Enthalpy Heat Exchangers for Ventilation Units – Comparison

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.

The overview also includes three key diagrams, which make it possible to compare exchanger behavior depending on the air volume flow rate:

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

Comparison of Enthalpy Heat Exchangers (366 × 366 × 400 mm)

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	Click to enlarge	Click to enlarge	Click to enlarge	Click to enlarge
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

REKUPEX Recommendation

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

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.

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.

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.

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.

However, we can guarantee that humidity will improve, because it is physically impossible for the return of moisture not to contribute to higher values.

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.

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.

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.

The enthalpic plate works the same from both sides, so the orientation of the plate itself does not matter. However, it is essential that after cleaning the exchanger is always reinstalled in the same orientation, ensuring that the channels for fresh air remain for fresh air and the channels for exhaust air remain for exhaust air.

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.