【Research and Teaching Field】
Building Automation System
Intelligent Building and Home
Indoor Environment Control and Optimization
Building Commissioning
【Education】
1989.09-1993.07, Department of Environmental Engineering, Wuhan Urban construction Institute, Bachelor
1998.09-2001.07, Department of Thermal Engineering, Tsinghua University, Master
2001.10-2004.07, Department of Urban and Environmental Engineering, Kyoto University, Japan, Ph.D
【Work Experience】
1993.07-1998.09, Design engineer, Yantai Architectural Design and Research Institute
2004.08-2009.03, Assistant Professor, Department of Urban and Environmental Engineering, Kyoto University, Japan
2009.08- now,Associate professor, Department of building science, Tsinghua University
【Social Work】
Expert committee member of Intelligent Building Branch, Chinese Building Construction Association
Expert committee member of Digital City Branch, Chinese City Science Research Association
Expert committee member of Smart Energy, Chinese City Science Research Association
Editor, Journal of Intelligent Building
Special member of Building Services Commissioning Association of Japan
Reviewer of International Journal Energy and Buildings, Building and Environment, Energy, Energy Efficiency, Building Simulation, HVAC&R Research
【Teaching Course】
[1] Theoretical course for undergraduate students
Building Automation System, 3-credit, 48-class-hour, spring semester, 35 students, 2009-now
[2] Practical course for undergraduate students
HVAC field operation practice, 3-credit, 160-hour, summer semester, 35 students, 2009-now
[3] Theoretical course for graduate students
Frontier of Building Automation Research, 2-credit, 32-class-hour, spring semester, 35 students, 2015-now
【Research Projects】
[1] Simulation study on the control of gas engine driven multiple split type heat pump(PI: Harunori Yoshid, Member: Fulin Wang, Hiroachi Kitagawa, Keiji Matsumoto),Air-conditioner manufacturer(Yanmar)sponsored project,2004-2006
[2] Effect of using green plants to improve energy efficiency of air-conditioners (PI: Fulin Wang, Member: Harunori Yoshida, Michiko Yamashita, Masao Hirose),Nissan Science Foundation and Japanese Ministry of Education, Culture, Sports, Science and Technology sponsored project, 2005-2007
[3] Re-commissioning and optimization of district heating and cooling plant (PI: Harunori Yoshida, Member: Fulin Wang, Hirotake Shigu, Hironobi Tsuji, Fumihiro, Ayabe), Energy service company and electric power company sponsored project, 2005-2009
[4] Remote control strategy for the air-conditioners in Kyoto University (PI: Harunori Yoshida, Member: Fulin Wang, Bo Li, Takeshi Hashimoto), Air-conditioner manufacturer sponsored project, 2007-2009
[5] Perception-based integrated indoor environment control considering both comfort and energy (PI: Yi Jiang, Member: Fulin Wang, Zhuo Mao, Qianchuan Zhao, Qingshan Jia, Li Xia, Yin Zhao, Biao Sun), Tsinghua-United Technologies Corporation Research Institute for Building Energy, Safety, and Control sponsored project,2 009-now
[6] Construction and development strategy for intelligent building and home (PI: Yi Jiang, Member: Fulin Wang, Zheliang Chen, Rui Ma) , China Academy of Engineering sponsored project, 2012-2014
[7] Development of home heating automation system (PI: Fulin Wang, Member:, Zheliang Chen) , private company sponsored project, 2013-2015
[8] Development of natural ventilation automation system (PI: Fulin Wang, Member:, Zheliang Chen, Chen Chen) , private company sponsored project, 2013-now
【Design work】
[1] HVAC design for Shopping Mall in Yantai Developing Area of Economics and Technology, 50000m2,1993-1994.
[2] HVAC design for Yantai Hualian Shopping Mall,35000m2,1995
[3] HVAC design for Office Building of Yantai Transportation Company22000m2,1996
[4] HVAC design for Yantai Seafood Restarant,12000m2,1996
[5] HVAC design for Tongshen High-rise residential building,36000m2,1997
[6] Boiler plant design for Yantai Airport, 2×10 t/h,1997
[7] District heating pipeline design for Yantai Qishan area 1998。
【Awards】
[1] 2014 best paper of Society of Heating, Air-conditioning, and Sanitary Engineers, The optimal operational combination of multi-heat source michines, Eikichi Ono, Harunori Yoshida, Fulin Wang, Shin Horigawa, Hiromasa Tanaka, Hideaki Takamura, 2015
[2] 2013 best paper of Intelligent building, Measures of ensuring the performance of VAV systems, Fulin Wang, 2014
[3] 2012 best paper of Intelligent building, Technologies for achieving energy efficiency of intelligent buildings, Fulin Wang, Zhuo Mao, 2013
[4] 2012 most impacted paper of Intelligent building, Standard function description method for designing building automation systems, Meiting Wang, Fulin Wang, Ziyan Jiang, 2013
[5] 2010 QSI Best Application Paper Award Finalist in IEEE Conference on Automation Science and Engineering (CASE2010) for the paper entitled “An Integrated Control of Shading Blinds, Natural Ventilation and HVAC Systems for Energy Saving and Human Comfort,” Biao Sun, Peter Luh, Qing-Shan Jia, Ziyan Jiang, Fulin Wang, and Chen Song, Aug. 21-24, 2010, Toronto, Ontario, Canada.
