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    剛文杰

    1988-05

    博士

    副教授

    分布式能源、低能耗建筑、智能建筑

    gangwenjie@hust.edu.cn

    https://scholar.google.com/citations?user=ziGciu4AAAAJ&hl=zh-CN

    個人簡介

    一、個人簡介

    長期從事建筑節能與分布式能源研究,在智慧建筑、分布式能源系統、面向建筑的數據挖掘技術等研究方向取得了一系列成果,共發表SCI/EI論文40余篇,參與編寫專著1本,主持國家自然科學基金青年項目1項,參與國家自然科學基金2項,作為課題骨干參與國家重點研發計劃一項,主持參與多項企業聯合項目,涵蓋民用與軍工領域;多次參加國內外學術會議并擔任國際會議分會場主席。指導多組學生創新創業訓練項目并發表學術論文、指導學生參加CAR-ASHRAE競賽并獲獎。歡迎有意向的本科生、研究生、博士生的加入。

    二、 主要學歷

    2012.8-2015.11,香港理工大學,屋宇設備工程系,博士

    2009.9-2012.6,華中科技大學,供熱供燃氣通風及空調工程系,研究生

    2005.9-2009.6,華中科技大學,建筑環境與設備工程系,本科

    三、學科專業與研究方向

    專業領域:建筑環境與設備工程、供熱供燃氣通風及空調工程、建筑技術科學

    研究方向:分布式能源,區域供冷,建筑能源系統的不確定性與可靠性,零能耗建筑,綠色建筑,建筑節能

    四、工作經歷

    2016.12-至今,華中科技大學,建筑環境與能源應用工程系,副教授

    2015.11-2016.12,香港理工大學,屋宇設備工程系,博士后

    2015.1-2015.4,美國佐治亞理工學院,建筑系,訪問學者

    2011.12-2012.3,澳大利亞阿德萊德大學,機械工程系,訪問學者

    五、近年主要研究項目

    1. 國家自然科學基金青年項目, 基于隨機不確定性與非概率不確定性量化分析的中央空調系統性能預測與優化配置方法研究, 26萬,2019-2021,主持

    2. 考慮需求側隨機特性的夏熱冬冷地區分布能源系統研究,中央高?;究蒲袠I務費專項資金資助,8萬,2017.01-2019.12,主持

    3. 特色小鎮全可再生能源多能互補熱電氣儲耦合供能系統關鍵技術及示范/多時空多類型全可再生能源熱電氣儲耦合利用系統結構和規劃設計方法,國家重點研發計劃,2019.04-2023.04,參與

    4. Probabilistic Optimal and Adaptive Design and Test & Commissioning of District Cooling Systems Concerning Uncertainties and Reliability  ,HKRGC,63Khkd,2018-2019,參與

    5. 外層定型相變與內嵌管式通風屋面的主動隔熱與蓄冷機制研究,國家自然科學基金面上項目,2018.01-2021.12,參與

    6. 基于主動隔熱與排風熱回收的建筑外窗耦合動態傳熱模型及實驗研究,國家自然科學基金青年項目,24萬,2019.01-2021.12,參與

    7. 西安絲路國際會議中心高大空間氣流組織模擬,企業合作項目,2019,主持

    8. 氣流組織模擬技術服務合同,企業合作項目,2019,主持

    9. 地鐵車站分區負荷測量方法及其構成特性分析,2017-2019,參與

    六、近年發表主要國際期刊論文

    [1] Jiaqi Yuan, Chengliao Cui, Ziwei Xiao, Chong Zhang, Wenjie Gang*. Performance analysis of thermal energy storage in distributed energy system under different load profiles. Energy Conversion and Management 2020; 208: 112596

    [2] Ying Zhang, Nevzat Akkurt, Jiaqi Yuan, Ziwei Xiao, Qianjiang Wang, Wenjie Gang*. Study on model uncertainty of water source heat pump and impact on decision making. Energy and Buildings 2020; 109950

    [3] Chong Zhang, Jinbo Wang, Liao Li, Wenjie Gang*. Dynamic thermal performance and parametric analysis of a heat recovery building envelope based on air-permeable porous materials. Energy 2020;

    [4] Tian Yan, Zhongwei Sun, Jiajia Gao, Xinhua Xu, Jinghua Yu, Wenjie Gang. Simulation study of a pipe-encapsulated PCM wall system with self-activated heat removal by nocturnal sky radiation.Renewable Energy 146; 2020:1451-1464.

