从IEA-HP会议跟踪国际热泵发展
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摘要
本文简单介绍了IEA-HP会议的发展历程,并重点对2014年加拿大蒙特利尔举行的第11届国际热泵会议进行汇总分析,介绍当前阶段国际热泵市场特点及国际热泵技术研究关注的重点方向。热泵部件及系统研究、热泵技术应用研究及地源热泵研究是当前国际热泵技术中关注的三个热点。
Heat pump get more attention from the whole world because of its characteristics such as using renewable energy,energy efficiency and environmental protection.This paper reviews the information from the 11 th International heat pump conference which hosted by the International Energy Organization Committee,summarizes the current market characteristics and the research focus of heat pump,and then the future development trend of heat pump technology is also forecasted.
Heat pump get more attention from the whole world because of its characteristics such as using renewable energy,energy efficiency and environmental protection.This paper reviews the information from the 11 th International heat pump conference which hosted by the International Energy Organization Committee,summarizes the current market characteristics and the research focus of heat pump,and then the future development trend of heat pump technology is also forecasted.
引文
[1]Takeshi Hikawa.An overview of recent heat pump trend in Asia/Oceania region.11th IEA HEAT PUMP CONFERENCE.Regional report-Asia.
[2]M.Axell.Europe"Heat pump-status and trends".11th IEA HEAT PUMP CONFERENCE,regional Report-Europe.
[3]Jussi Hirvonen.The success factors behind the rapid growth of the heat pump market in Finland.11th IEA HEAT PUMP CONFERENCE.Paper O.1.5.3.
[4]Yunho Hwang.Harmonizing life cycle climate performance analysis of refrigerants.11th IEA HEAT PUMP CONFERENCE.Paper O.1.1.3.
[5]Pavel Makhnatch.Selection of low GWP refrigerant for heat pump by assessing the life cycle climate performance(LCCP).11th IEA HEAT PUMP CONFERENCE.Paper P.1.10.
[6]Sungjin In,Keumnam Cho,et al.Full and partial load performances of RAC and CAC heat pump using R32.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.4.
[7]Karim Amrane,Xudong Wang.AHRI's research efforts on heat pump.11th IEA HEAT PUMP CONFERENCE.Paper O.2.7.3.
[8]Samuel F,Yana Motta,et al.Latest development in low GWP working fluids for heat pump applications.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.1.
[9]Laurent Dardenne,Enrico Fraccari,et al.A wet-vapour injection and variable speed scroll compressor air to water heat pump model and its fieldtest validation.11th IEA HEAT PUMP CONFERENCE.Paper O.2.2.4.
[10]Sam Gladis.Applications of industrial ammonia heat pumps with single screw compressor technology.11th IEA HEAT PUMP CONFERENCE.Paper O.2.3.3.
[11]Xu Shuxue,Ma Guoyuan,et al.A investigation of the performance of two-stage compression refrigeration heat pump system with dual-cylinder rolling piston compressor.11th IEA HEAT PUMP CONFERENCE.Paper O.2.1.2.
[12]Thomas Walter.Supercharger for heat pumps in cold climates.11th IEA HEAT PUMP CONFERENCE.Paper P.6.5.
[13]Bo Shen,Omar Abdelaziz,et al.Compressor selection and equipment sizing for cold climate heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper P.6.11.
[14]Masafum Katsuta.Recent development in heat pump technology in Japan.11th IEA HEAT PUMP CONFERENCE.Paper KN.2.1.1.
[15]Chad Bower,George Baker,et al.Development of an accelerated thermal cycling test for reversible microchannel heat pump coils.11th IEA EAT PUMP CONFERENCE.Paper P.2.4.
[16]Jiin-Yuh Jang,Bing-Ze Li.Optimization analysis for louver-finned heat exchangers.11th IEA HEAT PUMP CONFERENCE.Paper O.1.7.2.
[17]Ji-Hyun Mun,Dong-Soon Jeon,et al.A study on heat and mass transfer of a plate heat exchanger type dehumidifier.11th IEA HEAT PUMP CONFERENCE.Paper P.2.7.
[18]Young Sung Park,Ji Hwan Jeong,et al.Controlling the evaporation pressure of a heat pump to improve thermal comfort at low cooling load condition.11th IEA HEAT PUMP CONFERENCE.Paper O.2.1.3.
[19]Takashi Yamaguchi,Takao Katsura.Development of a performance prediction tool for the heat pump air conditioning system applying refrigeration cycle.11th IEA HEAT PUMP CONFERENCE.Paper P.2.6.
