Monday, May 15, 2017 | ||||
![]() | WS1 - Heat pumps for nZEB, retrofit and energy flexibility | WS2 - Smart Communities | WS3 - Industrial heat pumps, the next phase | |
![]() | Lunch | |||
![]() | WS4 - Future of Air Conditioning | WS5 - Ground source heat pumps and thermal energy storage systems | WS6 - Heat Pumps and Solar Energy, a win-win combination | WS7 - Community energy supply systems and district heating |
![]() | Welcome reception |
Tuesday, May 16, 2017 | ||||||||||
![]() | Plenary Opening | |||||||||
![]() | Welcome address Per Jonasson, Chairman IOC Merei Wagenaar, Manager Department of Energy Market & Innovation, Ministry of Economic Affairs Stephan Renz, Chairman of IEA Technical Collaboration Program on Heat Pumping Technologies | |||||||||
![]() | Policy Eric Masanet, Head of Energy Demand, Energy Technology Policy Division, the International Energy Agency (IEA) Hans van Steen, DG Energy, European Commission Michael Taylor, International Renewable Energy Agency (IRENA) | |||||||||
![]() | Coffee break and poster session | |||||||||
![]() | Plenary Opening continued - Topical | |||||||||
![]() | PO.01 The role of heat pumps in the transformation of national energy systems - Example Germany Prof. Dr. Hans-Martin Henning, Director, Fraunhofer - Institute for Solar Energy Systems (ISE) | |||||||||
![]() | PO.02 Effectively Managing the Transition to Lower GWP Refrigerants Karim Amrane, Senior Vice President, Air-Conditioning, Heating, and Refrigeration Institute (AHRI) | |||||||||
![]() | PO.03 Stimulating Social Application of Energy-Efficient Technology for Climate Change Mitigation Prof. Kensuke Fukushi, Tokyo University for Integrated Research System for Sustainability Science | |||||||||
![]() | Lunch, poster session and exhibition | |||||||||
![]() | 1.1 Supermarkets Chair: Stephan Renz, Chairman of IEA Technical Collaboration Program on Heat Pumping Technologies | 2.1 Market and Policy Chair: Mr. Hiroshi Okumura, Heat Pump & Thermal Storage Technology Ceter of Japan | 3.1 Air Conditioning Chair: Mr. Van Baxter, Oak Ridge National Laboratory | 4.1 Working Fluids Chair: Rainer Jakobs | ||||||
![]() | K.1.1.1 Performance indicators for energy efficient supermarket buildings Mr. Sietze van der Sluis, Saint Trofee | K.2.1.1 Growing for good? The European Heat Pump Market - Status and outlook Thomas Nowak, General Secretary, European Heat Pump Association (EHPA) | K.3.1.1 Evaluation and Development of Air-conditioners using Low GWP Refrigerant Taira Shigeharu, Daikin Industries, LTD | K.4.1.1 AHRI's Research on Rooftop Packaged Heat Pumps Mr. Xudong Wang, Air-Conditioning, Heating, and Refrigeration Institute (AHRI) | ||||||
![]() | O.1.1.1 Integration of the hidden refrigeration capacity as heat pump in smart energy systems Dr. Torben Funder-Kristensen, Danfoss | O.2.1.1 China air source heat pump market development Cooper Zhao, Vice General Secretary, China Heat Pump Alliance | O.3.1.1 Development of Steady-State Reference Model for Heat Pump System Based on Real-time Machine Learning Algorithm Prof. Dr. Minsung Kim, Chung-Ang University | O.4.1.1 Different ethyl alcohol secondary fluids used for GSHP in Europe Miss. Monika Ignatowicz, KTH Royal Institute of Technology | ||||||
![]() | O.1.1.2 Benefits of integration between heat pumps and food refrigeration systems for commercial applications: an example of efficient energy recovery for Near Zero Energy Buildings Mr. Sergio Maria Capanelli, Carel Industries | O.2.1.2 The U.S. Residential Heat Pump Market, a Decade after “The Crisis” Mr. Edward Vineyard, Oak Ridge National Laboratory | O.3.1.2 Study of In Situ Performance of the VRF Multi-split Air Conditioner for the Commercial Building Mr. Hirotaka Hanazaki, Tokyo Electric Power Company Holdings, inc. | O.4.1.2 Thermodynamic Performance Assessment of R32 and R1234yf Mixtures as Alternatives of R410A Prof. Yunho Hwang, University of Maryland | ||||||