[6] Best presentation of Kinki Branch of Society of Heating, Air-conditioning, and Sanitary Engineers, Using hydroponic-cultivated green roof plant to improve air-conditioners’ energy efficiency, 2008
[7] The first prize of best green building design, Ministry of Housing, Urban-rural development, the library design of Shangdong Jiaotong College, 2007
[8] The Second reward of capital construction science and technology, Computer-aided design for HVAC systems, 2004
[9] The third prize of Beijing Science and Technology, the application of computer simulation in HVAC design, 2005
[10] The second prize of best Shandong architectural design, Yantai Xinmu shopping mall, 1998
[11] The second prize of best paper, Annual conference of Shandong HVAC and refrigeration association, 1997
[12] The third prize of best paper, Annual conference of Shandong HVAC and refrigeration association, 1996
【Patent】
[1] New utility model patent, A two-way Interaction Human-machine-interface for Building Environment Control, Yi Jiang, Fulin Wang, Ziyan Jiang, Yu Hou, Qianchuan Zhao, Yi Liu, Fan Zhang, Yi Jiang, ZL201020292981.9, 2011
[2] New utility model patent, A thermal environment control system based on personalized thermal sensations, Yin Zhao, Qianchuan Zhao, Fulin Wang, Yi Jiang, Zhuo Mao, Fangting Song, ZL201220275110.5, 2013
[3] New utility model patent, An integrated indoor environment control system based on comfort perceptions, Yi Jiang, Fulin Wang, Qianchuan Zhao, Ziyan Jiang, Qingshan Jia, Peilun Rao, Liang Ma, Jing Wen, Fangting Song, Zhuo Mao,Yin Zhao, Biao SunZL201220426993.5, 2013
[4] New utility model patent, Multi-dimensional comfort indoor environment control system based on user behaviors learning, ZL201320416241. 5,Li Xia, Qianchuan Zhao, Yin Zhao, Zhijin Cheng, Fulin Wang, Fangting Song, 2014
[5] Invention patent, A thermal environment control system based on personalized thermal sensations, ZL201210192140.4,Yin Zhao, Qianchuan Zhao, Fulin Wang, Yi Jiang, Zhuo Mao, Fangting Song, 2014
【Books】
[1] Fulin Wang, Ensure Energy Efficiency of HVAC Systems. Shanghai: Shanghai Popular Science Press, 2006, ISBN: 7542732196
[2] Fulin Wang, Harunori Yoshida, Energy Efficiency – A Bridge to Low Carbon Economy, Published by InTech, Rijeka, Croatia , March 2012, ISBN 978-953-51-0340-0, pp.203-224
[3] Development Report on Intelligent Buildings in China, September 2013, Beijng, China Architecture and Building Press. (in Chinese) , ISBN 9787112156825
[4] National Standard of People’s Republic of China GB50339-2013, Code for Acceptance of Quality of Intelligent Building Systems, November 2013, Beijng, China Architecture and Building Press, ISBN 1511223757 (in Chinese)
[5] National Standard of People’s Republic of China JGJ/T334-2014, Code for engineering of Building Automation Systems, November, Beijng, China Architecture and Building Press., ISBN 1511223975 (in Chinese)
【期刊論文】
[1] 王福林,陳哲良,江億,趙千川,程志金,郭枝,鐘志鵬,“基于熱感覺的室內(nèi)熱環(huán)境控制”,《暖通空調(diào)》,2015年
[2] Zheliang Chen, Fei Xue, Fulin Wang, A novel control logic for fan coil unit considering both room temperature and humidity control, Building Simulation, Vol. 8-1 (2015), pp. 27-37. DOI: 10.1007/s12273-014-0189-0, SCI檢索號(hào): 000344734500004
[3] 馬蕊,王福林,陳哲良,北京市智能家居與社區(qū)現(xiàn)狀調(diào)研與分析,《智能建筑》,2014年第12期,pp. 29-34
[4] 馬蕊,王福林,陳哲良,智能家居用戶需求調(diào)查分析,《智能建筑》,2014年第11期,pp. 13-18
[5] Yuan Su, Fulin Wang, Yue Fan, Heating and cooling load characteristics comparison between normal building and low energy consumption building, Applied Mechanics and Materials, Vols. 672-674 (2014), pp. 1855-1858, DOI: 10.4028/www.scientific.net/amm.672-674.1855
[6] Qianchuan Zhao, Yin Zhao, Fulin Wang, Yi Jiang, Yi Jiang, Fan Zhang, Preliminary study of learning individual thermal complaint behavior using one-class classifier for indoor environment control, Building and Environment, Vol. 72 (2014), pp. 201-211. DOI: 10.1016/j.buildenv.2013.11.009. SCI檢索號(hào): 000331019600019. EI Accession number:20135117104524