    [5] Jinghua Yu, Qingchen Yang, Hong Ye, Yongqiang Luo, Junchao Huang, Xinhua Xu, Wenjie Gang, Jinbo Wang. Thermal performance evaluation and optimal design of building roof with outer-layer shape-stabilized PCM. Renewable Energy 2020: 145: 2538-2549

    [6] Chong Zhang, Chengliao Cui, Ying Zhang, Jiaqi Yuan, Yimo Luo, Wenjie Gang*. A review of renewable energy assessment methods in green building and green neighborhood rating systems. Energy and Buildings 2019; 195: 68-81.

    [7] Chong Zhang, Xue Xue, Qianzhou Du, Yimo Luo, Wenjie Gang*. Study on the performance of distributed energy systems based on historical loads considering parameter uncertainties for decision making. Energy 2019; 176: 778-791.

    [8] Cheng Fan, Jiayuan Wang, Wenjie Gang*, Shenghan Li. Assessment of deep recurrent neural network-based strategies for short-term building energy predictions. Applied Energy 2019; 236:700-710.

    [9] Chong Zhang, Wenjie Gang, Jinbo Wang, Xinhua Xu, Qianzhou Du. Numerical and experimental study on the thermal performance improvement of a triple glazed window by utilizing low-grade exhaust air. Energy 2019; 167: 1132-1143.

    [10] Tao Wen,Yimo Luo, Weifeng He, Wenjie Gang, Liyuan Sheng. Development of a novel quasi-3D model to investigate the performance of a falling film dehumidifier with CFD technology. International Journal of Heat and Mass Transfer 2019; 132: 431-442.

    [11] Jinbo Wang, Qianzhou Du, Chong Zhang, Xinhua Xu, Wenjie Gang. Mechanism and preliminary performance analysis of exhaust air insulation for building envelope wall. Energy and Buildings 2018; 173:516-529.

    [12] Jiajia Gao, Anbang Li, Xinhua Xu, Wenjie Gang*, Tian Yan. Ground heat exchangers: Applications, technology integration and potentials for zero energy buildings. Renewable Energy 2018; 128: 337-349;

    [13] Chong Zhang, Wenjie Gang, Jinbo Wang, XinhuaXu, Qianzhou Du. Experimental investigation and dynamic modeling of a triple-glazed exhaust air window with built-in venetian blinds in the cooling season. Applied Thermal Engineering 2018; 140: 73-85.

    [14] Jiajia Gao, Jing Kang, Chong Zhang, Wenjie Gang*. Energy Performance and Operation Characteristics of Distributed Energy Systems with District Cooling Systems in Subtropical Areas Under Different Control Strategies. Energy 2018; 153: 849-860.

    [15] Jing Kang, Shengwei Wang, Wenjie Gang. Performance of Distributed Energy Systems in Buildings in Cooling Dominated Regions and the Impacts of Energy Policies. Applied Thermal Engineering 2017; 281-291.

    [16] Tian Yan, Xinhua Xu, Dun Qiu, Wenjie Gang. A Quasi-Steady-State Simplified Model for Pipe-encapsulated PCM. Procedia Engineering 2017; 205: 3243-3250.

    [17] 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.

    [18] Hang Wan, Xinhua Xu*, Anbang Li, Wenjie Gang. A wet-bulb temperature-based control method for controlling the heat balance of the ground soil of a hybrid ground-source heat pump system. Advances in Mechanical Engineering 2017 9(6); 1–12.