![]() | O.1.1.3 Evaluation of alternatives to R404 the most common refrigerant in Swedish grocery stores Mr. Ola Gustafsson, SP Technical Research Institute of Sweden | O.2.1.3 The Role of Heat Pumps in Renewable Heating and Cooling Mr. Hermann Halozan, Graz University of Technology | O.3.1.3 Advanced Round-Tube, Plate-Fin (RTPF) Heat-Exchanger Coils Contribute to the High Efficiency of Heat Pumps Mr. Nigel Cotton, International Copper Association | O.4.1.3 Performance Optimization of Alternative Lower Global Warming Potential Refrigerants in Mini-Split Room Air Conditioners Dr. Omar Abdelaziz, Oak Ridge National Laboratory | ||||||
![]() | O.1.1.4 Control strategies of CO2 refrigeration / heat pump system for supermarkets Dr. Carlos Infante Ferreira, Delft University of Technology | O.2.1.4 The Heat Pump Market, Its Market Drivers and How to Have an Impact on Them in Finland Mr. Jussi Hirvonen, Finnish Heat Pump Association SULPU ry | O.3.1.4 Investigation of Port Level Flow Maldistribution in Microchannel Heat Exchanger Prof. Reinhard Radermacher, University of Maryland | O.4.1.4 Research on condensation heat transfer of R447A, R134a , R32, R410Aand R1234ze(E) in extrude multi-port tube Dr. Minxia Li, Thermal Energy Research Institute of Tianjin University | ||||||
![]() | Coffee break, poster session and exhibition | |||||||||
![]() | 1.2 Commercial buildings Chair: Stephan Renz, Chairman of IEA Technical Collaboration Program on Heat Pumping Technologies | 2.2 Hybrids Chair: Mr. Hiroshi Okumura, Heat Pump & Thermal Storage Technology Ceter of Japan | 3.2 Air Conditioning Chair: Mr. Van Baxter, Oak Ridge National Laboratory | 4.2 Working Fluids Chair: Rainer Jakobs | ||||||
![]() | O.1.2.1 Heat Pump Pre-Screening Tool for New Commercial and Institutional Buildings Mr. Daniel Giguère, Natural Resources Canada, CanmetENERGY | O.2.2.1 Hybrid Heat Pumps minimize emissions and minimize overall costs Drs. Pieter Nienhuis, NV Nederlandse Gasunie | O.3.2.1 Investigation on effects of piping on heating performance of multi-split variable refrigerant flow system Ms. Ziai Li, Tsinghua University | O.4.2.1 Performance analysis of double-effect absorption heat pump cycle using NH3/ILs pairs Mr. Meng Wang, TU Delft | ||||||
![]() | O.1.2.2 Performance of Chilled Water Storage Assisted Variable Refrigerant Flow System Prof. Yunho Hwang, University of Maryland | O.2.2.2 Design optimisation of hybrid heat pumps for new and retrofit buildings in France Mrs. Michèle Mondot, CETIAT | O.3.2.2 Experimental study on the characteristics of scroll compressor with vapor injection for electric vehicles air conditioning Dr. Xu Shuxue, Beijing University of Technology | O.4.2.2 Application of Viper Energy Recovery Expansion Device in Transcritical Carbon Dioxide Refrigeration Cycle Mr. Riley Barta, Purdue University, Ray W. Herrick Labs | ||||||
![]() | O.1.2.3 Development of compact air heat pump module chiller Mr. Takuya Ito, Mitsubishi electric corporation air-conditioning & refrigeration systems | O.2.2.3 Early results from the FREEDOM project: fully-optimised hybrid heat pumps providing demand flexibility Dr. Edwin Carter, PassivSystems Ltd | O.3.2.3 Steady State Modeling of Advanced Vapor Compression Systems with Multiple Air and Refrigerant Loops Prof. Reinhard Radermacher, University of Maryland | O.4.2.3 Experimental Comparison of Different Two-Phase Refrigerant Distribution Devices Mr. Simon Braungardt, Fraunhofer - Institute for Solar Energy Systems (ISE) | ||||||
![]() | O.1.2.4 A New Dedicated Outdoor Air System with Exhaust Air Heat Recovery Dr. Xiang Cao, Tongji University | O.2.2.4 Full-scale experimental investigation of a heat-pump-based system for maximizing passive solar gains in housing--Preliminary results Prof. Ian Beausoleil-Morrison, Carleton University | O.3.2.4 Compressor Explosion Accident at Pump-Down of Air Conditioners Mr. Tomohiro Higashi, The University of Tokyo | O.4.2.4 Multi-criteria decision making analysis in refrigerant selection for residential heat pump systems Mr. Pavel Makhnatch, KTH Royal Institute of Technology | ||||||
