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颜承初
阅读次数: 添加时间:2018/09/18 发布:


颜承初,男,1983年生,博士,教授,硕士生导师,暖通工程研究所所长。


个人简介:

  围绕全生命周期下的智能建筑节能研究与应用,在既有建筑节能、建筑可再生能源、智能电网及智慧能源系统等方向进行研究,从事先进技术开发、应用和推广工作。近年来发表学术论文50余篇,其中30余篇被Applied EnergyEnergy and BuildingsSCI杂志收录,SCI他引800余次,已有7篇论文入选ESI高被引用论文,10余个SCI期刊或国际会议的特邀审稿人;主持国家自然科学基金、国家重点研发计划项目子项目、江苏省自然科学基金多项,作为核心成员参与2项香港研究資助局(RGC)基金項目、3项工业资助项目和2项校内资助项目;申请国家发明专利16项;授权12项;作为节能项目负责人,承担14项建筑节能诊断及改造项目,包括香港第一高楼-“环球贸易广场、香港货运航站楼、香港地铁沿线商业建筑、北京奥运村微能耗等重大项目,节能率达到20-35%

联系方式:

  电 : 025-83239964, E-mail: chengchu.yan@njtech.edu.cn

研究方向:

  基于全生命周期优化和多系统集成的可持续智慧建筑:包括建筑节能与零能耗建筑、既有建筑能效评估与诊断、可再生能源集成、柔能建筑(Energy Flexible Buildings)的优化设计及运行、智能电网及需求侧响应、建筑空调系统优化与控制。

Main Research Area/Interests: Lifecycle Optimization and Multiple System Integration for Sustainable Building development and application. Our research mainly focuses on how to develop sustainable building energy systems through lifecycle optimization and multiple system integration. The Main Research Area/Interests include three categories:

  1. New Building Design Optimization: The design optimization aims at searching for optimal design configurations and energy efficient components that ensure the systems to consume the least energy during their whole life-cycle with a reasonable initial cost. We mainly address how to integrate different types of renewable energy systems that have very poor reliability and controllability for Low Energy /Zero Energy Buildings. We have developed a systematic methodology for the design optimization of such building energy systems, which currently are financially supported by two funds, including the National Natural Science Foundation of China and Jiangsu Province respectively.

  2. Existing Building Diagnosis &Retrofitting: For existing buildings, the energy optimization aims to find out the possible energy saving opportunities by performance assessment and fault diagnosis. Our major contribution is to develop simple and effective methods for building-level energy assessment and diagnosis of information-poor buildings, which has been applied and validated in many real projects.

  3. Smart Building towards Smart Grids: Being Energy Flexible should be one of the most important features for smart Buildings. As a result, we establish the interactive relationships between buildings and smart grid.  We make buildings with more flexibility and elasticity in energy use, by which effect control of building HVAC system can be used for power demand response towards smart grids.

     

    个人经历:

    2001.09-2005.07南京理工大学 建筑环境与设备工程专业,获学士学位

    2005.08-2008.07 清华大学,建筑技术科学系,获硕士学位

    2008.08-2009.11 北京建筑设计研究院,助理工程师

    2009.12-2013.01 香港理工大学屋宇设备工程学系,获博士学位

    2013.01-2013.10 香港理工大学屋宇设备工程学系,助理研究员

    2013.10-2016.04 香港理工大学屋宇设备工程学系,博士后

    2016.04-2017.03 香港理工大学屋宇设备工程学系,研究员

    2017.03-2018.05 威廉希尔体育,教授

    2018.05- 至今 威廉希尔体育,教授,暖通工程研究所所长

     

    科研项目:

  1. 国家自然科学基金青年基金项目(51708287):基于供需互配的多能互补建筑能源系统优化集成机制研究.(负责人)

  2. 江苏省自然科学基金青年基金项目(BK20171003):供需互适应匹配的建筑混合能源系统耦合机制研究.(负责人)

  3. 国家重点研发计划项目(SQ2018YFE011243):区域供热供冷系统大数据能效诊断方法研究与示范.(子课题负责人)

  4. 南京工业大学科研启动项目:基于生命周期的建筑能源系统优化.(负责人)

  5. 国家自然科学基金面上项目:基于超材料光谱选择性膜的辐射致冷机理及其建筑集成机制研究(51878342). (主要完成人)