[20]Kiyoshi Saito,Keisuke Ohno.High accuracy steady state simulation model and simulator for HVAC systems.11th IEA HEAT PUMP CONFERENCE.Paper KN.1.7.1.
[21]Mamoru Hamada,Naomichi Tamura,et al.Energy-saving Technology for multi split-type air conditioning systems for buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.1.7.3.
[22]Yoichi Miyaoka,Yoshinari Iwata,et al.Evaluation of annual energy consumption of multi-split type EHP air conditioner for buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.2.
[23]Masafumi Hirota,Yoshinari Iwata,et al.Research and development of innovative energy saving controls of next-generation multiple airconditioning systems for buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.3.6.3.
[24]Yuma Furuhashi,Yoshihito Taniguchi,et al.Development of the intelligent remote monitoring system for GHP.11th IEA HEAT PUMP CONFERENCE.Paper O.2.7.4.
[25]David Hannl,Rene Rieberer.Absorption/compression cycle for high temperature heat pumps-simulation model,prototype design and initial experimental results.11th IEA HEAT PUMP CONFERENCE.Paper O.3.5.2.
[26]Gerald Zotter,Rene Rieberer.Ammonia/water absorption heat pump with"thermally driven"solution pump.11th IEA HEAT PUMP CONFERENCE.Paper O.3.8.2.
[27]Jiazhen Ling,Vikrant Aute,et al.Development of a control strategy to maximize system performance for heat pump systems.11th IEA HEAT PUMP CONFERENCE.Paper O.3.8.3.
[28]Patrick Ruch,Sarmenio Saliba,et al.Heat-driven absorption chiller systems for sustainable cooling applications.11th IEA HEAT PUMP CONFERENCE.Paper O.3.8.1.
[29]Florian Reissner,Bemd Gromoll,et al.Basic development of a novel high temperature heat pump system using low GWP working fluids.11th IEA HEAT PUMP CONFERENCE.Paper O.2.3.4.
[30]Konstantinos Kontomaris.A non-flammable,zero-ODP,low GWP working fluid for high temperature heat pumps:DR-148.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.2.
[31]Tsukasa Takayama,Yoshinari Iwata,et al.Development of high temperature water circulation type heat pump for industries.11th IEA HEAT PUMP CONFERENCE.Paper O.3.3.3.
[32]Paul de Larminat,Damien Arnou.High temperature magnetic bearing centrifugal heat pump.11th IEA HEAT PUMP CONFERENCE.Paper O.1.8.2.
[33]M.E.H.Tijani,J.A.Lycklama a Nijeholt.Bench scale lectrically driven thermoacoustic heat pump.11th IEA HEAT PUMP CONFERENCE.Paper P.3.13.
[34]Martin Kegel,Justin Tamasauskas,et al.Heat pumps in the Canadian residential sector.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.4.
[35]Janne Heinonen.Heat pump application recovering exhausted air energy in large apartment buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.3.2.2.
[36]Rene Rieberer,Richard Heimrath.Heating of a castle with air-to-air heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.1.
[37]Caroline Haglund Stignor,Kristin Larsson,et al.Improved reliability of Swedish residential heat pump systems.11th IEA HEAT PUMP CONFERENCE.Paper P.5.11.
[38]Stephen L Caskey,Derek Kultgen,et al.Cold climate field test of an airsource heat pump with two-stage compression and economizing.11th IEA HEAT PUMP CONFERENCE.Paper O.1.8.1.
[39]Brice Le Lostec,Herve-Frank Nouanegue.ON-site performance of air source heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.3.
[40]Zhijian Liu,Wei Xu,et al.Operating performance on the application of a water source heat pump and ice storage system of one Chinese typical project.11th IEA HEAT PUMP CONFERENCE.Paper O.3.2.1.
[41]Simon Winiger,Doreen Kalz,et al.Cross comparison by means of longterm measurements:energy and efficiency analysis of heat pump systems in non-residential buildings.11th IEA HEAT PUMP CONFERENCE.Paper P.4.14.
[42]Carsten Wemhoener,Reto Kluser.Heat pump concepts for nearly zero energy buildings-interim results of IEA HPP ANNEX40.11th IEA HEAT PUMP CONFERENCE.Paper KN.2.5.1.
[43]Tadafumi Nishimura,Nobuki Matsui,et al.Experimental evaluation study of the HVAC system with temperature and humidity independent control using separate type air conditioner.11th IEA HEAT PUMP CONFERENCE.Paper O.2.6.2.