![]() | O.1.2.5 Influence of LED Lamps on Air-conditioning Load and Energy Consumption in Commercial Buildings Prof. Dr. Masafumi Hirota, Mie University | O.2.2.5 Evaluation of combining an air-to-water heat pump with a stove with water pocket for residential heating Dr. Volker Lenz, Deutsches Biomasseforschungszentrum gemeinn | O.3.2.5 Study of A Air-conditioning System Combining A Green Roof as Heat Storage Unit - Analysis of Operating Characteristic of A Reduction Model Apparatus Prof. Dr. Toshio Otaka, Kokushikan University | O.4.2.5 Evaluation of Performance for Heat Pump System using Low GWP Refrigerants in High Ambient Temperature Taira Shigeharu, Daikin Industries, LTD | ||||||
![]() | Poster session and exhibition |
Wednesday, May 17, 2017 | ||||
![]() | 1.3 NZEB Chair: Mrs. Michèle Mondot, CETIAT | 2.3 Smart Grids Chair: Mr. Antonio Bouza, U.S. DOE | 3.3 Industry Chair: Mr. Hermann Halozan, Graz University of Technology | 4.3 Sorption Technologies Chair: Dr. Sophie Hosatte-Ducassy, Natural Resources Canada |
![]() | K.1.3.1 Application of GSHP system in nearly zero energy building (NZEB) Prof. Wei Xu, Chairman, China Committee of Heating Ventilation & Air Conditioning (CCHVAC) | K.2.3.1 Next Generation Heat Pump Systems with Enhanced Smart Grid Response Capability for the United States Market Dr. Ammi Amarnath, Electric Power Research Institute | K.3.3.1 Flexible heat supply and sustainability Jan Grift, Senior Energy Analyst, Energy Matters | K.4.3.1 Adsorption Heat Pumps and Chillers – Recent Developments for Materials and Components Dr. Walter Mittelbach, SorTech AG |
![]() | O.1.3.1 Field Monitoring of a Nearly Zero Energy Building Prof. Carsten Wemhoener, HSR Hochschule für Technik Rapperswil | O.2.3.1 Market driven vs. grid supporting heat pump operation in low voltage distribution grids with high heat pump penetration - an Austrian case study Mr. Matthias Stifter, AIT Austrian Institute of Technology | O.3.3.1 Off-design of high temperature hybrid heat pump Miss. Karoline Kvalsvik, SINTEF | O.4.3.1 Optimization of solar cooling system in Greek hotel including cooling production and rejection heat recovery Mr. Michal Bejček, CTU in Prague |
![]() | O.1.3.2 Developing synergies for automated optimal control of residential heat pumps Mr. Hussain Kazmi, Enervalis and KU Leuven | O.2.3.2 Flexibility of heat pump pools: The use of SG-Ready from an aggregators perspective Mr. David Fischer, Fraunhofer - Institute for Solar Energy Systems (ISE) | O.3.3.2 Theoretical and Experimental Study on High-Temperature Heat Pumps Using a Low GWP Refrigerant Dr. Choyu Watanabe, Chubu Electric Power Co., Inc. | O.4.3.2 Analysis and testing of a novel double-stage adsorption-compression chiller for industrial application Dr. Salvatore Vasta, CNR - Istituto di Tecnologie Avanzate per l |
![]() | O.1.3.3 Investigations of Different Control Strategies for Heat Pump Systems in a Residential nZEB in the Nordic Climate Mr. John Clauß, Norwegian University of Science and Technology | O.2.3.3 Thermal storage improves flexibility of residential heating systems for smart grids Dr. Philipp Schütz, Lucerne University of Applied Sciences and Arts | O.3.3.3 Thermodynamic Analysis on High Temperature Heat Pump cycles using Low-GWP refrigerants for Heat recovery Dr. Sho Fukuda, Kyushu University | O.4.3.3 Residential and Commercial Capacity Absorption Heat Pumps for Space and Domestic Water Heating Applications Mr. Michael Garrabrant, Stone Mountain Technologies, Inc |
![]() | O.1.3.4 The impact of EU nearly-zero energy building (NZEB) regulations on heating choices in buildings Mr. Lukas Bergmann, Delta Energy & Environment | O.2.3.4 Flexibility offered by residential floor heating in a smart grid context: the role of heat pumps and renewable energy sources in optimization towards different objectives Ms. Annelies Vandermeulen, KULeuven | O.3.3.4 Novel Working Fluid, HFO-1336mzz(E), for Use in Waste Heat Recovery Applications Mr. Jason Juhasz, Chemours Comapny | O.4.3.4 Analysis of a compression-assisted absorption heat transformer Prof. Baolong Wang, Tsinghua University |
![]() | Coffee break, poster session and exhibition | |||
