

25. Zhang YP, Hu XX, Wang X.  Theoretical analysis of convection heat transfer enhancement of  microencapsulated phase change material slurries, Heat and Mass  Transfer, 2003, 40  (1-2), 59-66.

26. Zhang YP, Hu XX, Hao Q, Wang  X. Convective heat transfer enhancement of laminar flow of latent  functionally thermal fluid in a circular tube with constant heat flux: internal  heat source model and its application, Science in China (Series  E), 2003, 46(2),131-140.

27. Wang  X, Zhang  YP. Solid-liquid phase change heat transfer enhancement analysis in cylindrical  and spherical wallsJournal of Enhanced Heat  Transfer, 2002, 9(3), 109-115.

28. Zhang YP, Wang X. Analysis of  solid-liquid phase change heat transfer enhancement, Science in China  (Series E), 2002, 45(6), 569-575.

 


 

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