    [19] Qianzhou Du, Wenjie Gang*, Shengwei Wang, Jinbo Wang, Xinhua Xu. Application of Distributed Energy Systems in Subtropical and High Density Urban Areas. Energy Procedia 2017; 142: 2870-2876

    [20] Jing Kang, Shengwei Wang, Wenjie Gang. Performance and Benefits of Distributed Energy Systems in Cooling Dominated Regions: A Case Study. Kang J, Wang S, Gang W. Performance and Benefits of Distributed Energy System. Energy Procedia 2017; 142:1991-1996.

    [21] Shengwei Wang, Wenjie Gang. Design and Control Optimization of Energy Systems of Smart Buildings Today and in the Near Future. Frontiers of Engineering Management 2017; 4: 58-66.

    [22] Wenjie Gang, Shengwei Wang, Fu Xiao. District Cooling Systems and Individual Cooling Systems: Comparative Analysis and Impacts of Key Factors. Science and Technology for the Built Environment 2017; 23: 241-250.

    [23] Wenjie Gang, Shengwei Wang, Godfried Augenbroe, Fu Xiao. Robust Optimal Design of District Cooling Systems and the Impacts of Uncertainty and Reliability. Energy and Buildings 2016; 122: 11-22.

    [24] Wenjie Gang, Godfried Augenbroe, Shengwei Wang, Cheng Fan, Fu Xiao. An Uncertainty-Based Design Optimization Method for District Cooling Systems. Energy 2016; 102: 516-527.

    [25] Wenjie Gang, Shengwei Wang, Fu Xiao, Dian-ce Gao. District Cooling Systems: Technology Integration, System Optimization, Challenges and Opportunities for Applications. Renewable & Sustainable Energy Reviews 2016; 53: 253-264.

    [26] Wenjie Gang, Shengwei Wang, Dian-ce Gao, Fu Xiao. Performance Assessment of District Cooling Systems for A New Development District at Planning Stage. Applied Energy 2015; 140: 33-43.

    [27] Wenjie Gang, Shengwei Wang, Kui Shan, Dian-ce Gao. Impacts of Cooling Load Calculation Uncertainties on the Design Optimization of Building Cooling Systems. Energy and Buildings 2015; 94:1-9.

    [28] 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.

    [29] Wenjie Gang, Shengwei Wang, Fu Xiao, Dian-ce Gao. Robust Optimal Design of Building Cooling Systems Considering Cooling Load Uncertainty and Equipment Reliability. Applied Energy 2015, 159: 265-275.

    [30] Wenjie Gang, Jinbo Wang, Shengwei Wang. Performance Analysis of Hybrid Ground Source Heat Pump Systems Based on ANN Predictive Control. Applied Energy 2014; 136:1138-1144.

    [31] Wenjie Gang, Jinbo Wang. Predictive ANN Models of Ground Heat Exchanger for the Control of Hybrid Ground Source Heat Pump Systems. Applied Energy 2013; 112: 1146-1153.

    [32] Dian-ce Gao, Shengwei Wang, Wenjie Gang, Fu Xiao. A Model-based Adaptive Method for Evaluating the Energy Impact of Low Delta-T Syndrome in Complex HVAC Systems Using Support Vector Regression


    Conference papers:

    [1] Ziwei Xiao, Jiaqi Yuan, Wenjie Gang*, Chong Zhang, Xinhua Xu. A NILM method for cooling load disaggregation based on artificial neural network. E3S Web of Conferences 2019;111

    [2] Ying Zhang, Chengliao Cui, Jiaqi Yuan, Chong Zhang, Wenjie Gang*. Quantification of model uncertainty of water source heat pump and impacts on energy performance. IOP Conference Series: Earth and Environmental Science 238; 2019