![]() | 1.4 NZEB Chair: Mrs. Michèle Mondot, CETIAT | 2.4 Smart Grids Chair: Mr. Antonio Bouza, U.S. DOE | 3.4 Industry Chair: Mr. Hermann Halozan, Graz University of Technology | 4.4 Sorption Technologies Chair: Dr. Sophie Hosatte-Ducassy, Natural Resources Canada |
![]() | O.1.4.1 Prototype Air-Source Integrated Heat Pump Field Evaluation Results Mr. Jeff Munk, Oak Ridge National Laboratory | O.2.4.1 Model predictive HP- and Building control to maximize PV-power on-site use Mr. Rene Rieberer, Graz University of Technology | O.3.4.1 Development of centrifugal chiller and heat pump using low GWP refrigerant Mr. Ryosuke Suemitsu, Mitsubishi Heavy Industries, LTD. | O.4.4.1 Performance Evaluation of Double-Lift Absorption Heat Transformer for Generation of Steam at 180 °C Mr. Ryousuke Moriwaki, Waseda University |
![]() | O.1.4.2 PV and heat pump system with a seasonal storage for NZEB house Mr. Jan Sedlar, Czech Technical University in Prague | O.2.4.2 Heat pump system control: the potential improvement based on perfect prediction of weather forecast and user occupancy Dr. Hatef Madani, KTH Royal Institute of Technology | O.3.4.2 Measured performance of a novel high temperature heat pump with HFO-1336mzz(Z) as the working fluid Mr. Mattias Nilsson, Viking Heat Engines AS | O.4.4.2 Experimental results of an absorption heat transformer Mr. José Corrales Ciganda, TU Berlin |
![]() | O.1.4.3 Comfortable and high-efficient desiccant-enhanced direct expansion heat pump Mr. Yaodong Tu, Shanghai Jiaotong University | O.2.4.3 Home Energy Management Using Retrofit Control Platform Mr. Edward Vineyard, Oak Ridge National Laboratory | O.3.4.3 Refrigerant Selection and Cycle Development for a High Temperature Vapor Compression Heat Pump Mr. Heinz Moisi, Graz University of Technology | O.4.4.3 Hybrid Membrane-based Ionic Liquid Absorption Cycle for Water Heating, Dehumidification, and Cooling Prof. Dr. Saeed Moghaddam, University of Florida |
![]() | O.1.4.4 Experimental EMS of an ASHP using Load Shifting based on Time-of-Use Pricing in Ontario, Canada Mr. Aidan Brookson, Ryerson University | O.2.4.4 A fully operational virtual energy storage network providing flexibility for the power system Dr. Martin Geidl, Swisscom Energy Solutions Ltd | O.3.4.4 Performance analysis of a high-temperature heat pump with ejector based on butane as the refrigerant Dr. Mirza Popovac, Austrian Institute of Technology | O.4.4.4 Heat recovery in milk powder drying by using a liquid sorption process Dr. Michel van der Pal, Energieonderzoek Centrum Nederland (ECN) |
![]() | O.1.4.5 High efficiency heat pumps for low temperature lift applications Prof. Dr. Beat Wellig, Lucerne University of Applied Sciences and Arts - Engineering and Architecture | O.2.4.5 Business Models using the Flexibility of Heat Pumps - A Discourse Mr. David Fischer, Fraunhofer - Institute for Solar Energy Systems (ISE) | O.3.4.5 Techno-economic feasibility study of a system for the transfer of refrigeration capacity from LNG regasification plants to industrial assets Dr. Carlos Infante Ferreira, Delft University of Technology | O.4.4.5 Advanced heat driven hybrid refrigeration and heat pump systems Dr. Zacharie Tamainot-Telto, University of Warwick |
![]() | Lunch, poster session and exhibition | |||
![]() | Dutch Innovation Award by Eneco | |||
![]() | 1.5 Heat pumps in Residential Buildings Chair: Mr. Oliver Sutton, UK Department for Business, Energy and Industrial Strategy | 2.5 Combination Chair: Mr. Jussi Hirvonen, Finnish Heat Pump Association SULPU ry | 3.5 Industry Chair: Dr. Carina Alles, Swiss Federal Office of Energy SFOE | 4.5 Sorption Technologies Chair: Dr. Caroline Haglund Stignor, IEA Heat Pump Centre c/o RISE Research Institutes of Sweden |
![]() | K.1.5.1 10 years of heat pumps monitoring in Germany. Outcomes of several monitoring campaigns. From low-energy houses to un-retrofitted single-family dwellings. Dr. Marek Miara, Fraunhofer - Institute for Solar Energy Systems (ISE) | K.2.5.1 Residential PV replacements offer an opportunity that heat pumps should not miss Krystyna Dawson, BSRIA Ltd | K.3.5.1 Rethink Energy in Industrial Heat Pumps NOW!! Alexander Cohr Pachai, Johnson Controls, UNEP | K.4.5.1 Sustainable data centers and energy conversion technologies Dr. Bruno Michel, Zürich Research Laboratory, IBM-Research |