[7] Qianchuan Zhao, Yin Zhao, Fulin Wang, Jinlong Wang, Yi Jiang, Fan Zhang, A data-driven method to describe the personalized dynamic thermal comfort in ordinary office environment: From model to application, Building and Environment, Vol. 72 (2014), pp. 309-318. DOI: 10.1016/j.buildenv.2013.11.008. SCI檢索號(hào): 000331019600027. EI Accession number: 20141417534576
[8] CHEN Zheliang, WANG Fulin, An Investment-Benefit Assessing Approach for Intelligent Buildings, Applied Mechanics and Materials Vol. 507 (2014) pp 157-162, doi:10.4028/www.scientific.net/AMM.507.157. SCI檢索號(hào)000338600200030, EI Accession number: 20140817358613
[9] 王福林,確保VAV系統(tǒng)性能的技術(shù)措施-從設(shè)計(jì)到調(diào)試到運(yùn)行,《智能建筑》,2013年第12期,pp. 30-33
[10]馬蕊,王福林,智能家居系統(tǒng)的節(jié)能應(yīng)用,《節(jié)能》,2013年第10期,pp. 51-53
[11] Biao Sun, PeterB. Luh, Qing-Shan Jia, Ziyan Jiang, Fulin Wang, and Chen Song, Building Energy Management: Integrated Control of Active and Passive Heating, Cooling, Lighting, Shading, and Ventilation Systems, IEEE TRANSACTIONS ON AUTOMATION SCIENCE AND ENGINEERING, VOL. 10, NO. 3, JULY 2013, pp. 588-602, DOI: 10.1109/TASE.2012.2205567, SCI檢索號(hào)000321339200013, EI Accession number: 13599274
[12]王福林,基于物聯(lián)網(wǎng)技術(shù)的智能化技術(shù)應(yīng)用,《中國(guó)醫(yī)院建筑與裝備》,2013年7期,pp.34-35
[13]王福林,毛焯,實(shí)現(xiàn)智能建筑節(jié)能功效的技術(shù)措施探討,《智能建筑》,2012年11期,pp.54-58
[14]王美婷,王福林,姜子炎,《建筑設(shè)備監(jiān)控系統(tǒng)工程技術(shù)規(guī)范》中的標(biāo)準(zhǔn)化功能描述方法介紹,《智能建筑》,2012年10期,pp. 23-25
[15]蘇媛,高口洋人,王福林,Evaluation on Energy Consumption Characteristics and Effect of Energy Conservation Measures in University Campus Buildings in Northern China, 日本建築學(xué)會(huì)環(huán)境系論文集,第77巻,第677號(hào),2012年7 月,pp. 605-614
[16]Zhuo Mao, Fulin Wang , Teng Gao, Yunchuang Dai , Qianchuan Zhao, Yin Zhao, Biao Sun, Jing Guo, Fan Zhang, Research of the room occupant complaining behavior pattern for the indoor environmental control, Advanced Materials Research Vols. 374-377 (2012) pp. 1064-1067, doi:10.4028/www.scientific.net/AMR.374-377.1064, SCI citation number 000309192500219, EI Accession number: 20114814559956
[17]張昌,王福林,吉田治典,建筑設(shè)備系統(tǒng)最優(yōu)化運(yùn)行技術(shù),《暖通空調(diào)》,2010年03期,pp.73-78
[18]姜子炎,韓福桂,王福林,二次泵系統(tǒng)中逆向混水現(xiàn)象的分析和解決方案,《暖通空調(diào)》,2010年08期,pp.51-56
[19]Fulin Wang, Harunori Yoshida and Eikichi Ono, Methodology for optimizing the operation of heating/cooling plants with multi-heat-source equipments, Energy and Buildings Vol. 41, 2009, pp.416–425, doi:10.1016/j.enbuild.2008.11.012. SCI檢索號(hào)000264704700007, EI Accession number: 20091011945621
[20]F. Wang, H. Yoshida, K. Matsumoto: Energy Consumption Estimation for Room Air-conditioners Using Room Temperature Simulation with One-Minute Intervals, Journal of Harbin Institute of Technology, Vol.13, 2006.9, pp. 341-347,核心期刊
[21]H. Shingu, R. Nakajima, H. Yoshida, F. Wang: Retro-Commissioning and Improvement for District Heating and Cooling System Using Simulation, Journal of Harbin Institute of Technology, Vol.13, 2006.9, pp. 385-392,核心期刊
[22]Fulin Wang, Harunori Yoshida, Hiroaki Kitagawa, Keiji Matsumoto, Kyoko Goto, Model-based Commissioning for Filters of Room Air-conditioner, International Journal of Energy and Buildings, Vol. 37/12, 2005, pp. 1225-1233. doi:10.1016/j.enbuild.2005.01.004. SCI檢索號(hào)000232683100003, EI Accession number: 20091011945621
[23]Fulin Wang, Horunori Yoshida, and Masato Miyata, Total Energy Consumption Model of Fan Subsystem Suitable for Continuous Commissioning, ASHRAE Transactions, Vol. 110, 2004, pp. 357-364. EI檢索號(hào)2004228189892
[24]Kazuya Takahashi, Harunori Yoshida, Yuzo Tanaka, Noriko Aotake and Fulin Wang, Heat Flux Measurement of Urban Boundary Layers in Kyoto City and Its Prediction by CFD Simulation, International Journal of Energy and Buildings, Vol. 36 (2004), pp. 771-779. doi:10.1016/j.enbuild.2004.01.033 . SCI檢索號(hào)000223033400005, EI Accession number: 2004278247310
[25]Fulin Wang, Economic Prediction of HVAC Systems at Different Design Stages, ASHRAE Transactions, Vol. 109, 2003, Part1, pp. 157-166. EI檢索號(hào)2003307561720
【會(huì)議論文】
