Prototype of an air to air thermoelectric heat pump integrated with a double flux mechanical ventilation system for passive houses

This paper describes the design of an air-to-air thermoelectric heat pump for its integration with a double flux mechanical ventilation system for domestic use in Passive House standard. The prototype has been built and thermally characterized in a test bench reproducing winter and summer conditions, with different gaps between indoor and outdoor temperatures. In addition, two different integration possibilities have been analyzed and tested: a stand-alone installation and the combination with a heat recovery unit. This prototype is composed of 10 thermoelectric modules and finned heat pipes to transfer the heat between the modules and the incoming and outgoing ventilation flows. The maximum heating capacity with 12 V supply was proven to be 1,250 W for heating and 375 W for cooling, with COPs ranging 1.5-4 and 0.5-2.5 respectively. Results show the variations in the performance of the thermoelectric heat pump depending on the voltage supply (3-12 V), the air flows (55-130 m3/h) and the temperature gaps between them. This paper demonstrates the convenience of combining passive and active heat recovery technologies (thermoelectric pump coupled to a heat recovery unit), bringing improvements on the thermal power higher than 25% for heating and 10% for cooling, with respect to the thermoelectric heat pump working directly between the incoming and outgoing air flows. The COP is also increased, especially for low energy demands, when the voltage is 3-6 V. In these cases, the COP might be improved by 50% for heating and 30% for cooling.

Automated summary

This paper describes the design and testing of an air-to-air thermoelectric heat pump integrated with a double flux mechanical ventilation system for domestic use in Passive House standard. Results show that the performance of the thermoelectric heat pump varies depending on different conditions, with improvements in heating and cooling efficiency when combined with a heat recovery unit.