![]() | O.1.5.1 A micro-heat pump combined with mechanical ventilation including heat recovery - simulation and in situ monitoring Mr. Georgios Dermentzis, University of Innsbruck | O.2.5.1 Smart Building heating, cooling and power generation with solar geothermal combined heat pump system Prof. Dr. Euy-Joon Lee, Korea Institute of Energy Research | O.3.5.1 Rotation Heat Pump (RHP) Mr. Franz Rindler, ecop Technologies GmbH | O.4.5.1 Part load performance of gas fired absorption heat pumps Mr. Paul Schmitt-Gehrke, TU Berlin |
![]() | O.1.5.2 Inverter Drive Control and Seasonal Performance Analysis of a Single Speed Unitary Air-Source Split-System Heat Pump Mr. Nicholas Salts, Purdue University | O.2.5.2 Eligibility of a Heat Pump Based on the Primary Energy Factor Dr. Primož Poredoš, University of Ljubljana, Faculty of mechanical engineering | O.3.5.2 Absorption of CO2-NH3-H2O mixture in mini-channel heat exchangers Ms. Vilborg Gudjonsdottir, Delft University of Technology | O.4.5.2 Opportunity and challenge of developing a hydrophobic membrane-based compact absorption system Mr. Sung Joo Hong, The University of Tokyo |
![]() | O.1.5.3 Low carbon solution for heating and cooling in Multi Family Buildings Mr. Martin Betz, Glen Dimplex | O.2.5.3 Activated building surfaces for space heating and cooling Prof. Carsten Wemhoener, HSR Hochschule für Technik Rapperswil | O.3.5.3 Test results R600 pilot heat pump Mr. Anton Wemmers, Energy Research Center of The Nederlands (ECN) | O.4.5.3 Development of highly performing water-adsorption chiller using new aluminophosphate as water adsorbent Dr. Kanghee Cho, Korea Institute of Energy Research |
![]() | O.1.5.4 Comparison of energy performance of simulated and measured hp systems in existing multi-family buildings Mr. Tuomo Niemelä, Granlund Consulting Oy / Aalto University | O.2.5.4 Performance analysis of a PV driven heat pump system during a heating season in high latitude countries Prof. Dr. Dorota Chwieduk, Institute of Heat Engineering, Faculty of Power and Aeronautical Engineering, Warsaw University of Technology | O.3.5.4 Turbo-compressors: Prototype tests of mechanical vapour re-compression for steam driers Dr. Michael Bantle, SINTEF Energy Research | O.4.5.4 Dynamic modelling of an air-cooled LiBr-H2O absorption chiller based on heat and mass transfer empirical correlations Mr. Joan Farnós, Universitat Polit |
![]() | Coffee break, poster session and exhibition | |||
![]() | 1.6 Cold Climates Chair: Mr. Oliver Sutton, UK Department for Business, Energy and Industrial Strategy | 2.6 District Heating Chair: Mr. Jussi Hirvonen, Finnish Heat Pump Association SULPU ry | 3.6 Daikin Best Student Award Chair: Dr. Carina Alles, Swiss Federal Office of Energy SFOE | 4.6 Sorption Technologies Chair: Dr. Caroline Haglund Stignor, IEA Heat Pump Centre c/o RISE Research Institutes of Sweden |
![]() | O.1.6.1 Turbocompressors for Domestic Heat Pumps - A Critical Review Prof. Dr. Jürg Schiffmann, Ecole Polytechnique Fédérale de Lausanne | O.2.6.1 BIG Solar Graz - Results of a techno-economic feasibility study Mr. Patrick Reiter, S.O.L.I.D., Gesellschaft für Solarinstallation und Design mbH | O.3.6.1 ORC Driven Heat Pump Running on Gas Bearings for Domestic Applications: Proof of Concept and Thermo-Economic Improvement Potential Ms. Violette Mounier, EPFL | O.4.6.1 Non-intrusive characterization of thermally driven heat pumps Mr. Oliver Buchin, Technische Universit |
![]() | O.1.6.2 Study on the Frosting Phenomena between Concavity and Convexity Plate under Forced Convection -Detailed Observation and Analysis of Frost Layer Grouth- Mr. Kenzo Yasui, Waseda University | O.2.6.2 Practical experience on tendering and contracting heat pumps for district heating Mr. Bjarke Paaske, PlanEnergi | O.3.6.2 Comfortable and high-efficient desiccant-enhanced direct expansion heat pump Mr. Yaodong Tu, Shanghai Jiaotong University | O.4.6.2 Liquid Desiccant System Component Models in the Sorption System Simulation Program (SorpSim) Dr. Kyle Gluesenkamp, Oak Ridge National Laboratory |