[1] Peizhang Chen, Fulin Wang, and Zheliang Chen, Simulation Study of Thermal Sensation Based Control for Single Family Type Distributed Heating Systems, Proceedings of ASim2014, the 2nd Asian Conference of International Building Performance Simulation Association (IBPSA), Nagoya Japan, 2014.11, pp. 380-386
[2] Lin Xiao, Fulin Wang, Yachun Gao, Gong Tang, Yiwen Di, Yangyang Qian, and Xuan Luo, Simulation Study of Automated Blinds Control Strategy for Minimizing Cooling and Lighting Energy Consumptions, Proceedings of ASim2014, the 2nd Asian Conference of International Building Performance Simulation Association (IBPSA), Nagoya Japan, 2014.11, pp. 387-394
[3] Fulin Wang, Zheliang Chen, and Peizhang Chen, Measures of ensuring energy efficient operation of buildings with automation systems, Proceedings of ICEBO2014, the 14th International Conference for Enhanced Building Operations, Beijing China, 2014.9
[4] Fulin Wang, Zheliang Chen, Yi Jiang, Qianchuan Zhao, Yin Zhao, Preliminary study on perception-based indoor thermal environment control, Proceedings of the 13th International Conference on Indoor Air Quality and Climate (Indoor Air 2014), July 7-12, 2014, Hong Kong.
[5] Zheliang Chen, Fulin Wang, An investment-benefit assessing approach for intelligent buildings, Proceedings of the 3rd International Conference on Civil Engineering and Transportation, December 14-15, 2013, Kunming, China, pp. 157-162, DOI: 10.4028/www.scientific.net/AMM.507.157, SCI citation number 000338600200030, EI Accession number: 20140817358613
[6] Zheliang Chen, Pinshu Yang, Fulin Wang, Study on the Optimal Control Strategy for Condensing Side of Chiller Systems, Proceedings of the 8th International Symposium on Heating, Ventilation and Air Conditioning, October 19-21, 2013, Xi'an, China, Volume 3, pp. 187-195, DOI: 10.1007/978-3-642-39578-9_20, SCI citation number 000337595000020, EI Accession number: 20140917366470
[7] Yin Zhao, Qianchuan Zhao, Fulin Wang, Yi Jiang, Fan Zhang, Modeling Individual Complaint Behavior in Daily Office Environment Using a Novel One-Class, Multi-linear Classifier, 2013 10th IEEE International Conference on Control and Automation (ICCA2013), 12-14 June 2013, Hangzhou, China, pp. 1850-1855, DOI: 10.1109/ICCA.2013.6564953, SCI citation number 000324335200322, EI Accession number: 13679876
[8] Yin Zhao, Qianchuan Zhao, Li Xia, Zhijin Cheng, Fulin Wang, Fangting Song, A unified control framework of HVAC system for thermal and acoustic comforts in office building, 2013 IEEE International Conference on Automation Science and Engineering, CASE2013, 17-20 August 2013, Madison, WI, United states, pp. 416-421, DOI: 10.1109/CoASE.2013.6653964, SCI citation number 13889311, EI Accession number: 20140217177411
[9] Cheng Zhijin, Xia, Li, Zhao Qianchuan1, Zhao Yin, Wang Fulin, Song Fangting, Integrated control of blind and lights in daily office environment, 2013 IEEE International Conference on Automation Science and Engineering, CASE 2013, 17-20 August 2013, Madison, WI, United states, pp. 587-592, DOI: 10.1109/CoASE.2013.6653972, SCI citation number 13889278, EI Accession number: 20140217177419
[10]Zhuo Mao , Fulin Wang , Zheliang Chen , Jinlei Ding, Experimental study on the influence of energy use information on occupant behavior, Proceedings of APEC Conference on Low Carbon Town and Physical Energy Storage, Proceedings, May 25-26, 2013, Changsha, Hunan, China, pp. 292-296
[11] Fei Xue, Kelin Li, Fulin Wang, Simulation Study on the Performances of Different FCU Control Logics, Proceedings of ASim2012, International Building Performance Simulation Association (IBPSA) Asia Conference, Shanghai, 2012.11
[12]Zhuo Mao, Fulin Wang , Teng Gao, Yunchuang Dai , Qianchuan Zhao, Yin Zhao, Biao Sun, Jing Guo, Fan Zhang, Research of the room occupant complaining behavior pattern for the indoor environmental control,2011 International Conference on Technology of Architecture and Structure (ICTAS-2011), Xian, 2011.9, Advanced Materials Research Vols. 374-377, pp 1064-1067, Xian, China, EI Accession number: 20114814559956
