Abstract
The wastewater leaving from homes and businesses contains abundant low-grade energy, which can be utilized through heat pump technology to heat and cool buildings. Although the energy in the wastewater has been successfully utilized to condition buildings in other countries, it is barely utilized in the United States, until recently. In 2013, the Denver Museum of Nature & Science at Denver, the United States implemented a unique heat pump system that utilizes recycled wastewater from a municipal water system to cool and heat its 13,000 m2 new addition. This recycled water heat pump (RWHP) system uses seven 105 kW (cooling capacity) modular water-to-water heat pumps (WWHPs). Each WWHP uses R-410A refrigerant, has two compressors, and can independently provide either 52 °C hot water (HW) or 7 °C chilled water (CHW) to the building. This paper presents performance characterization results of this RWHP system based on the measured data from December 2014 through August 2015. The annual energy consumption of the RWHP system was also calculated and compared with that of a baseline Heating, Ventilation, and Air Conditioning (HVAC) system which meets the minimum energy efficiencies that are allowed by American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) 90.1-2013. The performance analysis results indicate that recycled water temperatures were favorable for effective operation of heat pumps. As a result, on an annual basis, the RWHP system avoided 50% of source energy consumption (resulting from reduction in natural gas consumption although electricity consumption was increased slightly), reduced CO2 emissions by 41%, and saved 34% in energy costs as compared with the baseline system.
Highlights
About 60% of the domestic water is heated for showers, water heaters, dishwashers, and cloth washers [1]
The effective coefficient of performance (COP) of the entire recycled water heat pump (RWHP) system—which accounts for the supplemental heat input from the steam HX in the source loop, as well as the power consumptions of the cooling tower, the recycled wastewater (RW) pump, and the source loop pumps—rose from 2.6 to 4.4 with the increase in OAT, which is coincidental with the increased simultaneous heating and cooling operation of the water-to-water heat pumps (WWHPs)
This paper presents performance characterization results of a RWHP system, which uses the recycled water from a municipal water system as a heat sink and heat source for heat pumps
Summary
About 60% of the domestic water is heated for showers, water heaters, dishwashers, and cloth washers [1]. Use a water source heat pump to recover heat from the treated wastewater and provide space heating (and/or to dump the heat removed from a building to the wastewater during space cooling operation). A cooling tower and another steam HX are installed at the source water loop to serve as a backup heat sink and source when RW is not available or insufficient to keep the source water temperature within a desired range. The source loop steam HX is activated when the source water temperature after exchanging heat with the precooling loop (TSL3 in Figure 1) is lower than 10 ◦ C and it is deactivated when TSL3 is higher than 12.8 ◦ C. When it is turned on, the speed of the RW pump is modulated to maintain the temperature differential of the RW at 5.5 ◦ C across the RW HX
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