![]() | O.1.6.3 A new method for preventing air-source heat pump and refrigerator from frosting Dr. Li Zhang, Central Research Institute of Electric Power Industry, Japan | O.2.6.3 Novel district heating and cooling energy network using CO2 as a heat and mass transfer fluid Prof. Dr. Daniel Favrat, Ecole Polytechnique f | O.3.6.3 Different ethyl alcohol secondary fluids used for GSHP in Europe Miss. Monika Ignatowicz, KTH Royal Institute of Technology | O.4.6.3 Molecular Simulation of NH3/Ionic Liquid Mixtures for Absorption Heat Pump Cycles Mr. Meng Wang, TU Delft |
![]() | O.1.6.4 Performance Testing of Cold Climate Air Source Heat Pumps Mr. Daniel Giguère, Natural Resources Canada, CanmetENERGY | O.2.6.4 Pricing strategies for neutral-temperature district heating and cooling networks based on heat pumps Dr. Marco Cozzini, EURAC | O.3.6.4 High Temperature Heat Pump Integration using Zeotropic Working Fluids for Spray Drying Facilities Mr. Benjamin Zühlsdorf, Technical University of Denmark | O.4.6.4 Cycle Simulation and Prototyping of Single-Effect Double-Lift Absorption Chiller Mr. Tatsuo Fujii, Hitachi, Ltd. |
![]() | O.3.6.5 Comparison of energy performance of simulated and measured heat pump systems in existing multi-family residential buildings Mr. Tuomo Niemelä, Granlund Consulting Oy / Aalto University | |||
![]() | Poster session and exhibition | |||
![]() | Conference dinner |
Thursday, May 18, 2017 | ||||
![]() | 1.7 Domestic Hot Water Chair: Dr. Marek Miara, Fraunhofer - Institute for Solar Energy Systems (ISE) | 2.7 Ground Sources Chair: Mrs. Emina Pasic, Swedish Energy Agency | 3.7 Industry Chair: Mr. Svend Pedersen, Danish Technological Institute | 4.7 Gas Driven Technologies Chair: Dr. Peter Schossig, Fraunhofer - Institute for Solar Energy Systems (ISE) |
![]() | K.1.7.1 Vapour Compression Heat Pump Technologies for Domestic Hot Water Heating Prof. Neil Hewitt, Director, Centre for Sustainable Technologies | K.2.7.1 Fundamental Economic Analysis of Ground Source Heat Pumps Markets in North America Denis Tanguay, Senior Energy Consultant and Market Researcher | O.3.7.1 Combined Liquid Chiller and Heat Pump Systems for Data Centre Cooling with High-Temperature Heat Recovery Dr. Jørn Stene, COWI Norway | K.4.7.1 Latest heat pump technologies in Japan Prof. Kiyoshi Saito, Waseda University Tokyo, School of fundamental science and technology |
![]() | O.1.7.1 Performance Investigation of Indoor Air Source Heat Pump Water Heater for Canadian Winter Conditions Dr. Alan Fung, Ryerson University | O.2.7.1 Improved performance of Heat Pumps helps to use full potential of subsurface space for Aquifer Thermal Energy Storage Mr. Martin Bloemendal, Delft University of Technology | O.3.7.2 Integration of Heat Pumps in Industrial Processes with Pinch Analysis Prof. Dr. Beat Wellig, Lucerne University of Applied Sciences and Arts - Engineering and Architecture | O.4.7.1 Design and development of a residential gas-fired heat pump Mr. Edward Vineyard, Oak Ridge National Laboratory |
![]() | O.1.7.2 Comparison of Primary Energy Consumption of Vapor and Non-Vapor Compression Natural Refrigerant Heat Pumps for Domestic Hot Water Applications Dr. Brian Fronk, Oregon State University | O.2.7.2 Model predictive control to Maintain ATES balance using heat pump Prof. Wim Zeiler, TU Eindhoven | O.3.7.3 High temperature thermochemical heat transformation based on SrBr2 Ms. Jana Stengler, German Aerospace Center (DLR) | O.4.7.2 ORC Driven Heat Pump Running on Gas Bearings for Domestic Applications: Proof of Concept and Thermo-Economic Improvement Potential Ms. Violette Mounier, EPFL |
![]() | O.1.7.3 Heat pump for block of flats Mr. Jan Sedlar, Czech Technical University in Prague | O.2.7.3 District Aquifer Thermal Energy Storage (DATES) Mr. Herman Velvis, IF Technology | O.3.7.4 Performance simulation and exergy analysis on multi-stage compression high temperature heat pumps with R1234ze(Z) refrigerant Mr. Bin Hu, Shanghai Jiao Tong University | O.4.7.3 Experimental Evaluation and Concept Demonstration of a Novel Modular Gas-Driven Sorption Heat Pump Mr. Corey Blackman, ClimateWell |