[44]Martin Persson,Svein Ruud,et al.Heat pump systems for single family and multifamily Nzeb.11th IEA HEAT PUMP CONFERENCE.Paper O.2.5.2.
[45]Keith Rice,Bo Shen,et al.Development of an air-source heat pump integrated with a water heating/dehumidification module.11th IEA HEAT PUMP CONFERENCE.Paper O.2.6.1.
[46]Moonis Ally,Jeffrey Munk,et al.Measured space condition performance of a vertical-bore ground source heat pump over twelve months under simulated occupancy loads.11th IEA HEAT PUMP CONFERENCE.Paper O.2.5.4.
[47]Kleefkens 0 M.Sc,Spoelstra S..R&D on industrial heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper O.2.7.2.
[48]Choyu Watanabe,Yohji Uchiyama,et al.Pioneering industrial heat pump technology in Japan.11th IEA HEAT PUMP CONFERENCE.Paper O.3.3.2.
[49]Roger Nordman.Industrial heat pumps in dairy industries in Swendencurrent status and outlook.11th IEA HEAT PUMP CONFERENCE.Paper O.3.4.1.
[50]Kazuki Wajima,Kenji Ueda,et al.Development of heat recovery centrifugal heat pump for industrial use.11th IEA HEAT PUMP CONFERENCE.Paper O.3.4.2.
[51]Satoshi Yoshida,Ryozo Ooka,et al.Development of instantaneous hot water dispenser based on water source heat pump.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.3.
[52]Oh Jong-Taek,Choi Kwang,et al.Development of a high efficient heat pump system using seawater heat source and exhaust energy with the automatic decontamination device.11th IEA HEAT PUMP CONFERENCE.Paper O.1.4.3.
[53]Ralf Dott,Thomas Afjei.Evaluation of solar&heat pump system combinations.11th IEA HEAT PUMP CONFERENCE.Paper P.5.6.
[54]Adam Fjaestad,Helene Persson,et al.Two out of three showers for free.11th IEA HEAT PUMP CONFERENCE.Paper P.6.9.
[55]Marco Fossa,Davide Rolando.Improving the ASHRAE method for vertical geothermal borefield design.11th IEA HEAT PUMP CONFERENCE.Paper O.1.3.2.
[56]Marco Fossa,Davide Rolando.Fully analytical finite line source solution for fast calculation of temperature response factors in geothermal heat pump borefield design.11th IEA HEAT PUMP CONFERENCE.Paper O.1.4.1.
[57]Michel Bernier.Sizing and simulating geothermal bore fields using thermal response factors.11th IEA HEAT PUMP CONFERENCE.Paper KN.3.1.1.
[58]Patricia Monzo.A novel numerical model for the thermal response of borehole heat exchanger fields.11th IEA HEAT PUMP CONFERENCE.Paper P.4.11.
[59]V.Godefroy,M.Bernier.A simple model to account for thermal capacity in boreholes.11th IEA HEAT PUMP CONFERENCE.Paper P.4.8.
[60]Jeffrey D.Spitler,Lu Xing,et al.A simple tool for simulation of ground source heat pump systems.11th IEA HEAT PUMP CONFERENCE Paper O.1.4.2.
[61]E.J.Lee,E.Entchev,et al.Photovoltaic thermal integrated ground source heat pump system annual energy performance simulation for a multi-load case.11th IEA HEAT PUMP CONFERENCE.Paper O.3.1.4.
[62]Christian Winteler,Ralf Dott,et al.Heat pump,solar energy and ice storage systems-modelling and seasonal performance.11th IEA HEAT PUMP CONFERENCE.Paper P.3.12.
[63]Takao Katsura,Yasushi Nakamura,et al.Performance analysis and operation improvement of the hybrid GSHP system by using performance prediction tool.11th IEA HEAT PUMP CONFERENCE.Paper P.4.9.
[64]Fabian Ochs,Georgios Dermentzis,et al.Thermodynamic analysis of ground coupled heat pumps with solar thermal regeneration-monitoring and simulation results.11th IEA HEAT PUMP CONFERENCE.Paper P.6.1.
[65]Murat Aydin,Altug Sisman,et al.Experimental measurement and long term predictions of a multi-U tube borehole performance for GSHPs.11th IEA HEAT PUMP CONFERENCE.Paper P.3.9.
[66]Ahmet Gultekin,Murat Aydin,et al.An experimental investigation of the effects of some design and operational parameters on heat transfer rate per unit borehole lenghth.11th IEA HEAT PUMP CONFERENCE.Paper O.1.4.4.
