heatpumpingtechnologies.org

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Home - HPT - Heat Pumping Technologies

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Home - HPT - Heat Pumping Technologies

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Welcome to IEA’s Technology Collaboration Programme on Heat Pumping Technologies (HPT TCP), an international framework for cooperation and networking.

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locale en_US
type website
title Home - HPT - Heat Pumping Technologies
description Welcome to IEA’s Technology Collaboration Programme on Heat Pumping Technologies (HPT TCP), an international framework for cooperation and networking.
url https://heatpumpingtechnologies.org/
site_name HPT - Heat Pumping Technologies
image https://heatpumpingtechnologies.org/content/uploads/2025/11/hpt_tcp_fb_fallback_img.jpg
image:width 1200
image:height 675
image:type image/jpeg

Niveaux de titre

H1 H2 H3 H4 H5 H6
1 2 28 59 120 0
  • [H1] Heat Pumping Technologies Driving Transition Through Innovation
  • [H2] HPT Magazine & Newsletter
  • [H2] Technology Collaboration Programme on Heat Pumping Technologies (HPT TCP)
  • [H3] In the Spotlight
  • [H3] Launching HPT TCP Project 69
  • [H3] Launching HPT TCP Project 70
  • [H3] 15th IEA Heat Pump Conference 2026
  • [H3] Heat Pumping Technologies Magazine Issue 3, 2025 Explores the Role of Heat Pumps in Industrial Process Heat
  • [H3] Introductory information
  • [H3] Deep-dive
  • [H3] News
  • [H3] Launching HPT TCP Project 70
  • [H3] Launching HPT TCP Project 69
  • [H3] Heat Pumps and Thermal Networks – a win-win solution
  • [H3] High-Temperature Heat Pumps Move from Innovation to Industrial Reality
  • [H3] HPT TCP National Experts meeting October 30
  • [H3] Call for abstracts for the 15th IEA Heat Pump Conference is now open!
  • [H3] Join the online IEA HPT TCP National Experts meeting on the 15th of October 2024, 13-16 CEST – register now!
  • [H3] Chillventa CONGRESS 2024 Set to Showcase Innovative Heat Pump Technologies Explored within the HPT TCP by IEA
  • [H3] Launching HPT TCP Project 70
  • [H3] Launching HPT TCP Project 69
  • [H3] Meet HPT TCP at the European Heat Pump Summit in Nuremberg! 
  • [H3] Nominate for the Peter Ritter von Rittinger Award
  • [H3] New Competence Centre for Heat Pumps in Italy
  • [H3] International Collaboration for a Future Sustainable and Resilient Energy System – Highlights From Exco Meeting Events in Freiburg
  • [H3] Key Takeaways from the European Heat Pump Summit (EHPS)
  • [H3] Krakow Energizes the Clean Heat Transition: Highlights from Decarb Cities 2025
  • [H3] Analysing the Flexibility Potential of Heat Pumps and Electric Vehicles
  • [H3] International Experts Identify New Priority Areas for Future Heat Pumping Technologies Research and Innovation
  • [H3] High-Quality Heat Pumps Driving China’s Green Transformation
  • [H3] Report from the 31st SFOE Conference on Swiss Heat Pump Research
  • [H4] What is a Heat Pump?
  • [H4] Frequently Asked Questions
  • [H4] Heat Pump Types and Applications
  • [H4] Different Factors, Different Markets
  • [H4] Efficient and Sustainable Heating in Buildings
  • [H4] Efficient and Sustainable Cooling in Buildings
  • [H4] Heat Pumps for Single Family Buildings
  • [H4] Heat Pumps for Multi Family Buildings
  • [H4] Heat Pumps for Commercial and Institutional Buildings
  • [H4] Heat Pumps in District Heating and Cooling for Cities and Communities
  • [H4] Heat Pumps for Process Heating and Cooling
  • [H4] Industrial Heat Recovery with Heat Pumps
  • [H4] Heat Pumps for Drying in Industrial Applications
  • [H4] Heat Pumps in District Heating and Cooling for Cities and Communities
  • [H4] Heat Pumps in Transport
  • [H4] Heat Pumps in White Goods
  • [H4] Heat Pumps in Agriculture: Clean Energy for a Greener Harvest
  • [H4] Heat Pumps in Supermarkets
  • [H4] Publications
  • [H4] Articles
  • [H4] Case studies
  • [H4] Projects
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Publications
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Articles
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Case studies
  • [H4] Projects
  • [H5] Project 68 – Industrial High-Temperature Heat Pumps, Task 1: Technologies, 2025
  • [H5] HPT TCP Annual Report 2024
  • [H5] Annex 54 Country Report: Austria
  • [H5] Sweden: Heat Pump Market Report
  • [H5] AI-Driven Predictive Control for Data Center HVAC Systems
  • [H5] Large Temperature Lifts: A Major Challenge? The Future of Industrial Process Heat
  • [H5] GB003 Kensa & Thurrock Council, Chadwell St Mary
  • [H5] GB002 Kensa & Together Housing, Daisyfield
  • [H5] GB001 Poole, UK
  • [H5] Flexibility from Heat Pumps
  • [H5] Enhanced Miniaturized Components
  • [H5] Industrial High-Temperature Heat Pumps
  • [H5]
  • [H5] Annex 53 Advanced Cooling/Refrigeration Technologies Development Final Report