  6. 香港RGC/GRF项目:Robust Optimal Design of Energy Systems for Grid-connected and Stand-alone Zero Energy Buildings(2016-2018), Design and Control Optimizations of Net-Zero Energy Buildings Integrated with Micro-Grid2013-2015);

  7. 香港地铁公司资助的校企合作研究项目Life-cycle commissioning and optimization of ECS system in TKW (2014-2018), Energy optimization for air conditioning system for maritime square extension (2014-2018)

  8. 香港理工大学校园可持续发展基金项目:Energy Performance Assessment and Optimization on Existing Campus Buildings (2015-2018)

  9. 香港理工大学可持续城市发展研究中心的Strategic Focus Area SchemeDevelopment of Smart, Grid-friendly and Grid-Responsive Buildings (2017-2020)

    代表性论文:

  10. Cheng Fan, Fu Xiao, Chengchu Yan*, et al. A novel methodology to explain and evaluate data-driven building energy performance models based on interpretable machine learning. Applied Energy, 2019, 235: 1551-1560. (JCR1区,IF7.182)

  11. Chengchu Yan, Wenjie Gang, Xiaofeng Niu, Xujian Peng, Shengwei Wang. Quantitative evaluation of the impact of building load characteristics on energy performance of district cooling systems. Applied Energy, 2017, 205: 635-643. (JCR1区,IF7.182)

  12. Chengchu Yan, Wenxing Shi, Xianting Li. Optimal Design and Application of a Compound Cold Storage System-Combining Seasonal Ice Storage and Chilled Water Storage. Applied Energy, 2016, 171: 1-11. (JCR1区,IF7.182)

  13. Chengchu Yan, Wenxing Shi, Xianting Li and Shengwei Wang. A Seasonal Cold Storage System Based on Separate Type Heat Pipe for Sustainable Building Cooling. Renewable Energy. 2016, 85: 880-889. (JCR1区,IF4.357) (ESI-高引用论文 ) *1

  14. Chengchu Yan, Shengwei Wang, Zhenjun Ma and Wenxing Shi. A Simplified Method for Optimal Design of Solar Water Heating Systems Based on Life-cycle Energy Analysis. Renewable Energy. 2015,74 : 271-278 (JCR1区,IF4.357)

  15. Chengchu Yan, Xue Xue, Shengwei Wang and Borui Cui. A novel air-conditioning system for proactive power demand response to smart grid. Energy Conversion and Management. 2015, 102: 239-246. (JCR1区,IF5.589)

  16. Chengchu Yan, Shengwei Wang, Fu Xiao A Multi-level Energy Performance Diagnosis Method for Information-Poor Buildings. Energy. 2015, 83: 189-203. (JCR1区,IF4.520)

  17. Chengchu Yan, Shengwei Wang, Kui Shan and Yuehong Lu. A Simplified Analytical Model to Evaluate the Impact of Radiant Heat on Building Cooling Load. Applied Thermal Engineering, 2015, 77: 30-41. (JCR1区,IF3.356)

  18. Chengchu Yan, Shengwei Wang, Fu Xiao. A simplified energy performance assessment method for existing buildings based on energy bill disaggregation, Energy and Buildings, 2012, 55: 563-574. (JCR1区,IF4.067)

  19. Chengchu Yan, Shengwei Wang, Fu Xiao. Retrofitting Building Fire Protection Water Tanks as Chilled Water Storage for Power Demand Limiting. Building Services Engineering Research and Technology. 2017, 38 (1), 47-63. (JCR3区,IF0.727)

  20. Chengchu Yan *. Qi Cheng, Hao Cai. Life-Cycle Optimization of a Chiller Plant with Quantified Analysis of Uncertainty and Reliability in Commercial Buildings. Applied Sciences. 2019, 9, 1548. (JCR3区,IF1.689)

  21. Chen Jin, Chengchu Yan*, Rui Tang, Hao Cai & Ruixuan Zeng. A fast building demand response method based on supply–demand coordination for urgent responses to smart grids. Science and Technology for the Built Environment. 2019, 0, 1-11. (JCR3区,IF0.928)

  22. Chengchu Yan*, Xiuxiu Yang and Yizhe Xu. Mathematical Explanation and Fault Diagnosis of Low Delta-T Syndrome in Building Chilled Water Systems. Buildings. 2018, 8, 84.

