How is Efficiency of Heat Exchangers (HRV) determined

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Heat Recovery Ventilators (HRVs) can recover up to 85% of heat due to their use of countercurrent flow heat exchangers, which theoretically allow for higher efficiency than simple equal airflow systems. While perfect conditions might suggest a maximum recovery of 50%, real-world applications achieve better results through advanced design. These heat exchangers are optimized for specific operating conditions, which is crucial for maintaining efficiency. However, the performance of household heat pump systems can significantly decline in colder temperatures, such as below 45°F (7.2°C). Understanding these principles clarifies how HRVs can effectively recover heat in practical scenarios.
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I've be looking at the specs for Heat Recovery Ventilators (HRV).

They commonly state that they can recover 85% of the heat. How is that possible? To me you could only every recover 50% in a perfect situation because of the equal volume of airflow's. Won't the air temperatures just stop at equilibrium?
 
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Commercially designed heat exchangers must be designed with a fairly strict operating (especially ambient environmental) temperature window in mind to keep to high levels of efficiency. The common household so-called "heat pump" systems efficiency drops precipitously below 45 F (7.2C) for example.
 
Thanks a lot Aleph you answered my question, that wiki was helpful.
 
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