Featured Questions
Enthalpy Heat Exchangers for Ventilation Units – Comparison
At Rekupex, we offer enthalpy heat exchangers for a wide range of ventilation units from various manufacturers. We continuously expand our range to cover as many commonly used ventilation systems on the market as possible.
Our customers also play an important role in expanding the product range by helping us identify new types of ventilation units and their compatible enthalpy heat exchangers. Thanks to this cooperation, we can continuously develop our offer and adapt it to the real needs of users. Thank you for your feedback and suggestions.
To make it easier for you to understand the differences between enthalpy exchangers from RECUTECH, ZERN Engineering, CORE, and AIRWOODS, we have prepared a clear technical comparison of exchangers of the same size 366 × 366 × 400 mm, which can be directly compared thanks to their identical dimensions.
The overview also includes three key diagrams, which make it possible to compare exchanger behavior depending on the air volume flow rate:
- pressure drop at different air flow rates
- heat transfer efficiency
- moisture transfer efficiency
Technical Comparison Diagrams
Click on the diagram to open the high-resolution detail.
Pressure drop vs. air volume flow rate
Heat transfer efficiency
Moisture transfer efficiency
Input conditions according to EN 308:2022
- Outdoor air temperature: 5 °C
- Outdoor air relative humidity: 72 %
- Extract air temperature: 25 °C
- Extract air relative humidity: 50 %
The results were obtained using the selection and design software of the individual manufacturers.
Comparison of Enthalpy Heat Exchangers (366 × 366 × 400 mm)
The input parameters are unified according to EN 308:2022, unless stated otherwise. For AIRWOODS, different input values according to the manufacturer’s documentation were used, therefore the inputs differ.
On mobile, swipe the table sideways.
| Parameter | CORE F-ERV 366 | ZERN EC-EX6 366 | RECUTECH METALPIC RKF+16 | AIRWOODS WXL-LB 366* |
|---|---|---|---|---|
| Exchanger photo |  |
 |
 |
 |
| Input conditions | ||||
| Outdoor air temperature [°C] | 5 | 5 | 5 | -5 |
| Outdoor air relative humidity [%] | 72 | 72 | 72 | 25 |
| Extract air temperature [°C] | 25 | 25 | 25 | 25 |
| Extract air relative humidity [%] | 50 | 50 | 50 | 80 |
| Performance at air volume flow rate of 150 m³/h | ||||
| Pressure drop [Pa]¹ | 28 | 37,65 | 25,18 ⭐ best | 29,9 |
| Temperature efficiency [%]¹ | 84,1 | 82,36 | 87,1 ⭐ best | 85,75 |
| Moisture efficiency [%]¹ | 70,9 | 58,96 | 66,5 | 75,73 ⭐ best |
| Performance at air volume flow rate of 400 m³/h | ||||
| Pressure drop [Pa]¹ | 134 | 141 | 114 ⭐ best | – |
| Temperature efficiency [%]¹ | 77,5 | 71,4 | 78,3 ⭐ best | – |
| Moisture efficiency [%]¹ | 51,7 | 47,84 | 58 ⭐ best | – |
| Construction and materials | ||||
| Exchanger casing material | Unspecified plastic | HPS (High Pressure Structure) | Corrosion-resistant aluminum | Unspecified plastic |
| Exchanger construction type | Polymer plate exchanger | Polymer plate exchanger | Metal enthalpy heat exchanger ⭐ | Polymer plate exchanger |
| Enthalpy membrane carrier | The membrane is part of the supporting material | HPS (High Pressure Structure) | Aluminum carrier (expanded metal) | Plastic separators |
| Type of enthalpy membrane | Formable polymer membrane (integrated in the plates) | Polymer microporous membrane | Ion-exchange membrane (METALPIC) | Polymer microporous membrane |
| Transport packaging | Polystyrene protection + cardboard box | Polystyrene protection + cardboard box | Wooden transport crate (also suitable for storing the original exchanger) | Polystyrene protection + cardboard box |
| REKUPEX evaluation | ||||
| Overall evaluation | High efficiency at lower flow rates. Thanks to its low weight and smooth casing, it places minimal demands on installation. | Robust and mechanically durable construction. Good availability of dimensions for a wide range of ventilation units. | All-aluminum exchanger with METALPIC membrane. Excellent efficiency / pressure drop ratio. Highest heat transfer efficiency and, at higher air volume flow rates, also very good moisture transfer. | Proven exchangers used by a number of European unit manufacturers thanks to a good price / performance ratio. |