[13]Xin Wang, Fulin Wang, Qingpeng Wei, Economic operation of an electricity-driven heat-pump DHC plant with large thermal storages, 10th IEA Heat Pump Conference, 2011.8, Session 8.25, Tokyo, Japan
[14]Yin Zhao, Qianchuan Zhao, Fulin Wang, Yi Jiang and Fan Zhang, On-line adaptive personalized dynamic thermal comfort (PDTC) model using recursive least square estimation, Proceedings of 2011 International Conference on Intelligent Building and Management, pp.275-279, Singapore
[15]Sun, Biao; Luh, Peter B. ; Jia, Qing-Shan ; Jiang, Ziyan ; Wang, Fulin ; Song, Chen, An integrated control of shading blinds, natural ventilation, and HVAC systems for energy saving and human comfort, Proceedings of 2010 IEEE International Conference on Automation Science and Engineering, pp.1-7, August 2010, EI Accession number: 20104613386290
[16] Fulin Wang, Harunori Yoshida, Michiko Yamashita: Prediction of the Energy Savings of a System Combining Air-conditioner’s Outdoor Unit with Hydroponic-cultivated Roof Plant, Proceedings of the 6th International Symposium on Heating, Ventilating and Air Conditioning - ISHVAC09, Nanjing, China, pp. 419-427, 2009.11, EI Accession number: 20104613381801
[17] Fulin Wang, Harunori Yoshida, Bo Li, Noriko Umemiya, Satoshi Hashimoto, Takaaki Matsuda, Hideo Shinbayashi, Evaluation and Optimization of Air-conditioner Energy Saving Control Considering Indoor Thermal Comfort, Proceeding of the 11th International Building Performance Simulation Association Conference, Building Simulation 2009, Glasgow, UK, pp.88-95, 2009.7
[18] Hirotake Shingu, Harunori Yoshida, Fulin Wang, Eikichi ONO: Preliminary Retro-Commissioning Study on Optimal Operation for the Heat Source System of a district heating/cooling plant, The 8th International Conference of Enhanced Building Operation, Berlin, Paper No. 128a, 2008.10
[19] Fulin Wang, Harunori Yoshida, Michiko Yamashita: Improving Air-conditioners’ Energy Efficiency Using Hydroponic Roof Plants, Proceedings of the 29th AIVC Conference in 2008, Kyoto, Japan, pp. 131-136, 2008.10
[20]Satoshi HASHIMOTO, Takaaki MATSUDA, Hideo SHINBAYASHI, Harunori YOSHIDA, Fulin WANG and Kazuhiro SHIOTA: An energy-saving method for air-conditioning system by using weather forecast, Proceedings of Conference: Air Conditioning and the Low Carbon Cooling Challenge, Cumberland Lodge, Windsor, UK, 27-29 July 2008
[21] Fulin Wang, Harunori Yoshida, Eikichi Ono and Hirotake Shingu: Methodology for optimizing the operation of heating/cooling plants with multi-heat source equipments using simulation,Proceedings of the 9th International Building Performance Simulation Association Conference,Building Simulation 2007 (BS2007), Beijing, China, pp. 529-536, 2007, 9
[22]E. Ono, H. Yoshida, F. Wang, H. Shingu: Study on Optimizing the Operation of Heat Source Equipments in an actual Heating/Cooling Plant Using Simulation, Building Simulation 2007, pp.580-587, 2007.9
[23]F. Wang, H. Yoshida, K. Matsumoto: Energy Consumption Estimation for Room Air-conditioners Using Room Temperature Simulation with One-Minute Intervals, International Conference of Enhanced Building Operation, Shenzhen, Vol.4-3-5, 2006.11
[24] H. Shingu, R. Nakajima, H. Yoshida, F. Wang: Retro-Commissioning and Improvement for District Heating and Cooling System Using Simulation, International Conference of Enhanced Building Operation, Shenzhen, Vol.6-6-6, 2006.11
[25] Fulin Wang, Harunori Yoshida, Satoshi Masuhara1, Hiroaki Kitagawa, and Kyoko Goto, Simulation-Based Automated Commissioning Method for Air-Conditioning Systems and Its Application Case Study, Proceedings of the 9th International Building Performance Simulation Association Conference, Building Simulation 2005 (BS2005), Montreal, Canada, pp. 1307-1314
[26] Fulin Wang, Harunori Yoshida, and Kyoko Goto, Model-based Commissioning method For Fix-plate Energy Recovery Unit in Building Ventilation Systems, Proceedings of the 10th International Conference on Indoor Air Quality and Climate (Indoor Air 2005), Beijing, China, pp. 1132-1137.
