Optimization of a Raw Water Source Heat Pump for a Vertical Water Treatment Building

摘要

The optimum operation conditions of a raw water source heat pump for a vertical water treatment building were derived by changing operation parameters, such as temperature of thermal storage tank, temperature and inlet air flow rate of the conditioned spaces, and circulating water flow rate between thermal storage tank and air handling unit (AHU) through dynamic simulator of a transient system simulation program (TRNSYS). Minimum electric power consumption was found at temperature of thermal storage tank, which was ranged 18-23℃ for cooling season. In heating season, temperature 40-45℃ brings the highest coefficient of performance (COP) and temperature range of 30-35℃ brings the lowest power consumption. When the temperature of the conditioned spaces was controlled between 27-28℃ for cooling season, and 18-20℃ for heating season the minimum electric power consumption was obtained. Inlet air flow rate of 1.1m~3/h for the conditioned spaces shows the highest performance of the present system, and effects of circulating water flow rate between thermal storage tank and AHU on minimum electric power consumption of the system were negligible.