| Strengths | Very good moisture efficiency at lower air flow rates. Low weight. | Very solid workmanship and high mechanical durability. | Very good results at medium and higher flow rates. Low pressure drop across the entire range. | Favorable price while maintaining solid parameters. |
| Possibility of adapting exchanger dimensions | Limited | Limited | Very wide possibilities for adapting dimensions ⭐ | Limited |
| Availability of newly identified and less commonly used exchangers | Limited availability | Good availability | Excellent availability ⭐ | Limited availability |
| Note about the manufacturer | – | – | RECUTECH provides excellent customer and technical support, making it possible to effectively design, adapt, and integrate exchangers into a wide range of ventilation units. Thanks to the robust construction with an aluminum casing, the exchangers are also very suitable for retrofit applications and modernization of older ventilation units. | – |
| Certification and compliance | ||||
| Eurovent | – | – | YES | – |
| DIN ISO 9001:2015 | YES | YES | YES | – |
| Hygiene certificate | VDI 6022 | VDI 6022 | VDI 6022 | ANTI BACTERIAL + Antimicrobial test report |
| RoHS | YES | YES | YES | YES |
| REACH | YES | YES | YES | YES |
| Data source and calculation | ||||
| Exchanger manufacturer | CORE GmbH | ZERN Engineering | RECUTECH | AIRWOODS |
| Availability (sales) | www.rekupex.cz | www.rekupex.cz www.rekupex.de |
www.rekupex.cz www.rekupex.de |
On request by e-mail: info@rekupex.cz |
| Calculated size | 366 × 366 × 400 mm | 366 × 366 × 400 mm | 366 × 366 × 400 mm | 366 × 366 × 400 mm |
| Calculation software | Online (manufacturer’s website) | Online (manufacturer’s website) | Offline design selector | Offline design selector |
| Calculation date | 3 March 2026 | 3 March 2026 | 3 March 2026 | 3 March 2026 |
⭐ best value in the given category
¹ The values were determined based on calculations in the manufacturers’ selection programs under the input conditions defined by EN 308:2022.
* Different input values according to the manufacturer’s documentation were used for AIRWOODS.
REKUPEX Recommendation
Based on our long-term experience with the design and integration of enthalpy heat exchangers into various types of ventilation units, we particularly recommend RECUTECH exchangers, which stand out thanks to their very good efficiency / pressure drop ratio, robust construction, and above all excellent technical support from the manufacturer.
Thanks to this cooperation, the exchangers can be easily adapted to a wide range of ventilation units, including retrofit installations in older equipment.
Which Enthalpy Heat Exchanger Should You Choose?
The comparison shows that individual manufacturers optimize their exchangers for different operating conditions. Some exchangers achieve very good results especially at lower air volume flow rates, while others are optimized for medium and higher air flow rates.
When choosing an enthalpy heat exchanger, it is therefore important to consider not only the efficiency itself, but also pressure drop, exchanger construction, compatibility with the ventilation unit, the possibility of adapting dimensions, and the availability of replacement exchangers.
Frequently Asked Questions About Enthalpy Heat Exchangers
What is the difference between an enthalpy heat exchanger and a standard heat recovery exchanger?
An enthalpy heat exchanger transfers not only heat, but also part of the moisture from the extract air to the supply air. This helps maintain a more comfortable indoor humidity level, especially during the winter season.
What is the typical efficiency of an enthalpy heat exchanger?
The temperature efficiency of modern enthalpy heat exchangers usually ranges approximately between 75–90 %.
The moisture transfer efficiency is usually lower and generally ranges approximately between 40–75 %.