[27]Fulin Wang, Harunori Yoshida, Hiroaki Kitagawa, Keiji Matsumoto, Kyoko Goto, Model-based Commissioning for Filters of Room Air-conditioner, Proceedings of The 4th International Conference for Enhanced Building Operation (ICEBO 2004), Paris, France, 2004.
[28] Masato Miyata, Harunori Yoshida, Masahiko Asada, Fulin Wang, Fault Detection and Diagnosis Method for VAV Terminal Units, Proceedings of The 4th International Conference for Enhanced Building Operation (ICEBO 2004), Paris, France, 2004.10.
[29] Harunori Yoshida, H. Vaezi-Nejad, D. Choiniere, Fulin Wang, Requirements For Commissioning HVAC Systems Using BEMS And Commissioning The BEMS Itself Based On Questionnaire Surveys, Proceedings of The 4th International Conference of Enhanced Building Operation (ICEBO 2004), Paris, France, 2004.10.
[30]Fulin Wang and Harunori Yoshida, A Continuous Commissioning Tool Based on Operation Record and Simulation, Proceedings of the 8th International Building Performance Simulation Association Conference, Building Simulation 2003 (BS2003), Eindhoven, Netherlands, Vol. III, pp. 1347-1353.
[31] Kazuya Takahashi, Harunori Yoshida, Yuzo Tanaka, Noriko Aotake and Fulin Wang, Heat Flux Measurement of Urban Boundary Layers in Kyoto City and Its Prediction by CFD Simulation, Proceedings of the 8th International Building Performance Simulation Association Conference, Building Simulation 2003 (BS2003), Eindhoven, Netherlands, Vol. III, pp. 1265-1272.
[32] Fulin Wang, Harunori Yoshida, Ippei Matsuoka, Makoto Tsubaki, and Kanako Itou, Experiment Study On Continuous Commissioning a Real VAV System, Proceedings of the 4th International Symposium on Heating, Ventilating and Air Conditioning (ISHVAC2003), Beijing, China, 2003, Vol. II, pp. 959-966. EI Accession number: 2004398376416
[33]Fulin Wang, Yi Jiang and Harunori Yoshida, Building HVAC Systems Economic Performance Evaluation Using Neural Network Method At Beginning of Design, Proceedings of International Conference with the theme Advances in Building Technology (ABT2002), Hong Kong, China, 2002, Vol. II, pp. 1265-1272.
[34]Harunori Yoshida, Yuuya Iguchi, Ippei Matsuoka, and Fulin Wang, Total Optimal Operation for HVAC system with Heat Source and Distribution System, Proceedings of International Conference with the theme Advances in Building Technology (ABT2002), Hong Kong, China, 2002, Vol. II, pp. 1297-1304.
[35]Fulin Wang, Qingmei Qi, Zhifeng Xue, Qingpeng Wei, Yi Jiang, and Xianting Li, Conducting a High-rise Building Design Work by Simulation of DeST, Proceedings of International Conference of Air-conditioning in High-rise Buildings (ACHRB’2000), Shanghai, China, 2000, pp. 71-76.