![]() | O.1.7.4 Modeling and Experimental Investigations on Performance of Water Tanks in Circulating Heat Pump Water Heaters Mr. Xiangfei Liang, Gree Electric Appliances, Inc. of Zhuhai | O.2.7.4 A Model Predictive Framework of Ground Source Heat Pump coupled with Aquifer Thermal Energy Storage System in Heating and Cooling Equipment of a Building Mr. Vahab Rostampour, TU Delft | O.3.7.5 Development of a thermoacoustic heat pump for distillation column Dr. Hasan Tijani, Energy research centre of the Netherlands (ECN) | O.4.7.4 Monitoring experience of three fuel driven absorption HP systems Miss. Marica Angela Fumagalli, Politecnico di Milano |
![]() | Coffee break, poster session and exhibition | |||
![]() | 1.8 Domestic Hot Water Chair: Dr. Marek Miara, Fraunhofer - Institute for Solar Energy Systems (ISE) | 2.8 Ground Sources Chair: Mrs. Emina Pasic, Swedish Energy Agency | 3.8 Industry Chair: Mr. Svend Pedersen, Danish Technological Institute | 4.8 Technology Developments Chair: Dr. Peter Schossig, Fraunhofer - Institute for Solar Energy Systems (ISE) |
![]() | O.1.8.1 Performance Evaluation Of A Heat Pump Water Heater By Means Of Thermodynamic Simulation Mr. Kevin Ruben Deutz, EDF Lab | O.2.8.1 Energy and economic analysis of an integrated multi-source heat pump system for a school building Prof. Dr. Renato Lazzarin, University of Padua | O.3.8.1 Waste Heat recovery in industrial batch processes: analysis of combined heat storage and heat pump application Dr. Robert de Boer, Energy Research Center of The Nederlands (ECN) | O.4.8.1 Metal Wire Structures as Heat Transfer Surface Area Enlargement ? Design Study and Potential Analysis for Air-to-Water Heat Pumps Dr. Lena Schnabel, Fraunhofer - Institute for Solar Energy Systems (ISE) |
![]() | O.1.8.2 Solar Heat Pump Standard Assessment Model Dr. Jacob van Berkel, Entry Technology Support BV | O.2.8.2 Integration and use of manifold heat sources for brine/water heat pumps Mr. Ralf Dott, Institute of Energy in Building - FHNW | O.3.8.2 Permanent-magnetic Synchronous Frequency-convertible Centrifugal Compressor and Heat Pump District Heating System Mr. Bin Hu, Shanghai Jiao Tong University | O.4.8.2 Sizing, manufacturing and testing of an evaporator coil for multiple air-borne heat sources Mr. Thore Oltersdorf, Fraunhofer - Institute for Solar Energy Systems (ISE) |
![]() | O.1.8.3 European Regional Climate Zone Modeling of a Commercial Absorption Heat Pump Hot Water Heater Mr. Michael Garrabrant, Stone Mountain Technologies, Inc | O.2.8.3 Ground-source and air-source heat pump system performance at the ASHRAE Headquarters Building Prof. Dr. Jeffrey Spitler, Oklahoma State University | O.3.8.3 Application of an industrial heat pump for steam generation by district heating as heat source Dr. Tor-Martin Tveit, Olvondo Technology AS | O.4.8.3 Transient Acoustic Signatures of the GreenHP with special focus on icing and defrosting Dr. Christoph Reichl, AIT Austrian Instiute of Technology |
![]() | O.1.8.4 Experimental investigation and dynamic modeling of an air to water residential heat pump with vapor injection and variable speed scroll compressor Mr. Bertrand Dechesne, University of Li | O.2.8.4 Dynamic Determination of Ground Thermal Conductivity and Minimum Thermal Response Test Duration Using the Line Source Model Dr. Xiaobing Liu, Oak Ridge National Laboratory | O.3.8.4 Valorization of Industrial Waste Heat bt Heat Pumps based on Case Studies of Project ENPRO Dr. Veronika Wilk, AIT Austrian Institute of Technology GmbH | O.4.8.4 Improved measurement method for heat pump noise Mr. Ola Gustafsson, SP Technical Research Institute of Sweden |