Both values are significantly influenced by the exchanger design, membrane quality, and especially the air volume flow rate at which the exchanger is operated.
Can an enthalpy heat exchanger be installed in an older ventilation unit?
Yes, at RekupeX we not only sell exchangers, but also technically adapt them for specific ventilation units. We manufacture our own sealing and mounting profiles, and if necessary we also produce reduction casings. Thanks to this, we can offer an enthalpy replacement even for older ventilation units, where compatibility may at first glance appear problematic. A typical example is exchangers for Atrea units.
Note: The technical data and graphs presented in this overview were prepared based on the technical documentation of the individual manufacturers and the results of their selection or design tools. Although we have made every effort to ensure maximum accuracy, individual values may vary depending on the specific operating conditions, unit configuration, or updates to the data provided by the manufacturers.
The stated REKUPEX evaluation is based on our long-term practical experience with the design, sale, and integration of enthalpy heat exchangers into various types of ventilation units.
If any manufacturer identifies an inaccuracy or has a comment regarding the stated data, we will be grateful for the notice and will be happy to adjust the data.
If you are unsure which enthalpy heat exchanger is suitable for your ventilation unit, do not hesitate to contact us. We will be happy to help you choose the right solution.
Does an enthalpy heat exchanger increase humidity in a house?
Yes, an enthalpy heat exchanger can transfer part of the moisture from exhaust air back into the supply air, helping to increase indoor humidity. This is not just a theoretical feature – it has been confirmed in real-world operation.
In an independent test carried out by an experienced user in their home with an AEREX ventilation unit, the long-term issue was very dry indoor air, despite attempts to naturally increase humidity, for example by using a large number of plants.
After installing the RECUTECH METALPIC enthalpy heat exchanger, there was a measurable increase in indoor humidity and an overall improvement in living comfort.
Under typical conditions, indoor humidity increases by approximately 10–15% during the heating season. In ideal conditions, the increase can reach up to 25–30%, depending on indoor humidity levels, airflow settings, and building characteristics.
Real measurement of indoor humidity with an enthalpy heat exchanger
It is important to understand that an enthalpy heat exchanger does not generate moisture, it only transfers it from the exhaust air back into the supply air. Therefore, the effect is not immediate but builds up gradually over several days to weeks.
This principle is based on physical laws and long-term real-world experience. That is why enthalpy heat exchangers are an effective solution for homes where ventilation systems cause excessive drying of indoor air.
This is why an enthalpy heat exchanger is one of the most effective solutions for dry indoor air in homes with ventilation systems.
Yes, installation is simple. Just follow the instructions provided with your unit. As with a standard exchanger, it needs to be removed occasionally for cleaning – the process is the same, except that you put the enthalpic exchanger back in instead.
Faq Sections
Enthalpy Heat Exchangers for Ventilation Units – Comparison
At Rekupex, we offer enthalpy heat exchangers for a wide range of ventilation units from various manufacturers. We continuously expand our range to cover as many commonly used ventilation systems on the market as possible.
Our customers also play an important role in expanding the product range by helping us identify new types of ventilation units and their compatible enthalpy heat exchangers. Thanks to this cooperation, we can continuously develop our offer and adapt it to the real needs of users. Thank you for your feedback and suggestions.
To make it easier for you to understand the differences between enthalpy exchangers from RECUTECH, ZERN Engineering, CORE, and AIRWOODS, we have prepared a clear technical comparison of exchangers of the same size 366 × 366 × 400 mm, which can be directly compared thanks to their identical dimensions.
The overview also includes three key diagrams, which make it possible to compare exchanger behavior depending on the air volume flow rate:
- pressure drop at different air flow rates
- heat transfer efficiency
- moisture transfer efficiency
Technical Comparison Diagrams
Click on the diagram to open the high-resolution detail.
Pressure drop vs. air volume flow rate
Heat transfer efficiency
Moisture transfer efficiency
Input conditions according to EN 308:2022
- Outdoor air temperature: 5 °C
- Outdoor air relative humidity: 72 %
- Extract air temperature: 25 °C
- Extract air relative humidity: 50 %
The results were obtained using the selection and design software of the individual manufacturers.