[67]Minsung Kim,Young-jin Baik,et al.Experimental research on direct expansion ground source heat pump system.11th IEA HEAT PUMP CONFERENCE.Paper O.2.8.3.
[68]Xiaobing Liu,Richard A Beier,et al.Field test and evaluation of residential GSHP systems using alternative vertical bore ground heat exchangers.11th IEA HEAT PUMP CONFERENCE.Paper O.3.1.2.
[2]M.Axell.Europe"Heat pump-status and trends".11th IEA HEAT PUMP CONFERENCE,regional Report-Europe.
[3]Jussi Hirvonen.The success factors behind the rapid growth of the heat pump market in Finland.11th IEA HEAT PUMP CONFERENCE.Paper O.1.5.3.
[4]Yunho Hwang.Harmonizing life cycle climate performance analysis of refrigerants.11th IEA HEAT PUMP CONFERENCE.Paper O.1.1.3.
[5]Pavel Makhnatch.Selection of low GWP refrigerant for heat pump by assessing the life cycle climate performance(LCCP).11th IEA HEAT PUMP CONFERENCE.Paper P.1.10.
[6]Sungjin In,Keumnam Cho,et al.Full and partial load performances of RAC and CAC heat pump using R32.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.4.
[7]Karim Amrane,Xudong Wang.AHRI's research efforts on heat pump.11th IEA HEAT PUMP CONFERENCE.Paper O.2.7.3.
[8]Samuel F,Yana Motta,et al.Latest development in low GWP working fluids for heat pump applications.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.1.
[9]Laurent Dardenne,Enrico Fraccari,et al.A wet-vapour injection and variable speed scroll compressor air to water heat pump model and its fieldtest validation.11th IEA HEAT PUMP CONFERENCE.Paper O.2.2.4.
[10]Sam Gladis.Applications of industrial ammonia heat pumps with single screw compressor technology.11th IEA HEAT PUMP CONFERENCE.Paper O.2.3.3.
[11]Xu Shuxue,Ma Guoyuan,et al.A investigation of the performance of two-stage compression refrigeration heat pump system with dual-cylinder rolling piston compressor.11th IEA HEAT PUMP CONFERENCE.Paper O.2.1.2.
[12]Thomas Walter.Supercharger for heat pumps in cold climates.11th IEA HEAT PUMP CONFERENCE.Paper P.6.5.
[13]Bo Shen,Omar Abdelaziz,et al.Compressor selection and equipment sizing for cold climate heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper P.6.11.
[14]Masafum Katsuta.Recent development in heat pump technology in Japan.11th IEA HEAT PUMP CONFERENCE.Paper KN.2.1.1.
[15]Chad Bower,George Baker,et al.Development of an accelerated thermal cycling test for reversible microchannel heat pump coils.11th IEA EAT PUMP CONFERENCE.Paper P.2.4.
[16]Jiin-Yuh Jang,Bing-Ze Li.Optimization analysis for louver-finned heat exchangers.11th IEA HEAT PUMP CONFERENCE.Paper O.1.7.2.
[17]Ji-Hyun Mun,Dong-Soon Jeon,et al.A study on heat and mass transfer of a plate heat exchanger type dehumidifier.11th IEA HEAT PUMP CONFERENCE.Paper P.2.7.
[18]Young Sung Park,Ji Hwan Jeong,et al.Controlling the evaporation pressure of a heat pump to improve thermal comfort at low cooling load condition.11th IEA HEAT PUMP CONFERENCE.Paper O.2.1.3.
[19]Takashi Yamaguchi,Takao Katsura.Development of a performance prediction tool for the heat pump air conditioning system applying refrigeration cycle.11th IEA HEAT PUMP CONFERENCE.Paper P.2.6.
[20]Kiyoshi Saito,Keisuke Ohno.High accuracy steady state simulation model and simulator for HVAC systems.11th IEA HEAT PUMP CONFERENCE.Paper KN.1.7.1.
[21]Mamoru Hamada,Naomichi Tamura,et al.Energy-saving Technology for multi split-type air conditioning systems for buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.1.7.3.
[22]Yoichi Miyaoka,Yoshinari Iwata,et al.Evaluation of annual energy consumption of multi-split type EHP air conditioner for buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.2.
[23]Masafumi Hirota,Yoshinari Iwata,et al.Research and development of innovative energy saving controls of next-generation multiple airconditioning systems for buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.3.6.3.