[36]王福林,薛志峰,萬(wàn)水娥. 深圳文化中心全年冷熱工況模擬分析. 全國(guó)暖通空調(diào)制冷2000年學(xué)術(shù)年會(huì)論文集。
[37]王福林, 齊慶梅,薛志峰,魏慶芃,江億. 運(yùn)用DeST模擬分析知道北京某高層建筑設(shè)計(jì). 全國(guó)暖通空調(diào)制冷2000年學(xué)術(shù)年會(huì)論文集。
[38] 孫華,燕達(dá),王福林等.北京市旅館類建筑測(cè)試與分析(三): 風(fēng)系統(tǒng)現(xiàn)狀及分析,空調(diào)系統(tǒng)常見問題分析. 全國(guó)暖通空調(diào)制冷2000年學(xué)術(shù)年會(huì)論文集。
[39]王霖, 夏建軍,王福林等. 北京市旅館類建筑測(cè)試與分析(四): 蒸汽系統(tǒng)現(xiàn)狀及分析,空調(diào)系統(tǒng)常見問題分析. 全國(guó)暖通空調(diào)制冷2000年學(xué)術(shù)年會(huì)論文集。
[40]韓福桂,姜子炎,王福林,二級(jí)泵系統(tǒng)中逆向混水現(xiàn)象的模擬分析和解決方案,全國(guó)暖通空調(diào)制冷2010年學(xué)術(shù)年會(huì)論文集。
[41]常晟, 姜子炎, 王福林, 空調(diào)箱串級(jí)控制策略:模擬與實(shí)例, 全國(guó)暖通空調(diào)制冷2010年學(xué)術(shù)年會(huì)論文集。
[42]毛焯, 王福林, 高騰, 代允闖, 趙千川, 趙寅, 孫彪, 郭靜, 用于室內(nèi)環(huán)境控制的房間用戶抱怨行為模式研究,全國(guó)暖通空調(diào)制冷2012年學(xué)術(shù)年會(huì)資料集。
[43]王福林,陳哲良,江億,趙千川,趙寅,基于舒適感的室內(nèi)熱環(huán)境控制初步研究,全國(guó)暖通空調(diào)制冷2014年學(xué)術(shù)年會(huì)論文集。
[44]小野永吉,新宮浩丈,吉田治典,王福林,辻裕伸,綾部文博,中根功博,吉成晃一,地域冷暖房熱源システムの復(fù)コミッショニングと最適運(yùn)転に関する研究,(その4)運(yùn)転モード自動(dòng)決定ツールと既存システムの検証,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2008.3,pp.69-72
[45]新宮浩丈,小野永吉,吉田治典,王福林,辻裕伸,綾部文博,中根功博,吉成晃一,地域冷暖房熱源システムの復(fù)コミッショニングと最適運(yùn)転に関する研究,(その5)新設(shè)システムの検証と運(yùn)転改善法の提案,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2008.3,pp.73-76
[46]山下道子,吉田治典,王福林,水気耕栽培屋上緑化を利用した冷房熱源の効率向上に関する研究,(その1)水気耕栽培屋上緑化の冷卻効果の実測(cè)および解析,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2008.3,pp.161-164
[47]王福林,吉田治典,山下道子,水気耕栽培屋上緑化を利用した冷房熱源の効率向上に関する研究,(その2)冷房熱源の効率向上予測(cè),空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2008.3,pp.253-256
[48]小野永吉,吉田治典,王福林,新宮浩丈,堀川晉,田中宏昌,高村秀明,シミュレーションを用いた実複合熱源システムの最適組合せ運(yùn)転法に関する研究,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2007.3,pp.49-52
[49]新宮浩丈,吉田治典,王福林,小野永吉,辻裕伸,綾部文博,中根功博,地域冷暖房熱源システムの復(fù)コミッショニングと最適運(yùn)転に関する研究,(その3)冷凍機(jī)冷卻水溫度設(shè)定値の最適化及び実験検証,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2007.3,pp.53-56
[50]王福林,吉田治典, 小野永吉,新宮浩丈,堀川晉 ,田中宏昌,高村秀明:シミュレーションを用いた複合熱源システムの最適組合せ運(yùn)転法に関する研究,その1最適組合せ運(yùn)転方法に関して,空気調(diào)和?衛(wèi)生工學(xué)會(huì)學(xué)術(shù)講演論文集,pp.2129-2132,2007.9,
[51]小野永吉,吉田治典,王福林,新宮浩丈,堀川晉,田中宏昌,高村秀明:シミュレーションを用いた複合熱源システムの最適組合せ運(yùn)転法に関する研究,(その2)実建物での応用例,空気調(diào)和?衛(wèi)生工學(xué)會(huì)學(xué)術(shù)講演論文集,pp.2133-2136,2007.9
[52]新宮浩丈,吉田治典,王福林,小野永吉,辻裕伸:地域冷暖房熱減システムの復(fù)コミッショニング及び最適冷卻水溫度に関する研究,空気調(diào)和?衛(wèi)生工學(xué)會(huì)學(xué)術(shù)講演論文集,pp.2105-2108,2007.9
[53]王福林,吉田治典,松本圭司,エアコンの稼動(dòng)を考慮した1分間隔の室溫シミュレーションに関する研究,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2006.3,pp.25-28