Comparison of Enthalpy Heat Exchangers (366 × 366 × 400 mm)
The input parameters are unified according to EN 308:2022, unless stated otherwise. For AIRWOODS, different input values according to the manufacturer’s documentation were used, therefore the inputs differ.
On mobile, swipe the table sideways.
| Parameter | CORE F-ERV 366 | ZERN EC-EX6 366 | RECUTECH METALPIC RKF+16 | AIRWOODS WXL-LB 366* |
|---|---|---|---|---|
| Exchanger photo | |
|
|
|
| Input conditions | ||||
| Outdoor air temperature [°C] | 5 | 5 | 5 | -5 |
| Outdoor air relative humidity [%] | 72 | 72 | 72 | 25 |
| Extract air temperature [°C] | 25 | 25 | 25 | 25 |
| Extract air relative humidity [%] | 50 | 50 | 50 | 80 |
| Performance at air volume flow rate of 150 m³/h | ||||
| Pressure drop [Pa]¹ | 28 | 37,65 | 25,18 ⭐ best | 29,9 |
| Temperature efficiency [%]¹ | 84,1 | 82,36 | 87,1 ⭐ best | 85,75 |
| Moisture efficiency [%]¹ | 70,9 | 58,96 | 66,5 | 75,73 ⭐ best |
| Performance at air volume flow rate of 400 m³/h | ||||
| Pressure drop [Pa]¹ | 134 | 141 | 114 ⭐ best | – |
| Temperature efficiency [%]¹ | 77,5 | 71,4 | 78,3 ⭐ best | – |
| Moisture efficiency [%]¹ | 51,7 | 47,84 | 58 ⭐ best | – |
| Construction and materials | ||||
| Exchanger casing material | Unspecified plastic | HPS (High Pressure Structure) | Corrosion-resistant aluminum | Unspecified plastic |
| Exchanger construction type | Polymer plate exchanger | Polymer plate exchanger | Metal enthalpy heat exchanger ⭐ | Polymer plate exchanger |
| Enthalpy membrane carrier | The membrane is part of the supporting material | HPS (High Pressure Structure) | Aluminum carrier (expanded metal) | Plastic separators |
| Type of enthalpy membrane | Formable polymer membrane (integrated in the plates) | Polymer microporous membrane | Ion-exchange membrane (METALPIC) | Polymer microporous membrane |
| Transport packaging | Polystyrene protection + cardboard box | Polystyrene protection + cardboard box | Wooden transport crate (also suitable for storing the original exchanger) | Polystyrene protection + cardboard box |
| REKUPEX evaluation | ||||
| Overall evaluation | High efficiency at lower flow rates. Thanks to its low weight and smooth casing, it places minimal demands on installation. | Robust and mechanically durable construction. Good availability of dimensions for a wide range of ventilation units. | All-aluminum exchanger with METALPIC membrane. Excellent efficiency / pressure drop ratio. Highest heat transfer efficiency and, at higher air volume flow rates, also very good moisture transfer. | Proven exchangers used by a number of European unit manufacturers thanks to a good price / performance ratio. |
| Strengths | Very good moisture efficiency at lower air flow rates. Low weight. | Very solid workmanship and high mechanical durability. | Very good results at medium and higher flow rates. Low pressure drop across the entire range. | Favorable price while maintaining solid parameters. |
| Possibility of adapting exchanger dimensions | Limited | Limited | Very wide possibilities for adapting dimensions ⭐ | Limited |
| Availability of newly identified and less commonly used exchangers | Limited availability | Good availability | Excellent availability ⭐ | Limited availability |
| Note about the manufacturer | – | – | RECUTECH provides excellent customer and technical support, making it possible to effectively design, adapt, and integrate exchangers into a wide range of ventilation units. Thanks to the robust construction with an aluminum casing, the exchangers are also very suitable for retrofit applications and modernization of older ventilation units. | – |
| Certification and compliance | ||||
| Eurovent | – | – | YES | – |
| DIN ISO 9001:2015 | YES | YES | YES | – |
| Hygiene certificate | VDI 6022 | VDI 6022 | VDI 6022 | ANTI BACTERIAL + Antimicrobial test report |
| RoHS | YES | YES | YES | YES |
| REACH | YES | YES | YES | YES |
| Data source and calculation | ||||
| Exchanger manufacturer | CORE GmbH | ZERN Engineering | RECUTECH | AIRWOODS |
| Availability (sales) | www.rekupex.cz | www.rekupex.cz www.rekupex.de |
www.rekupex.cz www.rekupex.de |
On request by e-mail: info@rekupex.cz |
| Calculated size | 366 × 366 × 400 mm | 366 × 366 × 400 mm | 366 × 366 × 400 mm | 366 × 366 × 400 mm |
| Calculation software | Online (manufacturer’s website) | Online (manufacturer’s website) | Offline design selector | Offline design selector |
| Calculation date | 3 March 2026 | 3 March 2026 | 3 March 2026 | 3 March 2026 |
⭐ best value in the given category
¹ The values were determined based on calculations in the manufacturers’ selection programs under the input conditions defined by EN 308:2022.