  23. Shengwei Wang, Chengchu Yan, Fu Xiao. Quantitative energy performance assessment methods for existing buildings, Energy and Buildings, 2012, 55: 873-888. (JCR1区,IF4.067). (ESI-高引用论文 ) *2

  24. Yuehong Lu, Shengwei Wang, Chengchu Yan. Optimal scheduling of buildings with energy generation and thermal storage under dynamic electricity pricing using mixed-integer nonlinear programming. Applied Energy, 2015, 147: 49-58. (JCR1区,IF7.182) (ESI-高引用论文 ) *3

  25. Xue Xue, Shengwei Wang, Chengchu Yan, Borui Cui. A Fast Chiller Power Demand Response Control Strategy for Buildings Connected to Smart Grid. Applied Energy. 2015, 137: 77-87. (JCR1区,IF7.182) (ESI-高引用论文 ) *4

  26. Dian-ce Gao, Shengwei Wang, Kui Shan, and Chengchu Yan. A System-level Fault Detection and Diagnosis Method for Low Delta-T Syndrome in the Complex HVAC Systems. Applied Energy. 2016, 164: 1028–1038. (JCR1区,IF7.182) (ESI-高引用论文 ) *5

  27. Yuehong Lu, Shengwei Wang, Yang Zhao and Chengchu Yan. Renewable Energy System Optimization of Low/Zero Energy Buildings Using Single-Objective and Multi-Objective Optimization Methods. Energy and Buildings, 2015, 89: 61-75. (JCR1区,IF4.067) (ESI-高引用论文 ) *6

  28. Qi Cheng, Shengwei Wang, Chengchu Yan, Fu Xiao. Probabilistic Approach for Uncertainty-based Optimal Design of Chiller Plants in Buildings. Applied Energy. 2017,185:1613-1624 (JCR1区,IF7.182) (ESI-高引用论文 ) *7

  29. Kui Shan, Yongjun Sun, Shengwei Wang, Chengchu Yan. Development and In-situ validation of a multi-zone demand-controlled ventilation strategy using a limited number of sensors, Building and Environment, 2012, 57: 28-37. (JCR1区,IF4.053)

  30. Xue Xue, Shengwei Wang, Chengchu Yan. Building Power Demand Response Methods towards Smart Grid. HVAC&R Research, 2014, 20(6): 665-687. (JCR2区,IF0.928).

  31. Yang Zhao, Yuehong Lu, Chengchu Yan, Shengwei Wang. MPC-Based Optimal Scheduling of Grid-Connected Low Energy Buildings with Thermal Energy Storage. Energy and Buildings. 2015, 86: 415-426.( JCR1区,IF4.067)

  32. Cheng Fan, Fu Xiao, Chengchu Yan. A Framework for Knowledge Discovery in Massive Building Automation Data and Its Application in Building Diagnostics. Automation in Construction. 2015, 50: 81-90. (JCR1区,IF: 2.919).

  33. Borui Cui, Shengwei Wang, Chengchu Yan and Xue Xue. Evaluation of a Fast Power Demand Response Strategy Using Active and Passive Building Cold Storages for Smart Grid Applications. Energy Conversion and Management. 2015, 102: 227-238 (JCR1区,IF5.589).

  34. Yuehong Lu, Shengwei Wang, Chengchu Yan and Kui Shan. Impacts of Renewable Energy System Design Inputs on The Performance Robustness of Net Zero Energy Buildings. Energy. 2015, 93: 1595-1606. (JCR1区,IF4.292)

  35. Wenjie Gang, Shengwei Wang, Chengchu Yan, Fu Xiao. Robust optimal design of building cooling systems concerning uncertainties using mini-max regret theory. Science and Technology for the Built Environment, 2015, 21(6): 789-799. (JCR2区,IF 0.928).

  36. Kui Shan, Shengwei Wang, Chengchu Yan & Fu Xiao. Building demand response and control methods for smart grids: A review. Science and Technology for the Built Environment. 2016, 22(6): 692-704. (JCR2区,IF0.928).

  37. Qi Cheng, Shengwei Wang, Chengchu Yan. Robust Optimal Design of Chilled Water Systems in Buildings with Quantified Uncertainty and Reliability for Minimized Life-Cycle Cost. Energy and Buildings, 2016, 126: 159-169. (JCR1区,IF4.067).