[24]Yuma Furuhashi,Yoshihito Taniguchi,et al.Development of the intelligent remote monitoring system for GHP.11th IEA HEAT PUMP CONFERENCE.Paper O.2.7.4.
[25]David Hannl,Rene Rieberer.Absorption/compression cycle for high temperature heat pumps-simulation model,prototype design and initial experimental results.11th IEA HEAT PUMP CONFERENCE.Paper O.3.5.2.
[26]Gerald Zotter,Rene Rieberer.Ammonia/water absorption heat pump with"thermally driven"solution pump.11th IEA HEAT PUMP CONFERENCE.Paper O.3.8.2.
[27]Jiazhen Ling,Vikrant Aute,et al.Development of a control strategy to maximize system performance for heat pump systems.11th IEA HEAT PUMP CONFERENCE.Paper O.3.8.3.
[28]Patrick Ruch,Sarmenio Saliba,et al.Heat-driven absorption chiller systems for sustainable cooling applications.11th IEA HEAT PUMP CONFERENCE.Paper O.3.8.1.
[29]Florian Reissner,Bemd Gromoll,et al.Basic development of a novel high temperature heat pump system using low GWP working fluids.11th IEA HEAT PUMP CONFERENCE.Paper O.2.3.4.
[30]Konstantinos Kontomaris.A non-flammable,zero-ODP,low GWP working fluid for high temperature heat pumps:DR-148.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.2.
[31]Tsukasa Takayama,Yoshinari Iwata,et al.Development of high temperature water circulation type heat pump for industries.11th IEA HEAT PUMP CONFERENCE.Paper O.3.3.3.
[32]Paul de Larminat,Damien Arnou.High temperature magnetic bearing centrifugal heat pump.11th IEA HEAT PUMP CONFERENCE.Paper O.1.8.2.
[33]M.E.H.Tijani,J.A.Lycklama a Nijeholt.Bench scale lectrically driven thermoacoustic heat pump.11th IEA HEAT PUMP CONFERENCE.Paper P.3.13.
[34]Martin Kegel,Justin Tamasauskas,et al.Heat pumps in the Canadian residential sector.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.4.
[35]Janne Heinonen.Heat pump application recovering exhausted air energy in large apartment buildings.11th IEA HEAT PUMP CONFERENCE.Paper O.3.2.2.
[36]Rene Rieberer,Richard Heimrath.Heating of a castle with air-to-air heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.1.
[37]Caroline Haglund Stignor,Kristin Larsson,et al.Improved reliability of Swedish residential heat pump systems.11th IEA HEAT PUMP CONFERENCE.Paper P.5.11.
[38]Stephen L Caskey,Derek Kultgen,et al.Cold climate field test of an airsource heat pump with two-stage compression and economizing.11th IEA HEAT PUMP CONFERENCE.Paper O.1.8.1.
[39]Brice Le Lostec,Herve-Frank Nouanegue.ON-site performance of air source heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper O.2.4.3.
[40]Zhijian Liu,Wei Xu,et al.Operating performance on the application of a water source heat pump and ice storage system of one Chinese typical project.11th IEA HEAT PUMP CONFERENCE.Paper O.3.2.1.
[41]Simon Winiger,Doreen Kalz,et al.Cross comparison by means of longterm measurements:energy and efficiency analysis of heat pump systems in non-residential buildings.11th IEA HEAT PUMP CONFERENCE.Paper P.4.14.
[42]Carsten Wemhoener,Reto Kluser.Heat pump concepts for nearly zero energy buildings-interim results of IEA HPP ANNEX40.11th IEA HEAT PUMP CONFERENCE.Paper KN.2.5.1.
[43]Tadafumi Nishimura,Nobuki Matsui,et al.Experimental evaluation study of the HVAC system with temperature and humidity independent control using separate type air conditioner.11th IEA HEAT PUMP CONFERENCE.Paper O.2.6.2.
[44]Martin Persson,Svein Ruud,et al.Heat pump systems for single family and multifamily Nzeb.11th IEA HEAT PUMP CONFERENCE.Paper O.2.5.2.
[45]Keith Rice,Bo Shen,et al.Development of an air-source heat pump integrated with a water heating/dehumidification module.11th IEA HEAT PUMP CONFERENCE.Paper O.2.6.1.
[46]Moonis Ally,Jeffrey Munk,et al.Measured space condition performance of a vertical-bore ground source heat pump over twelve months under simulated occupancy loads.11th IEA HEAT PUMP CONFERENCE.Paper O.2.5.4.