* Different input values according to the manufacturer’s documentation were used for AIRWOODS.
REKUPEX Recommendation
Based on our long-term experience with the design and integration of enthalpy heat exchangers into various types of ventilation units, we particularly recommend RECUTECH exchangers, which stand out thanks to their very good efficiency / pressure drop ratio, robust construction, and above all excellent technical support from the manufacturer.
Thanks to this cooperation, the exchangers can be easily adapted to a wide range of ventilation units, including retrofit installations in older equipment.
Which Enthalpy Heat Exchanger Should You Choose?
The comparison shows that individual manufacturers optimize their exchangers for different operating conditions. Some exchangers achieve very good results especially at lower air volume flow rates, while others are optimized for medium and higher air flow rates.
When choosing an enthalpy heat exchanger, it is therefore important to consider not only the efficiency itself, but also pressure drop, exchanger construction, compatibility with the ventilation unit, the possibility of adapting dimensions, and the availability of replacement exchangers.
Frequently Asked Questions About Enthalpy Heat Exchangers
What is the difference between an enthalpy heat exchanger and a standard heat recovery exchanger?
An enthalpy heat exchanger transfers not only heat, but also part of the moisture from the extract air to the supply air. This helps maintain a more comfortable indoor humidity level, especially during the winter season.
What is the typical efficiency of an enthalpy heat exchanger?
The temperature efficiency of modern enthalpy heat exchangers usually ranges approximately between 75–90 %.
The moisture transfer efficiency is usually lower and generally ranges approximately between 40–75 %.
Both values are significantly influenced by the exchanger design, membrane quality, and especially the air volume flow rate at which the exchanger is operated.
Can an enthalpy heat exchanger be installed in an older ventilation unit?
Yes, at RekupeX we not only sell exchangers, but also technically adapt them for specific ventilation units. We manufacture our own sealing and mounting profiles, and if necessary we also produce reduction casings. Thanks to this, we can offer an enthalpy replacement even for older ventilation units, where compatibility may at first glance appear problematic. A typical example is exchangers for Atrea units.
Note: The technical data and graphs presented in this overview were prepared based on the technical documentation of the individual manufacturers and the results of their selection or design tools. Although we have made every effort to ensure maximum accuracy, individual values may vary depending on the specific operating conditions, unit configuration, or updates to the data provided by the manufacturers.
The stated REKUPEX evaluation is based on our long-term practical experience with the design, sale, and integration of enthalpy heat exchangers into various types of ventilation units.
If any manufacturer identifies an inaccuracy or has a comment regarding the stated data, we will be grateful for the notice and will be happy to adjust the data.
If you are unsure which enthalpy heat exchanger is suitable for your ventilation unit, do not hesitate to contact us. We will be happy to help you choose the right solution.
An enthalpic heat exchanger should be used all year round. In winter, it prevents excessive drying of the indoor air, and in summer, it helps maintain comfortable humidity and temperature by reducing heat transfer and returning part of the moisture to the fresh supply air. This increases comfort and saves energy in every season.