![]() | O.1.8.5 Experimental and Numerical Study of the Dynamic Behavior of an Air to Water Heat Pump Dr. Carles Oliet, Universitat Politècnica de Catalunya | O.2.8.5 Development of Optimum Design Method for the Heat Recovery Ground Source Heat Pump System Dr. Takao Katsura, Hokkaido University | O.3.8.5 The analysis and experimental investigation of heat pump system of R404A and R410A using thermobank and a two-phase ejector Prof. Jong-Taek Oh, Chonnam National University | O.4.8.5 Hardware-in-the-Loop test bench setup and its application to determine seasonal performance of heat pump systems Mr. Markus Nürenberg, RWTH Aachen University, E.ON Energy Research Center, Institute for Energy Efficient Buildings and Indoor Climate |
![]() | Lunch, poster session and exhibition | |||
![]() | 1.9 Domestic Hot Water Chair: Prof. Dr. Minsung Kim, Chung-Ang University | 2.9 Ground Sources Chair: Mrs. Marion Bakker, Netherlands Enterprise Agency | 3.9 Industry Chair: Per Jonasson, Chairman IOC | 4.9 Non Traditional Technologies Chair: Mr. Hermann Halozan, Graz University of Technology |
![]() | K.1.9.1 The Potential and Challenges of Solar Boosted Heat Pumps for Domestic Hot Water Heating Prof. Stephen Harrison, Solar Calorimetry Laboratory | K.2.9.1 Ground Source Heat Pumps - history, development, current status, and future prospects Dr. Burkhard Sanner, Past President, European Geothermal Energy Council | O.3.9.1 Simulation, validation and demonstration of energetic optimization possibilities of industrial drying processes by use of a unique heat pump dryer test bench Mr. Bruno Vanslambrouck, Ghent University | O.4.9.1 The integration of ammonia electrochemical compressor in vapor compression system Prof. Yunho Hwang, University of Maryland |
![]() | O.1.9.1 Analytical model of a multichannel double tube CO2 gas-cooler for a water heater Mr. Kyeongsoo Song, Korea university | O.2.9.1 Improved Methodology for testing the part Load Performance of Water to Water Heat Pumps Dr. Elena Fuentes, Catalonia Institute for Energy Research | O.3.9.2 New industrial chemical heat pump from Qpinch Wouter Ducheyne, Qpinch | O.4.9.2 Analysis on shock waves characteristics of driving flow inside the ejector Mr. Sung Joo Hong, The University of Tokyo |
![]() | O.1.9.2 Efficiency of sanitary hot water heat pumps based on a field test Mr. Sebastian Helmling, Fraunhofer - Institute for Solar Energy Systems (ISE) | O.2.9.2 Nonequilibrium unsteady thermodynamic and spatio-temporal properties of ground source heat pumps Dr. Olga Kordas, KTH - Royal Institute of Technology | O.3.9.3 High Temperature Heat Pump Integration using Zeotropic Working Fluids for Spray Drying Facilities Mr. Benjamin Zühlsdorf, Technical University of Denmark | O.4.9.3 Development of Separate Sensible and Latent Cooling System using Electrochemical Compressor Dr. Omar Abdelaziz, Oak Ridge National Laboratory |
![]() | O.1.9.3 Comparative analysis of two subcritical heat pump boosters using subcooling in order to increase the efficiency of systems with a high water temperature glide Dr. Emilio Navarro-Peris, Universidad Politecnica de Valencia | O.2.9.3 Quantifying Systemic Efficiency using Exergy and Energy Analysis for Ground Source Heat Pumps: Domestic Space Conditioning and Water Heating Applications Dr. Moonis Ally, Oak Ridge National Laboratory | O.3.9.4 Research on Utilization of Waste Heat and Waste Resource in a Soy Protein Powder Plant Prof. Baolong Wang, Tsinghua University | O.4.9.4 An overview of advancements in electrochemical compressor driven heat pump systems Mr. Bamdad Bahar, Xergy Inc. |
![]() | O.1.9.4 Performance analysis and optimization of wrap-around condenser in an air source heat pump water heater system: Numerical and experimental investigation Mr. Haijian Zhou, Tongji University | O.2.9.4 Rebuilding Christchurch - Using Ground Source Heat Pumps Mr. Brian Carey, GNS Science | O.3.9.5 Application of water-circulation type heat pump to lumber drying system Mr. Takenobu Kaida, Central Research Institute of Electric Power Industry | O.4.9.5 Energy Performance of a Liquid Desiccant and Evaporative Cooling-Assisted 100% Outdoor Air System with Cascade Liquid Desiccant System Operation Mr. Joonyoung Park, Hanyang University |
![]() | Coffee break, poster session and exhibition | |||
![]() | Plenary Closing Session, Best Poster Award and Workshop presentations |