    [3] Qianzhou Du, Chengliao Cui, Ying Zhang, Chong Zhang, Wenjie Gang, Shengwei Wang. Promotion of distributed energy systems integrated with district cooling systems considering uncertainties in energy market and policy in China. Energy Procedia 2018; 149: 256-265

    [4] Wenjie Gang, Shengwei Wang, Jing Kang, Jinbo Wang. Performance of Distributed Energy Systems Integrated with District Cooling Systems in Cooling Dominated Areas. The 10 th International Symposium on Heating, Ventilation and Air Conditioning. October 19~22 2017, Jinan, China

    [5] Wenjie Gang, Shengwei Wang, Jinbo Wang, Xinhua Xu. Application of Distributed Energy Systems in Subtropical and High Density Urban Areas. The 9th International Conference on Applied Energy. August 21~24 2017, Cardiff, UK

    [6] Wenjie Gang, Shengwei Wang, Dian-ce Gao. Impact of Uncertainties on the Application of District Cooling Systems and Individual Cooling Systems. Accepted by the 9th International Symposium on Heating Ventilation and Air Conditioning-the 3nd International Conference on Building Energy and Environment. July 12-15 2015, Tianjin, China.

    [7] Wenjie Gang, Shengwei Wang, Fu Xiao, Dian-ce Gao. Performance Assessment of District Cooling System Coupled with Different Energy Technologies in Subtropical Area. The 7th International Conference on Applied Energy. March 28-31 2015, Abu Dhabi, United Arab Emirates.

    [8] Wenjie Gang, Shengwei Wang, Fu Xiao, Dian-ce Gao, Chengchu Yan. Performance Assessment of District Cooling Systems Based on Uncertainty Analysis at Plan and Design Stage. The 2nd International Conference on Sustainable Urbanization. January 7-9 2015, Hong Kong.

    [9] Dian-ce Gao, Shengwei Wang, Kui Shan, Wenjie Gang. On-site evaluation of fault-tolerant control approaches for enhanced operation and energy performance of building HVAC systems. The 2nd International Conference on Sustainable Urbanization. January 7-9 2015, Hong Kong.

    [10] Wenjie Gang, Shengwei Wang, Fu Xiao, Dian-ce Gao. Feasibility study of the application of district cooling system in subtropical area with various energy resources. The 13th International Conference on Sustainable Energy Technologies. August 25– 28 2014, Geneva, Switzerland.

    [11] Wenjie Gang, Jinbo Wang, Shengwei Wang. Performance analysis and comparison of hybrid ground source heat pump systems based on ANN predictive control. The 5th International Conference on Applied Energy. July 1~4 2013. Pretoria, South Africa.


    中文論文

    [1] 杜前洲, 姜梅,剛文杰, 張沖,王勁柏,基于實測數據的夏熱冬暖地區校園建筑負荷分析,制冷與空調,2019,332),135-142.

    [2] 張沖,王勁柏,剛文杰,李遼.建筑外墻排風隔熱機制的動態傳熱模型及實驗研究,建筑科學,2019 04;2-9

    [3] 剛文杰,王勁柏. 基于預測的復合地源熱泵系統控制方法研究. 制冷與空調 2012; 01:65-59.

    [4] 剛文杰,王勁柏. 基于預測的復合地源熱泵系統控制方法實現. 可再生能源 2012; 01:97-101.

    [5] 剛文杰,代洪浪,楊文廣,王勁柏. 復合式地源熱泵系統三維非穩態數值模型研究. 制冷與空調2012; 26(3): 313-318.

    [6] 剛文杰,王勁柏. 基于預測的復合地源熱泵系統控制方法研究.制冷與空調2012; 26(1):7-11.

    [7] 剛文杰,王勁柏. 土壤換熱器預測模型的研究與優化. 建筑科學 2011; 12:91-95.

    七、專著與標準等

    1. 徐新華,于靖華,王飛飛,剛文杰,沈國民,王勁柏《建筑環境與能源應用工程專業畢業設計指導》, 2020,機械工業出版社





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