Investigation of the conservation potential of residential heat pumps with thermal energy storage. Final report
This study examined the operational and economic feasibility of heat pump systems with thermal storage to: reduce annual electric cost for residential customers by operating the system during hourly periods, both summer and winter, when the most favorable coefficient of performance can be obtained; and provide the potential for a reduction in peak electric utility demand, by delivering mid-day cooling from storage, with the compressor operating only during utility off-peak periods. To meet these objectives the performance characteristics of two storage system concepts, a liquid tank storage system and a rock-bed storage system were evaluated using computer simulation techniques. Integral energy requirements calculated during the simulation were converted into annual operating costs for each system. Incremental installation costs and incremental performance benefits, relative to the Base system, were analyzed to derive an approximate payback period for the two storage concepts. The results showed that a heat pump-thermal energy storage system would consume 8 to 9% less electrical power than a conventional heat pipe installation which, at 4.5 cents/kWh, translates to annual savings of from $30 to $39. Due to installation costs, the payback period would be from 65 to 94 years. It is concluded that heat pumps with thermal storage will not be economically attractive for residential applications, and that further research on thermal storage for comfort systems should concentrate on applications for large commercial and industrial buildings. (LCL)
- Research Organization:
- Southern Methodist Univ., Dallas, TX (USA). Dept. of Civil and Mechanical Engineering
- OSTI ID:
- 6657783
- Report Number(s):
- TENRAC/EDF-013; ON: DE83900783
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
250600 -- Energy Storage-- Thermal
32 ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION
320101* -- Energy Conservation
Consumption
& Utilization-- Residential Buildings-- (-1987)
BUILDINGS
CAPITALIZED COST
COMPUTERIZED SIMULATION
COOLING
COST
ECONOMIC ANALYSIS
ECONOMICS
ENERGY CONSERVATION
ENERGY CONSUMPTION
EQUIPMENT
FEASIBILITY STUDIES
HEAT PUMPS
HEATING
HOUSES
OPERATING COST
PAYBACK PERIOD
PERFORMANCE
POWER DEMAND
RESIDENTIAL BUILDINGS
SIMULATION
SPACE HEATING
THERMAL ENERGY STORAGE EQUIPMENT