  38. Qi Cheng, Shengwei Wang, Chengchu Yan. Sequential Monte Carlo simulation for robust optimal design of cooling water system with quantified uncertainty and reliability. Energy, 2017, 118: 489-501. (JCR1区,IF4.520)

  39. Yuehong Lu, Shengwei Wang, Chengchu Yan, et al. Robust optimal design of renewable energy system in nearly/net zero energy buildings under uncertainties. Applied Energy, 2017, 187: 62-71. (JCR1区,IF7.182).

  40. Rui Tang, Shengwei Wang, Chengchu Yan. A direct load control strategy of centralized air-conditioning systems for building fast demand response to urgent requests of smart grids. Automation in Construction, 2018, 87: 74-83. (JCR1区,IF2.919).

  41. Jing Kang, Shengwei Wan, Chengchu Yan. A New Distributed Energy System Configuration for Cooling Dominated Districts and The Performance Assessment Based on Real Site Measurements. Renewable Energy ,131 (2019) 390-403 (JCR1区,IF4.357).

  42. Yibin Yang, Qilin Feng, Hao Cai, Jiheng Xu, Fei Li, Zhengdong Deng, Chengchu Yan, Xianting Li. Experimental study on three single-robot active olfaction algorithms for locating contaminant sources in indoor environments with no strong airflow. Building and Environment ,155 (2019), 320-333 (JCR1区,IF4.539 ).

中文期刊论文

  1. 颜承初, 龚延风. 面向智能电网的智能建筑新特征——电网友好及动态响应[J]. 智能建筑, 2018, No.210(02):44-46.

  2. 颜承初,刘燕华,石文星. 基于温湿度独立控制的水蓄冷空调系统[J]. 暖通空调, 2010 (06). pp.36-41.

  3. 颜承初,赵伟,石文星. 单元式空调机APF 性能评价中的两个关键问题[J]. 中国电器, 2008 (05). pp 68-70.

  4. 石文星, 颜承初, 李先庭等. 跨季节与夜间复合蓄冷系统设计与实践[J]. 暖通空调, 2008(38). pp. 125-131.

国际会议文章

  1. Shuangjun Xu, Chengchu Yan*, Chen Jin. Design Optimization of Hybrid Renewable Energy Systems for Sustainable Building Development based on Energy-Hub. 10th International Conference on Applied Energy (ICAE2018), 22-25 August 2018, Hong Kong, China. EI收录

  2. Chen Jin, Chengchu Yan*, Rui Tang. A Compound HVAC-Based Demand Response Method For Urgent Responses of Commercial Buildings Towards Smart Grids. 4th Asia Conference of International Building Performance Simulation Association (ASim2018), 3-6 December, 2018, Hong Kong, ChinaEI收录

  3. Chengchu Yan, Shengwei Wang. Three-level Energy Performance Calculation and Assessment Method for Information Poor Buildings. 10th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2017), Jinan, China, 19-22 October 2017.EI收录

  4. Chengchu Yan, Diance Gao, Shengwei Wang and Kui Shan. Mathematical Explanation and Fault Diagnosis of Low Delta-T Syndrome in Building Chilled Water Systems. Second International Conference on Sustainable Urbanization (ICSU 2015), Hong Kong, China, 7-9 January 2015.

  5. Chengchu Yan, Xue Xue and Shengwei Wang. A novel air-conditioning system for proactive power demand response to smart grid. The 6th International Conference on Applied Energy, Taiwan, 2014. EI收录

  6. Chengchu Yan, Shengwei Wang and Zhenjun Ma. Optimal Design of a Solar Water Heating System for Multiple Purposes in Low-Energy Buildings. The 12th International Conference on Sustainable Energy technologies, Hong Kong, 2013.

  7. Chengchu Yan, Wenxing Shi, Xianting Li. Charging performance of seasonal cold storage system with separate type heat pipes. International Congress of Refrigeration. Beijing, 2007.

  8. Qi Cheng, Chengchu Yan, Shengwei Wang. Robust optimal design of chiller plants based on uncertainties. The 7th International Conference on Applied Energy, Abu Dhabi, 2015. EI收录

 


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