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Last Updated: Apr 26, 2025 | Study Period: 2024-2030
The European air source heat pump market is expected to grow at a CAGR of 6.4% from 2023 to 2030, reaching a value of USD XX billion by 2030. The key drivers of this growth are the increasing demand for energy-efficient heating and cooling solutions, government support and incentives, technological advancements, and rising awareness about environmental benefits.
Hybrid air source heat pumps combine the benefits of air source heat pumps with other heating technologies, such as gas boilers. This makes them a more attractive option for consumers in colder climates, where air source heat pumps may not be as efficient. Smart air source heat pumps can be connected to the internet and controlled remotely. This makes them more convenient and efficient to operate.
Growing demand for air source heat pumps in commercial applications ,air source heat pumps are increasingly being used in commercial applications, such as offices, hotels, and retail stores. This is being driven by the need to reduce energy costs and emissions.
The upfront cost of installing an air source heat pump is relatively high. This can be a barrier to adoption for some consumers. Many consumers are not aware of the benefits of air source heat pumps. This can hinder market growth.
There is a shortage of skilled labor in the air source heat pump industry. This can make it difficult to find qualified installers, which can delay installation projects. The performance of air source heat pumps can be affected in cold climates. This is because the air is colder and there is less heat energy available to absorb.
The Europe air source heat pump market is poised for strong growth in the coming years. The key drivers of this growth are the increasing demand for energy-efficient heating and cooling solutions, government support and incentives, technological advancements, and rising awareness about environmental benefits. The challenges facing the market are being addressed by governments and industry players. As a result, the market is expected to continue to grow at a healthy pace in the coming years.
An air source heat pump (ASHP) is a heating and cooling system that uses refrigeration technology to move heat from the inside environment to the outside air. It is a form of renewable energy technology that may be used to heat and cool homes, businesses, and industrial structures.
Depending on whether the system is used for heating or cooling, air source heat pumps are made to extract heat from the outdoor air (even in cold temperatures) and transport it within, or vice versa.
An air source heat pump operates as follows:
Heating Mode: Using a refrigerant as the medium, the heat pump extracts heat from the outside air in the heating mode, even in cold weather. Low-temperature evaporation of the refrigerant heats the air as it does so.
The compressor of the heat pump then compresses this low-temperature, low-pressure gas, dramatically enhancing its temperature. A distribution system, like radiators, underfloor heating, or forced air, is used to distribute the released heat from the compressed gas to the interior area.
Cooling Mode: The procedure is reversed in cooling mode. The heat pump efficiently cools the interior space by removing heat from the indoor air and releasing it outside. The refrigerant absorbs the heat and then radiates it outdoors, causing a cooling effect indoors.
In general, air-source heat pumps are an environmentally friendly and energy-saving technology that can help decrease energy use and greenhouse gas emissions in buildings. They are a good choice for people looking for a single system that can provide heating and cooling.
The European air source heat pump market is expected to grow at a CAGR of 6.4% from 2024 to 2030, reaching a value of USD XX billion by 2030.
In Europe, Panasonic intends to introduce three new models of its R290 natural refrigerant-based air-to-water (A2W) Aqu area heat pumps. The heating function, which continues to work even in cold climates and may be utilized for cooling in hotter climates, is one of its key advantages. Through the cloud, remote monitoring services are offered.
The heat pumps are able to provide heating, cooling, and domestic hot water from a single, integrated unit. For all-in-one configurations, they are now offered with power ratings of 3 kW, 5 kW, 7 kW, and 9 kW, and for mono-bloc versions, 5 kW, 7 kW, and 9 kW.
With Panasonic's proprietary printed circuit board (PCB) technology CZ-NS4P and interoperability with smart grids, it can also synchronize with PV panels.
The Europe air source heat pump market is undergoing a number of technological advancements, which are driving the growth of the market. These advancements include:
In addition to these technological advancements, there are a number of other factors that are driving the growth of the Europe air source heat pump market, including:
Government support and incentives:Governments across Europe are offering financial incentives to encourage the installation of air source heat pumps. This is being done to reduce energy consumption and greenhouse gas emissions.
Rising energy prices: Rising energy prices are making air source heat pumps a more attractive option for consumers, as they can help to reduce energy bills.
Increasing awareness about environmental benefits: Consumers are becoming more aware of the environmental benefits of air source heat pumps, such as their low carbon footprint.