  • [H5] Annex 53 Advanced Cooling/Refrigeration Technologies Development Executive Summary
  • [H5] Annex 53 Advanced Cooling/Refrigeration Technologies 2 page summary
  • [H5] Paper No 147 – Resorption heat pump development – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 282 – Modelling and Simulation of a Thermoelectric Heat Pump with Micro-Channel Heat Transfer – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 413 – High temperature test results and application cases of a Rotation Heat Pump – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Case study report for Studenthuset, Stockholm, Sweden Long-term performance analysis of the GSHP system for a student union building
  • [H5] Paper No 343 – Performance of a State-of-Art Packaged Heat Pump for Residential Space Conditioning and Hot Water – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 522 – A modified effectiveness-based approach in performance prediction of simultaneous heat and mass transfer in heat pump operating conditions – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 298 – Tracking the carbon impact of space heating appliances from cradle to grave – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 311 – Towards integral assessment of heat pumps and refrigerants using LCA: A case study for the German building stock – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 684 – Economic and Environmental considerations for the deployment of VHTHPs in European markets – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Annex 56 – Digitalization and IoT for Heat Pumps Final Report
  • [H5] Annex 56 Digitalization and IoT for Heat Pumps Executive Summary
  • [H5] Annex 56 Digitalization and IoT for Heat Pumps 2-page summary
  • [H5] Project 68 – Industrial High-Temperature Heat Pumps, Task 1: Technologies, 2025
  • [H5] Annex 58 High-Temperature Heat Pumps 2 page summary
  • [H5] Annex 58 High-Temperature Heat Pumps Executive Summary
  • [H5] Heat pump systems with low-GWP refrigerants Executive Summary
  • [H5] Annex 54 Country Report: Austria
  • [H5] Annex 54 Heat Pump Systems with Low GWP Refrigerants 2 page summary
  • [H5] Annex 57 Enhancing Electrical Grid Flexibility Through Heat Pump 2 page summary
  • [H5] Enhancing Electrical Grid Flexibility Through Heat Pumps Executive Summary
  • [H5] Annex 57 Flexibility by Implementation of Heat Pump in Multi-Vector Energy Systems Final Report
  • [H5] Paper No 199 – An energetical, exergetical and experimental analysis of an absorption-heat exchanger used as transfer sub-station in an already existing district heating grid – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 201 – Fields of application of large-scale heat pumps and challenges in planning – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 277 – New Perspectives for the Application of large-scale Heat Pumps – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 90 – Application of multipurpose heat pumps in museums: a case study – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 142 – Efficiency Improvement Of A High Capacity Transcritical CO2 Heat Pump For Human Comfort In Large Buildings – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 303 – Heat pump system performance measurement in Annex 52 – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Case study report for Studenthuset, Stockholm, Sweden Long-term performance analysis of the GSHP system for a student union building
  • [H5] Paper No 829 – Performance Analysis of Hybrid Ground Source Heat Pump and PVT System for Nordic Climate – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 878 – General classification of heat pumps solutions for multi-family buildings – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 298 – Tracking the carbon impact of space heating appliances from cradle to grave – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 331 – A Review of Recent Residential Heat Pump Systems and Applications in Cold Climates – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Paper No 343 – Performance of a State-of-Art Packaged Heat Pump for Residential Space Conditioning and Hot Water – 14th IEA Heat Pump Conference, Chicago, USA
  • [H5] Future-Proofing Buildings for Heat Pump-Integrated 5th Generation District Heating and Cooling: How Building Renovation and Optimal Control Shape Network Performance 
  • [H5] Outperforming the Heating Curve with Data-Driven Model Predictive Control  
  • [H5] Applying Artificial Neural Networks for Predicting the COP of a Stirling-Based High-Temperature Heat Pump
  • [H5] Column: Heat Pumps: Powering the Future of Sustainable Heating and Cooling
  • [H5] Sorption and Non-Traditional Technologies Sessions
  • [H5] Column: Diversification of heat-pump-related technologies
  • [H5] When the Electric Car Moves In-Coordinated Control of Heat Pumps and Electric Car Charging
