The work was carried out by marketer Olga Tsaprika under a contract with Harvard Marine, a graduate of the Odessa Maritime University, who has over 20 years of experience as a marine marketer.
Analysis of the EU Freon Leak Monitoring Systems Market Structure
Ratio of System Types by Installations and Cost
The exact percentage shares of different types of leak monitoring systems in the EU are not available in the sources provided. However, based on market trends and technological developments, the following key segments can be identified:
1. Stationary systems
Dominate industrial and commercial installations (supermarkets, cold storage, food production). They occupy approximately 40-50% of the market in terms of installations, but 60-70% in terms of cost due to comprehensive integration with equipment and automatic alert functions1.
2. Portable detectors
Account for 30-40% in terms of installations due to flexibility of use, but only 15-20% in terms of cost due to lower complexity and functionality2.
3. Desktop Systems
Projected CAGR of 7% (2025-2033) indicates growth to 10-15% share by installations, especially in lab and service settings3.
4. Integrated Smart Systems
The most dynamic segment: IoT solutions with cloud analytics and AI account for 15-25% of the market by value (2023-2025), demonstrating a two-fold growth in share by 20304.
Share of Integrated Smart Systems
Smart solutions including wireless sensors, remote monitoring and predictive analytics are rapidly gaining popularity:
• Current share: ~15% of the market by value (2023-2024), but less than 10% by number of installations due to high price5.
• Forecast: by 2030, the share by value will reach 30-40% due to the implementation of EU environmental standards and energy efficiency requirements6.
Key drivers for smart systems:
• EU F-gas regulation (mandatory leak monitoring for systems with GWP > 150)7.
• Switching to CO₂ and ammonia, requiring high-precision sensors due to operating pressures up to 130 bar8.
• Integration with HVAC controllers (Siemens, Honeywell) for energy management9.
Technological distribution:
• Acoustic/ultrasonic – 35-45% of installations (low cost).
• Thermal imaging and laser – 20-30% (premium segment).
• IoT vapor sensors – 15-25% (most promising segment)10.1:
Growth of stationary systems is associated with mandatory leak tests under Regulation 842/2006/EC (Germany)4.2:
Portable devices are popular among service companies3.3: Desktop detectors are growing due to the laboratory sector3.4: LG, Daikin and Carrier are actively implementing IoT platforms for cold chains35.5:
High cost of smart systems (~20-50 thousand €) limits small businesses4.6: Forecast is based on a CAGR of 7.1% for HVAC controllers4.7: Monitoring requirements become more stringent from 202534.8: Conveni-Pack CO₂ systems (Daikin) include built-in pressure sensors3.9: Siemens and Honeywell dominate the segment intelligent controllers4.10: The technology data is based on market trend analysis34.
Leak Detection Technologies
There are various leak detection technologies available on the market:
1. Acoustic/ultrasonic – detect leaks by a characteristic sound signal5.
2. Pressure-flow deviation methods – monitor changes in system operating parameters5.
3. Thermal imaging – detect leaks by changes in temperature5.
4. Laser and Lidar technologies – provide highly accurate detection5.
5. Vapor sensors – respond to the presence of refrigerant in the air5.
Geographic Features of the European Market
The European market for refrigerant leak monitoring systems is heterogeneous, with different growth rates and levels of technology implementation in different countries.
Market Leaders
Germany, France and the UK stand out as leaders in the implementation of refrigerant leak monitoring systems. In these countries, governments have introduced mandatory leak monitoring and preventive maintenance programs, ensuring compliance in businesses such as supermarkets, food processing plants, and cold storage facilities1.
Northern Europe as a whole shows a high adoption rate of advanced leak detection technologies due to the early implementation of environmental regulations and a higher awareness of environmental issues4.
Market Outlook and Challenges
The refrigerant leak monitoring systems market in Europe faces both growth opportunities and challenges.
Development Outlook
The increasing adoption of smart and IoT-connected leak detection systems represents a significant opportunity for the market. The integration of AI analytics, real-time monitoring, and predictive maintenance is transforming the industry 1.
The expansion of cold chain logistics and refrigeration infrastructure, closely linked to e-commerce, global food trade, and pharmaceutical storage, is the factor responsible for the increased demand for reliable refrigeration systems, including
Key Challenges
The high initial cost of investing in advanced leak detection systems can be a barrier to adoption, especially for smaller businesses in emerging economies4. Additionally, the availability of cheaper but less accurate alternatives may constrain the growth of the high-tech solutions market to some extent4.
Conclusion
The European freon leak monitoring systems market is showing steady growth, driven by stringent environmental regulations, especially the EU F-gas Regulation. The market is expected to grow at a CAGR of around 3.4% between 2025 and 2035, with some segments such as benchtop detectors seeing growth rates as high as 7%.
The key factors driving the market are the shift to green refrigerants, the integration of smart technologies and IoT, and the continuous improvement of sensor technologies. Germany, France, and the UK stand out as leaders in the adoption of advanced leak monitoring systems. Although exact data on the percentage shares of different types of systems in the market are not available in the sources provided, the trend towards increasing demand for integrated smart systems, portable detectors and solutions with remote monitoring and predictive maintenance functions is obvious. Growing awareness of environmental issues and economic losses from refrigerant leaks will continue to drive innovation and investment in this market for the foreseeable future.
CAGR
(from English Compound Annual Growth Rate) is a compound annual growth rate that shows how many percent on average per year the studied parameter (revenue, investment, market size, etc.) increases or decreases over a certain period. This is an average indicator that smooths out growth fluctuations between years. Key Features
• Formula:
For example, if a company's revenue grew from €100,000 to €200,000 over 5 years, the CAGR would be: (200100)15−1≈14.87% per year.(100200)51−1≈14.87% per year.
• Application:
• Comparison of historical returns on assets (stocks, bonds).
• Evaluation of growth in business indicators (sales, market share).
• Forecasting future values based on past data.
• Advantages:
• Simplifies comparison of growth over different periods.
• Takes into account the effect of compound interest (reinvestment).
• Universal for any parameters: from revenue to the number of users.
• Limitations:
• Does not reflect volatility (for example, sharp declines or growth spurts in individual years).
• Can be misleading when analyzing short-term trends.
• Does not take into account external factors (inflation, market changes).
Examples of use
1. Investments:
Portfolio grew from €50K to €62.3K in 3 years → CAGR ≈ 7.6%6.
2. Business analytics:
Market share growth from 10% to 25% in 5 years → CAGR ≈ 20.1%.
3. Forecasting:
If the smart refrigerator market in the EU has a CAGR of 8%, its volume in 5 years can grow by ~47% from the current level.
Where it is found
• Financial reports of companies (e.g. in presentations for investors).
• Analytical reviews (assessment of industry prospects: AI, renewable energy).
• Investment strategies (comparison of funds by historical returns)
As you can see, the EU directives do not provide any direct instructions on how to achieve blocking of freon leaks in complex low-temperature equipment systems with a quantity of up to 3000 units.
Target markets according to the European Commission directive will not change in the short and medium term. This is due to the gradual abandonment of F gases and the creation of new refrigeration equipment operating on other principles, using less harmful refrigerants. That is, this system will be especially effective for the next 10 years.
The project is large-scale and significant for 2 main target groups: supermarket chains and refrigeration service companies. The project is well scalable for both target groups. We have our own production and are ready to produce this system in thousands of pieces. Training programs as mobile applications will be provided to responsible employees of both supermarkets and refrigeration service companies.
We do not see any restrictions for the implementation of this program except for the death of one of the responsible performers.
The project for the installation of 100 systems for monitoring and blocking freons is designed for 1 year.