Bosch Compress 7000 AW heat pump system
In 2021, Bosch launched its new Compress 7000 AW heat pump system. This system uses a new refrigerant called R-454B, which has a GWP that is 75% lower than traditional refrigerants. The Compress 7000 AW also features a number of other technological advancements, including:
New refrigerant technology:The Bosch Compress 7000 AW heat pump system uses a new refrigerant called R-454B. This refrigerant has a GWP that is 75% lower than traditional refrigerants, such as R-410A. This means that the Bosch Compress 7000 AW heat pump system is much more environmentally friendly than traditional air source heat pumps.
New compressor design:The Bosch Compress 7000 AW heat pump system features a new compressor design that is more efficient and performs better than traditional compressors. This means that the Bosch Compress 7000 AW heat pump system can provide more heating and cooling with less energy consumption.
New heat exchanger design: The Bosch Compress 7000 AW heat pump system also features a new heat exchanger design that is more efficient at transferring heat. This means that the Bosch Compress 7000 AW heat pump system can provide more heating and cooling in a shorter amount of time.
New control system:The Bosch Compress 7000 AW heat pump system is equipped with a new control system that optimizes the operation of the heat pump. This means that the Bosch Compress 7000 AW heat pump system will always run at its most efficient level, regardless of the operating conditions.
In addition to the Bosch Compress 7000 AW heat pump system, other leading companies in the Europe air source heat pump market are also developing new technologies with improved efficiency, environmental performance, and user-friendliness. For example:
Daikin is developing new air source heat pumps that use natural refrigerants, such as R-290 and R-744. These refrigerants have zero GWP, making them even more environmentally friendly than R-454B.
Mitsubishi Electric is developing new air source heat pumps with hyper-heating technology. This technology allows air source heat pumps to operate efficiently in colder climates.
NIBE is developing new air source heat pumps with smart controls that allow users to remotely monitor and control their heat pump.Viessmann is developing new air source heat pumps that can be integrated with other heating and cooling systems, such as solar thermal systems and biomass boilers.
Use of natural refrigerants: Leading companies are developing new air source heat pumps that use natural refrigerants, such as R-290 and R-744. These refrigerants have zero GWP, making them even more environmentally friendly than R-454B.
Smart controls: NIBE and other leading companies are developing new air source heat pumps with smart controls that allow users to remotely monitor and control their heat pump. This makes air source heat pumps more convenient and efficient to use.
Integration with other heating and cooling systems: Viessmann and other leading companies are developing new air source heat pumps that can be integrated with other heating and cooling systems, such as solar thermal systems and biomass boilers.This allows consumers to create a more efficient and sustainable he0 AW heat pump system:This system uses the new refrigerant R-454B, which has a GWP that is 75% lower than traditional refrigerants.
Here are some specific examples of new products and technologies that have been launched by leading companies in the Europe air source heat pump market in recent years:
Viessmann Vitocal 252-A air-to-water heat pump system:This system can be integrated with other heating and cooling systems, such as solar thermal systems and biomass boilers.
| S.No. | Overview of Development | Development Detailing | Region of Development | Possible Future Outcomes |
| 1 | Increasing use of natural refrigerants | Leading companies are developing new air source heat pumps that use natural refrigerants, such as R-290 and R-744. These refrigerants have zero GWP, making them even more environmentally friendly than R-454B. | Europe | This trend is expected to continue, as governments and consumers become more aware of the environmental benefits of natural refrigerants. |
| 2 | Development of hyper-heating technology | Mitsubishi Electric is developing new air source heat pumps with hyper-heating technology. This technology allows air source heat pumps to operate efficiently in colder climates. | Europe | This trend is expected to accelerate the adoption of air source heat pumps in colder regions of Europe. |
| 3 | Increasing popularity of smart controls | NIBE and other leading companies are developing new air source heat pumps with smart controls that allow users to remotely monitor and control their heat pump. | Europe | This trend is expected to make air source heat pumps more convenient and efficient to use. |
| 4 | Growing integration with other heating and cooling systems | Viessmann and other leading companies are developing new air source heat pumps that can be integrated with other heating and cooling systems, such as solar thermal systems and biomass boilers. | Europe | This trend is expected to allow consumers to create more efficient and sustainable heating and cooling systems for their homes or businesses. |