[54]新宮浩丈,中島里恵,吉田治典,王福林,辻裕伸,綾部文博,地域冷暖房熱源システムの復(fù)コミッションニングと最適運(yùn)転に関する研究その1,熱源システムのモデル化,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2006.3,pp.93-96
[55]中島里恵,新宮浩丈,吉田治典,王福林,辻裕伸,綾部文博,地域冷暖房熱源システムの復(fù)コミッションニングと最適運(yùn)転に関する研究その2,運(yùn)転モードの可視化による運(yùn)転方法の検証と改善運(yùn)転法の提案,空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2006.3,pp.97-100
[56]王福林,吉田治典,北川博章,松本圭司,後藤今日子:モデルに基づくエアコンディショナーにおけるフィルタ-の性能検証,平成16年度空気調(diào)和?衛(wèi)生工學(xué)會(huì)大會(huì)講演論文集, pp. 1331-1334。
[57]王福林,吉田治典,松本圭司,1分間隔の室溫シミュレーションによるエアコンのエネルギー消費(fèi)量の推定,空気調(diào)和?衛(wèi)生工學(xué)大會(huì)論文集,2006.9,pp.143-146
[58]山本一郎,鄭明傑,伊藤嘉奈子,王福林,山口弘雅,橋本幸博,田中英紀(jì),吉田治典,ビルマルチパッケージ空調(diào)システム試運(yùn)転調(diào)整/機(jī)能性能試験に関するアンケート調(diào)査,空気調(diào)和?衛(wèi)生工學(xué)大會(huì)論文集,2006.9,pp.1013-1016
[59] 新宮浩丈,中島里恵,吉田治典,王福林,既設(shè)地域冷暖房熱源システムの複コミッショニングと最適運(yùn)転法の提案,空気調(diào)和?衛(wèi)生工學(xué)大會(huì)論文集,2006.9,pp.1913-1916
[60]王福林,吉田治典,北川博章,後藤今日子:モデルに基づく直交流型プレートフィン式全熱交換器の性能検証,平成17年度空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2005.9,pp. 77-80。
[61] 北川博章,吉田治典,王福林,後藤今日子:マルチユニット空調(diào)システムのエネルギー消費(fèi)の検証と省エネルギー改善に関する研究,平成17年度空気調(diào)和?衛(wèi)生工學(xué)會(huì)近畿支部學(xué)術(shù)研究発表會(huì)論文集,2005.9,pp. 73-76。
[62]北川博章,吉田治典,王福林,後藤今日子:マルチユニット空調(diào)システムの省エネルギー改善に関する研究,2005.9,平成17年度空気調(diào)和?衛(wèi)生工學(xué)會(huì)大會(huì)講演論文集,pp. 1005-1008。
[63]王福林,吉田治典,増?jiān)苁?,北川博章,後藤今日子:シミュレーションを基づくエアコンディショナーの自動(dòng)的性能検証,IBPSA-Japan 講演論文集,2005.9,pp. 135-139。
[64]北川博章,吉田治典,王福林,松本圭司,後藤今日子:空調(diào)システムの実測(cè)熱負(fù)荷とシミュレーション熱負(fù)荷の比較検証,平成16年度空気調(diào)和?衛(wèi)生工學(xué)會(huì)大會(huì)講演論文集, 2004.9, pp. 361-364。
[65]新宮浩丈,吉田治典,王福林,中島里恵:地域冷暖房熱源システムの最適な運(yùn)転方法に関する研究,日本建築學(xué)會(huì)近畿支部研究報(bào)告集,第46號(hào),環(huán)境系,2006.6,pp.149-153
[66]王福林,吉田治典,松本圭司: 1分間隔の室溫シミュレーション法の精度検証,日本建築學(xué)會(huì)大會(huì)學(xué)術(shù)講演梗概集,D2,2006. 9,pp183-184
[67]新宮浩丈,中島里恵,吉田治典,王福林:既設(shè)地域冷暖房熱源システムの最適運(yùn)転手法の提案-複コミッショニングへの応用-,日本建築學(xué)會(huì)大會(huì)學(xué)術(shù)講演梗概集,D2,pp1245-1246,2006. 9
[68]北川博章,吉田治典,王福林,後藤今日子:マルチユニット空調(diào)システムのエネルギー消費(fèi)の検証に関する研究,平成17年度日本建築學(xué)會(huì)大會(huì)學(xué)術(shù)講演梗概集,2005.9,pp. 1127-1130。
[69]王福林,吉田治典,後藤今日子:コミッショニングのための換気熱交換器のモデル化に関する研究,平成17年度日本建築學(xué)會(huì)大會(huì)學(xué)術(shù)講演梗概集,2005.9,pp. 1349-1350。
[70]山下道子,吉田治典,王福林:水気耕栽培屋上緑化を利用した冷房熱源の効率向上に関する研究(その1) 水気耕栽培屋上緑化の冷卻効果の実測(cè)および解析, 日本建築學(xué)會(huì)大會(huì)學(xué)術(shù)講演梗概集, 2008.9,pp.1015-1016
[71]王福林,吉田治典,山下道子:水気耕栽培屋上緑化を利用した冷房熱源の効率向上に関する研究(その2) 冷房熱源の効率向上予測(cè), 日本建築學(xué)會(huì)大會(huì)學(xué)術(shù)講演梗概集, 2008.9, pp.1017-1018