An enthalpic heat exchanger works on the principle of counterflow air streams. During ventilation, two separate airflows meet inside – the warm, humid exhaust air from indoors and the cold fresh air from outside. A special membrane transfers both heat and water vapor from the exhaust air to the incoming fresh air without mixing the two streams. This way, fresh air enters the home with a more comfortable temperature and humidity, improving comfort while saving energy.
Does an enthalpy heat exchanger increase humidity in a house?
Yes, an enthalpy heat exchanger can transfer part of the moisture from exhaust air back into the supply air, helping to increase indoor humidity. This is not just a theoretical feature – it has been confirmed in real-world operation.
In an independent test carried out by an experienced user in their home with an AEREX ventilation unit, the long-term issue was very dry indoor air, despite attempts to naturally increase humidity, for example by using a large number of plants.
After installing the RECUTECH METALPIC enthalpy heat exchanger, there was a measurable increase in indoor humidity and an overall improvement in living comfort.
Under typical conditions, indoor humidity increases by approximately 10–15% during the heating season. In ideal conditions, the increase can reach up to 25–30%, depending on indoor humidity levels, airflow settings, and building characteristics.
Real measurement of indoor humidity with an enthalpy heat exchanger
It is important to understand that an enthalpy heat exchanger does not generate moisture, it only transfers it from the exhaust air back into the supply air. Therefore, the effect is not immediate but builds up gradually over several days to weeks.
This principle is based on physical laws and long-term real-world experience. That is why enthalpy heat exchangers are an effective solution for homes where ventilation systems cause excessive drying of indoor air.
This is why an enthalpy heat exchanger is one of the most effective solutions for dry indoor air in homes with ventilation systems.
An enthalpic heat exchanger will always help improve indoor humidity, as it transfers part of the moisture from exhaust air back into the fresh supply air. It cannot be guaranteed that ideal levels (typically 40–60%) will be achieved, since the final humidity also depends on other factors – such as household habits, number of occupants, natural moisture sources, and outdoor climate conditions.
We guarantee an improvement in humidity levels, as the recovery of moisture from exhaust air naturally increases indoor humidity.
An enthalpic heat exchanger does not generate humidity – it maximizes the transfer of humidity from exhaust air into fresh supply air. If you previously used a standard exchanger, not only the air but also the building structure (walls, ceilings, floors) and porous materials became dry. This means it may take some time for humidity levels to recover, so patience is necessary.
Every enthalpic exchanger we supply is fully functional and improvement is guaranteed. We recommend keeping natural humidity sources (plants, cooking, drying clothes). If you use humidifiers, continue using them until the humidity rises to a comfortable level with the enthalpic exchanger, after which they can be reduced.
Yes. Unlike a standard exchanger, an enthalpic heat exchanger transfers part of the humidity back into the fresh air. This process is gradual, but you can speed it up by adding humidity – either naturally (plants, drying clothes, washing floors) or with humidifiers. Once the humidity has returned to a stable, optimal level, additional humidification can be reduced.
No, an enthalpic heat exchanger does not generate humidity by itself. It only transfers part of the moisture from the exhaust air back into the fresh supply air. If humidity in your home is too high, the cause lies elsewhere (e.g., insufficient ventilation, drying clothes indoors without venting, or residual construction moisture). The enthalpic exchanger helps balance humidity and prevents extreme fluctuations.
Shutting down the unit during winter
During operation, an enthalpy heat exchanger transfers not only heat but also moisture. Under normal operation, moisture is continuously removed by airflow. However, if the unit is switched off, residual moisture may remain in the exchanger, including in the channels for fresh air supply.
Risks when the unit is switched off
- formation of mold
- unpleasant odors
- reduction of hygiene of the entire system
- long-term reduction of exchanger efficiency
Recommended solution
- keep the unit running at least at minimum power
- ensure continuous ventilation even if the building is not occupied
If it is necessary to switch off the unit
In such a case, we recommend the following procedure:
- Remove the enthalpy heat exchanger from the unit.