| 5 | Development of new products and technologies | Leading companies are constantly developing new air source heat pumps with improved efficiency, environmental performance, and user-friendliness. | Europe | This trend is expected to accelerate the adoption of air source heat pumps in all regions of Europe. |
| S.No | Timeline | Company | Developments |
| 1 | 2023 | Bosch | Launches the Compress 7000 AW heat pump system, which uses the new refrigerant R-454B and has a GWP that is 75% lower than traditional refrigerants. |
| 2 | 2022 | Daikin | Launches the Alterman 3 M air-to-water heat pump system, which is designed for small capacity applications and uses the refrigerant R-32, which has a GWP that is 40% lower than traditional refrigerants. |
| 3 | 2021 | Mitsubishi Electric | Introduces Hyper Heating INVERTER technology, which allows air source heat pumps to operate efficiently in colder climates. |
| 6 | 2024-2025 | Various | Leading companies develop new air source heat pumps that use natural refrigerants, such as R-290 and R-744. These refrigerants have zero GWP, making them even more environmentally friendly than R-454B. |
| 7 | 2026-2027 | Various | Leading companies develop new air source heat pumps with improved efficiency, environmental performance, and user-friendliness. |
| 8 | 2028-2029 | Various | Air source heat pumps become the dominant heating and cooling technology in Europe. |
| 9 | 2030+ | Various | Air source heat pumps are integrated with other renewable energy technologies, such as solar and wind power, to create more efficient and sustainable energy systems. Air source heat pumps are used to provide heating and cooling for a wider range of applications, such as commercial and industrial buildings. Air source heat pumps become more affordable and accessible to consumers. |
| Company | Announcement Date | Launch Date | Strengths | Weaknesses | Opportunities | Threats |
| Bosch | 2021-03-08 | 2021-Q4 | Strong brand reputation, wide product portfolio, global reach | High prices | Growing demand for energy-efficient heating and cooling solutions, government support and incentives | Competition from other leading air source heat pump manufacturers |
| Daikin | 2022-02-25 | 2022-Q3 | Market leader in air source heat pumps, innovative technology, global reach | High prices | Growing demand for energy-efficient heating and cooling solutions, government support and incentives, expanding markets in developing countries | Competition from other leading air source heat pump manufacturers, new technologies from emerging companies |
| Mitsubishi Electric | 2021-11-09 | 2022-Q2 | Innovative technology, strong brand reputation | High prices | Growing demand for energy-efficient heating and cooling solutions, government support and incentives, expanding markets in developing countries | Competition from other leading air source heat pump manufacturers, new technologies from emerging companies |
| NIBE | 2022-04-11 | 2022-Q4 | Wide product portfolio, strong brand reputation in Europe | High prices, limited global reach | Growing demand for energy-efficient heating and cooling solutions, government support and incentives, expanding markets in developing countries | Competition from other leading air source heat pump manufacturers, new technologies from emerging companies |
| Viessmann | 2022-06-20 | 2023-Q1 | Strong brand reputation in Europe, wide product portfolio | High prices, limited global reach | Growing demand for energy-efficient heating and cooling solutions, government support and incentives | Competition from other leading air source heat pump manufacturers, new technologies from emerging companies |
| S.No | Topic | |
| 1 | Market Segmentation | |
| 2 | Scope of the report | |
| 3 | Research Methodology | |
| 4 | Executive Summary | |
| 5 | Average B2B Price | |
| 6 | Introduction | |
| 7 | Insights from Industry stakeholders | |
| 8 | Cost breakdown of Product by sub-components and average profit margin | |
| 9 | Disruptive innovation in the Industry | |
| 10 | Emerging technologies In Europe Air Source Heat Pump Market | |
| 11 | Technology trends in the Industry | |
| 12 | Consumer trends in the industry | |
| 13 | Recent Production Milestones | |
| 14 | Competition from substitute products | |
| 15 | Market Size, Dynamics and Forecast by Product Type, 2024-2030 | |
| 16 | Market Size, Dynamics and Forecast by Application, 2024-2030 | |
| 17 | Market Size, Dynamics and Forecast by refrigerant, 2024-2030 | |
| 18 | Market Size, Dynamics and Forecast by Region, 2024-2030 | |
| 19 | Competitive landscape | |
| 20 | Gross margin and average profitability of suppliers | |
| 21 | New product development in past 12 months | |
| 22 | M&A in past 12 months | |
| 23 | Growth strategy of leading players | |
| 24 | Market share of vendors, 2023 | |
| 25 | Company Profiles | |
| 26 | Unmet needs and opportunity for new suppliers | |
| 27 | Conclusion |
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