Abstract
This study has focused on evaluating the financial potential of wastewater and geothermal heat recovery systems in a multi-family building. The recovered heat was used to improve the performance of mechanical ventilation with heat recovery (MVHR) system during the coldest days in central Sweden. The main issue, which was targeted with these solutions, was to reduce frost formation in the system and hence increase its thermal efficiency. By looking at the life cycle cost over a lifespan of 20 years, the observed systems were being evaluated economically. Furthermore, statistical analyses were carried-out to counter the uncertainty that comes with the calculation. It was found that the studied wastewater systems have a high possibility of generating savings in this period, while the one fed by geothermal energy is less likely to compensate for its high initial cost. All designed systems however, managed to reduce operational cost by 35-45% due to lower energy usage.
Highlights
Mechanical ventilation heat recovery (MVHR) systems are a common technology in the Swedish market
This study has focused on evaluating the financial potential of wastewater and geothermal heat recovery systems in a multi-family building
It was found that the studied wastewater systems have a high possibility of generating savings in this period, while the one fed by geothermal energy is less likely to compensate for its high initial cost
Summary
Mechanical ventilation heat recovery (MVHR) systems are a common technology in the Swedish market. These systems utilize the recovered heat from the exhaust air for preheating the incoming outdoor air [1]. The warm, moist the return air can no longer retain its humidity after being cooled down and the condensation starts to freeze. This leads to a decreased thermal efficiency of the system and a higher electricity demand. Preheating the outdoor air before it enters the MVHR-unit was found to be the most effective method to prevent frosting
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