- Clean it as follows:
- vacuum with a soft brush attachment
- rinse with clean water (max. 50 °C)
- Allow the exchanger to dry completely (min. 48 hours).
- Then:
- either return it back into the unit
- or store it in a dry and clean place
Important notice
Never leave a damp or contaminated exchanger in a non-operating unit. This may lead to its damage and a permanent reduction in performance.
This procedure is based on real operation and helps prevent the most common problems users encounter.
No, never block the condensate drain.
Even though enthalpic heat exchangers produce only a minimal amount of condensate due to moisture transfer, in severe frost and specific humidity conditions, condensate can still occur. Blocking the drain could cause irreversible damage to your unit.
Yes, installation is simple. Just follow the instructions provided with your unit. As with a standard exchanger, it needs to be removed occasionally for cleaning – the process is the same, except that you put the enthalpic exchanger back in instead.
Feel free to contact us with any unit model. We will do our utmost to provide you with a 100% compatible exchanger, regardless of the type of ventilation unit you have.
In any case, the exchangers we supply are identical to the original parts used by the unit manufacturers, and in many cases, our exchangers are even of higher quality. However, we must clearly state that we are not official distributors of spare parts from the unit manufacturers. Transparency is very important to us.
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No, caring for an enthalpic heat exchanger is no more demanding than for a standard one. Maintenance is described in the user manual and in our video guide. In short: first vacuum the exchanger with a soft brush attachment, then rinse it with clean water (max. 50 °C). Never use compressed air or a pressure washer.
After rinsing, allow all water to drain completely. Remaining moisture can be carefully blown out with a regular hairdryer, but always use cold air only. Once the exchanger is completely dry, place it back into the unit in the same orientation as before removal.
We do not recommend using chemicals for cleaning. Only if disinfection is absolutely necessary may a weak solution of peracetic acid (CH₃CO₃H) at 0.1–0.2% concentration be used, followed by very thorough rinsing with clean water.
The sealing tape must be applied around the perimeter of the exchanger, so that when inserted it presses firmly against the unit walls and prevents false air from being drawn in. The surface of the exchanger must be dry and clean before application. Always apply the tape straight, without gaps or folds, to ensure proper sealing.
Warning: Apply the sealing tape only to those exchangers where it is also present on the original exchanger in your unit. See our user manual.
Watch our short video guide, where we show step by step how to safely handle the new RECUTECH enthalpy heat exchanger to prevent damage.
Cleaning an enthalpy heat exchanger consists of a few simple steps:
- First, vacuum the exchanger using a vacuum cleaner with a soft brush attachment.
- Then rinse it with clean water (max. 50 °C).
- Do not use compressed air or a pressure washer.
- After rinsing, let all water drain out naturally.
- Remaining moisture can be removed with a hair dryer – only using cold air.
- Once completely dry, insert the exchanger back in the same orientation.
Chemical cleaning agents are not recommended. Only if disinfection of the exchanger is necessary, a weak peracetic acid solution (CH₃CO₃H) at a concentration of 0.1–0.2% may be used and must then be thoroughly rinsed with clean water.
Since an enthalpic heat exchanger also transfers humidity, it might seem that the risk of mold is higher. In reality, however, all moisture is carried away with the fresh air, so there is no risk of mold growth.
Our recommendation is to never switch off the unit during the winter months, so that moisture is continuously removed. If you still need to shut down the unit, remove the exchanger, rinse it with clean water, dry it thoroughly, and only then reinstall it.
Yes, the use of an enthalpic heat exchanger is completely safe. The membrane is designed to allow only water vapor molecules to pass through, while blocking bacteria, odors, and harmful substances. All enthalpic heat exchangers we offer are hygienically tested and certified.
What ducting should be used for pool ventilation?
The choice of ductwork material is just as important for a swimming pool as the heat recovery unit itself. An aggressive environment with chlorine content combined with high humidity can destroy improperly selected ducting within a few months.
Why avoid aluminum and cheap “flex” hoses?