[47]Kleefkens 0 M.Sc,Spoelstra S..R&D on industrial heat pumps.11th IEA HEAT PUMP CONFERENCE.Paper O.2.7.2.
[48]Choyu Watanabe,Yohji Uchiyama,et al.Pioneering industrial heat pump technology in Japan.11th IEA HEAT PUMP CONFERENCE.Paper O.3.3.2.
[49]Roger Nordman.Industrial heat pumps in dairy industries in Swendencurrent status and outlook.11th IEA HEAT PUMP CONFERENCE.Paper O.3.4.1.
[50]Kazuki Wajima,Kenji Ueda,et al.Development of heat recovery centrifugal heat pump for industrial use.11th IEA HEAT PUMP CONFERENCE.Paper O.3.4.2.
[51]Satoshi Yoshida,Ryozo Ooka,et al.Development of instantaneous hot water dispenser based on water source heat pump.11th IEA HEAT PUMP CONFERENCE.Paper O.1.2.3.
[52]Oh Jong-Taek,Choi Kwang,et al.Development of a high efficient heat pump system using seawater heat source and exhaust energy with the automatic decontamination device.11th IEA HEAT PUMP CONFERENCE.Paper O.1.4.3.
[53]Ralf Dott,Thomas Afjei.Evaluation of solar&heat pump system combinations.11th IEA HEAT PUMP CONFERENCE.Paper P.5.6.
[54]Adam Fjaestad,Helene Persson,et al.Two out of three showers for free.11th IEA HEAT PUMP CONFERENCE.Paper P.6.9.
[55]Marco Fossa,Davide Rolando.Improving the ASHRAE method for vertical geothermal borefield design.11th IEA HEAT PUMP CONFERENCE.Paper O.1.3.2.
[56]Marco Fossa,Davide Rolando.Fully analytical finite line source solution for fast calculation of temperature response factors in geothermal heat pump borefield design.11th IEA HEAT PUMP CONFERENCE.Paper O.1.4.1.
[57]Michel Bernier.Sizing and simulating geothermal bore fields using thermal response factors.11th IEA HEAT PUMP CONFERENCE.Paper KN.3.1.1.
[58]Patricia Monzo.A novel numerical model for the thermal response of borehole heat exchanger fields.11th IEA HEAT PUMP CONFERENCE.Paper P.4.11.
[59]V.Godefroy,M.Bernier.A simple model to account for thermal capacity in boreholes.11th IEA HEAT PUMP CONFERENCE.Paper P.4.8.
[60]Jeffrey D.Spitler,Lu Xing,et al.A simple tool for simulation of ground source heat pump systems.11th IEA HEAT PUMP CONFERENCE Paper O.1.4.2.
[61]E.J.Lee,E.Entchev,et al.Photovoltaic thermal integrated ground source heat pump system annual energy performance simulation for a multi-load case.11th IEA HEAT PUMP CONFERENCE.Paper O.3.1.4.
[62]Christian Winteler,Ralf Dott,et al.Heat pump,solar energy and ice storage systems-modelling and seasonal performance.11th IEA HEAT PUMP CONFERENCE.Paper P.3.12.
[63]Takao Katsura,Yasushi Nakamura,et al.Performance analysis and operation improvement of the hybrid GSHP system by using performance prediction tool.11th IEA HEAT PUMP CONFERENCE.Paper P.4.9.
[64]Fabian Ochs,Georgios Dermentzis,et al.Thermodynamic analysis of ground coupled heat pumps with solar thermal regeneration-monitoring and simulation results.11th IEA HEAT PUMP CONFERENCE.Paper P.6.1.
[65]Murat Aydin,Altug Sisman,et al.Experimental measurement and long term predictions of a multi-U tube borehole performance for GSHPs.11th IEA HEAT PUMP CONFERENCE.Paper P.3.9.
[66]Ahmet Gultekin,Murat Aydin,et al.An experimental investigation of the effects of some design and operational parameters on heat transfer rate per unit borehole lenghth.11th IEA HEAT PUMP CONFERENCE.Paper O.1.4.4.
[67]Minsung Kim,Young-jin Baik,et al.Experimental research on direct expansion ground source heat pump system.11th IEA HEAT PUMP CONFERENCE.Paper O.2.8.3.
[68]Xiaobing Liu,Richard A Beier,et al.Field test and evaluation of residential GSHP systems using alternative vertical bore ground heat exchangers.11th IEA HEAT PUMP CONFERENCE.Paper O.3.1.2.