  • [H5] Early-stage Guidance on Heat Pump Retrofit for Non-domestic Buildings: Interim Results from Annex 60
  • [H5] Speeding Up the Roll-Out of Heat Pumps With Lessons from Archetypal Outcome-Led Packaged Retrofit Solutions
  • [H5] Future-Proofing Buildings for Heat Pump-Integrated 5th Generation District Heating and Cooling: How Building Renovation and Optimal Control Shape Network Performance 
  • [H5] Outperforming the Heating Curve with Data-Driven Model Predictive Control  
  • [H5] Applying Artificial Neural Networks for Predicting the COP of a Stirling-Based High-Temperature Heat Pump
  • [H5] Topical Article: Enhancing Energy Efficiency in Large-Scale Heat Pumps Using Digital Twins for Set Point Optimization
  • [H5] Topical Article: Roll-Out of Large-Scale Heat Pumps as A Key Factor for The German Energy & Heat Transition
  • [H5] Non-Topical Article: Joining Forces to Encourage High-Temperature Heat Pumps in Swiss Industries
  • [H5] Oil Meets Cool: Inside the World of Lubricant-Refrigerant Properties
  • [H5] Modeling Leaks of Flammable Refrigerants
  • [H5] Review of Heating and Cooling Applications where HCs have been Introduced as Refrigerants and Future Perspectives of their Use
  • [H5] When the Electric Car Moves In-Coordinated Control of Heat Pumps and Electric Car Charging
  • [H5] Column: Heat Pumps: Powering the Future of Sustainable Heating and Cooling
  • [H5] Topical Article: Efficiency and Flexibility: A UK Perspective on Heat Pumps in the Electricity System
  • [H5] Domestic Heat Pumps Using Hydrocarbons: Current Status and Market Overview in Europe
  • [H5] Creating an Investment Climate for Clean District Heating
  • [H5] Topical Article: The Cost of CO2 Emissions Abatement in Micro Energy Communities
  • [H5] Early-stage Guidance on Heat Pump Retrofit for Non-domestic Buildings: Interim Results from Annex 60
  • [H5] Scaling up Heat Pump Retrofit: What Do We Need to Do?
  • [H5] Non-Topical Article: Reducing Capital Cost for Geothermal Heat Pump Systems Through Dynamic Borefield Sizing
  • [H5] Broadening Horizons: Heat Pumps for Every Apartment
  • [H5] Heat pump retrofit projects for multifamily buildings –An obstacle run
  • [H5] Heat pumps in multi-family buildings, drivers and barriers
  • [H5] When the Electric Car Moves In-Coordinated Control of Heat Pumps and Electric Car Charging
  • [H5] Speeding Up the Roll-Out of Heat Pumps With Lessons from Archetypal Outcome-Led Packaged Retrofit Solutions
  • [H5] Topical Article: Cold Climate Heat Pumps in the US: Updates from the Refrigerant to the Electrical Grid
  • [H5] High-performance air-to-water heat pumps
  • [H5] Flagship sustainable living in Kringlan, Stockholm
  • [H5] nearly Zero Energy Building (nZEB) Herzogenaurach, Germany
  • [H5] Paper pulp drying, France
  • [H5] Air-dried beef, Bündnerfleisch, Switzerland
  • [H5] Feed drying, Arla Foods, Denmark
  • [H5] Paper pulp drying, France
  • [H5] Biomass drying, Lindum, Norway
  • [H5] Sthlmflex – Creating and testing a flexibility market in Stockholm
  • [H5] Large heat pumps in Stockholm
  • [H5] New forms of cooperation in the energy market (#klok_el) in Uppsala
  • [H5] Sthlmflex – Creating and testing a flexibility market in Stockholm
  • [H5] Large heat pumps in Stockholm
  • [H5] Smart heat – Combining district heating and geothermal heat pumps in order to optimize heat consumption and reduce heating costs in Gothenburg
  • [H5] High-performance air-to-water heat pumps
  • [H5] Flagship sustainable living in Kringlan, Stockholm
  • [H5] nearly Zero Energy Building (nZEB) Herzogenaurach, Germany
  • [H5] Industrial High-Temperature Heat Pumps
  • [H5] Digital Services for Heat Pumps
  • [H5] Optimal Heat Pump Design and Operation: An International Collection of Common Techniques to Accelerate Broader Acceptance
  • [H5] Heat Pumps in a Circular Economy
  • [H5] Safety Measures for Flammable Refrigerants
  • [H5] Placement Impact on Heat Pump Acoustics
  • [H5] Heat Pumps for Multi-Family Residential Buildings in Cities
  • [H5] Heat Pumps in Positive Energy Districts
  • [H5] Retrofitting Heat Pump Systems in Large Non-domestic Buildings
  • [H5] Heat Pumps for Drying
  • [H5] High-Temperature Heat Pumps
  • [H5] Flexibility by implementation of heat pumps in multi-vector energy systems and thermal networks
  • [H5] Internet of Things for Heat Pumps
  • [H5] Comfort and Climate Box
  • [H5] Heat pump systems with low Global Warming Potential (GWP) refrigerants
  • [H5] Advanced Cooling/Refrigeration Technologies Development
  • [H5] Long term performance measurement of GSHP Systems serving commercial, institutional and multi-family buildings
  • [H5] Acoustic Signature of Heat Pumps
  • [H5] Heat Pumps in Multi-Family Buildings for space heating and DHW
  • [H5] Design and integration of heat pumps for nZEB
  • [H5] Industrial Heat Pumps, Second Phase

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