Commonly used aluminum flexible ducts (so-called Alu-flexi, Sono-flexi) are completely unsuitable for pool environments. Chlorine vapors cause rapid oxidation of aluminum, which appears as white powder formation followed by perforation of the duct wall.
Warning about leaks: Once corrosion occurs, the system loses pressure balance, humidity in the building structure increases, and mold may develop around leaking duct sections.
Recommended materials for RECUBOX® X-POOL
For long-term reliable operation of pool ventilation, we recommend using materials that naturally resist corrosion:
| Plastic ducting (PVC / PP) | Ideal choice for pools. Smooth plastic ducts are 100% resistant to chlorine and moisture and have minimal pressure losses. |
| Stainless steel ducting | Premium solution with extreme mechanical durability. Suitable for exposed design ducting in interior spaces. |
| Insulated EPE ducting | Excellent for routes passing through unheated areas. Foamed polyethylene is non-absorbent and chemically resistant. |
Important: Slope and condensate drainage
Gravity works for you:
All horizontal duct runs must be sloped towards the RECUBOX® unit (minimum slope 1–2%). Since the RECUBOX® is installed at the lowest point, all condensate containing chlorine compounds flows smoothly into the exchanger and directly into the drain. This prevents the formation of “pockets” of standing water inside the ductwork.
Practical tip: If flexible ducting must be used in certain places (e.g. for connections), always use plastic flexible hoses or hoses with a chemically resistant inner layer. This will help you avoid costly repairs in ceiling spaces in the future.
Note: Proper selection of duct material is crucial to maintain the 12-year warranty on the airtightness of the RECUBOX® unit casing. Inappropriate ducting may negatively affect the hygiene of the entire system.
What fans should be selected for pool ventilation?
The selection of fans for pool areas is critical due to the high humidity and the presence of aggressive chlorine. However, when using the RECUBOX® X-POOL unit, the design of the unit significantly changes the fan resistance requirements in your favor.
1. Fan for supply air (fresh air)
In this part of the system, the situation is the simplest. The supply fan draws in clean outdoor air and pushes it through the heat recovery exchanger into the pool hall.
- Zero corrosion risk: This fan does not come into contact with chlorine or pool humidity, because it works exclusively with outdoor air.
- Choice: A standard high-quality inline duct fan is sufficient for this position without the need for special chemical resistance.
2. Fan for exhaust air (waste air)
Thanks to the unique integration with the RECUBOX® X-POOL unit, the exhaust fan is protected in a way that significantly extends its service life:
- Filtration barrier: Air from the pool first passes through filter fabric, which mechanically captures aerosol (microdroplets of water with concentrated chlorine).
- Condensation cleaning: In the heat recovery exchanger, the air cools down and the moisture condenses. This water binds gaseous chlorine to itself and safely drains it away into the wastewater system.
- Result: The fan placed after the RECUBOX works with significantly “cleaned” air, which protects its motor and bearings.
Recommendations for installation and maintenance
Key rule: RECUBOX® as the lowest point of the system
For proper operation, the RECUBOX® unit must be installed at the lowest point of the air handling route. Only then can the ducting naturally drain all aggressive condensate with chlorine towards the unit and subsequently into the drain. This prevents moisture from accumulating near the fans or at critical duct joints.
| Duct material | For the exhaust branch, we recommend exclusively plastic (PVC/PP) or stainless steel ducting. Aluminum ducting is subject to rapid corrosion. |
| Fan type | We recommend choosing fans in an all-plastic design with protection rating at least IP44. |
| Filter maintenance | Regular inspection of the filter fabric is essential in pools to maintain the cleanliness of the exchanger as well as fan protection. |
Our professional view: The combination of the durable RECUBOX® X-POOL design and suitably selected plastic fans represents the technically cleanest solution for modern pools. This configuration saves costs because it eliminates the need for extremely expensive industrial fans intended for the chemical industry.
Note: The above information represents the manufacturer’s recommended technical practice for extending component service life. The final fan selection should always correspond to the HVAC design and the expected concentration of chemical substances in the specific installation.