A platform for research: civil engineering, architecture and urbanism
Performance of two-stage variable capacity air source heat pump: Field performance results and TRNSYS simulation
Highlights Investigation is reported on the performance of air source heat pump (ASHP) system. The controlled testing and TRNSYS simulation was performed. The results shown that the use of variable speed ASHP provides better efficiency. The seasonal coefficient of performance in cooling was turned out to be 5.3. The seasonal coefficient of performance in heating was turned out to be 3.2.
Abstract An investigation is reported on the performance of a two-stage variable capacity air source heat pump (ASHP) system, recently installed at the Archetype Sustainable House (ASH) in Woodbridge, Ontario, Canada. The controlled testing on the system was carried out in both summer and winter seasons for 4 to 6 weeks. TRNSYS simulation was performed and validated to model the performance of ASHP. The experimental data were extrapolated to predict the annual performance of ASHP. It was noticed for the cooling mode, the coefficient of performance (COP) varied between 4.7 to 5.7 as the outdoor air temperature changed from 33°C to 16°C, respectively. While in the heating mode, the COP varied between 1.79 and 5.0 as the temperature of outdoor air changed from −19°C to 9°C, respectively. The performance result has indicated that the use of variable speed ASHP provides an improvement in the efficiency as compared to other available options. These enhancements are due to the reduction in the operating cyclic time and relatively lower operating speeds of the device.
Performance of two-stage variable capacity air source heat pump: Field performance results and TRNSYS simulation
Highlights Investigation is reported on the performance of air source heat pump (ASHP) system. The controlled testing and TRNSYS simulation was performed. The results shown that the use of variable speed ASHP provides better efficiency. The seasonal coefficient of performance in cooling was turned out to be 5.3. The seasonal coefficient of performance in heating was turned out to be 3.2.
Abstract An investigation is reported on the performance of a two-stage variable capacity air source heat pump (ASHP) system, recently installed at the Archetype Sustainable House (ASH) in Woodbridge, Ontario, Canada. The controlled testing on the system was carried out in both summer and winter seasons for 4 to 6 weeks. TRNSYS simulation was performed and validated to model the performance of ASHP. The experimental data were extrapolated to predict the annual performance of ASHP. It was noticed for the cooling mode, the coefficient of performance (COP) varied between 4.7 to 5.7 as the outdoor air temperature changed from 33°C to 16°C, respectively. While in the heating mode, the COP varied between 1.79 and 5.0 as the temperature of outdoor air changed from −19°C to 9°C, respectively. The performance result has indicated that the use of variable speed ASHP provides an improvement in the efficiency as compared to other available options. These enhancements are due to the reduction in the operating cyclic time and relatively lower operating speeds of the device.
Performance of two-stage variable capacity air source heat pump: Field performance results and TRNSYS simulation
Safa, Amir A. (author) / Fung, Alan S. (author) / Kumar, Rakesh (author)
Energy and Buildings ; 94 ; 80-90
2015-02-16
11 pages
Article (Journal)
Electronic Resource
English
Operation analysis of the air-source heat pump using TRNSYS simulation tool
BASE | 2021
|Empirical modelling of variable capacity air-to-air heat pumps in trnsys
Taylor & Francis Verlag | 2022
|Investigation of Heat Pump Efficiency in Baltic States Using TRNSYS Simulation Tool
Online Contents | 2022
|Investigation of Heat Pump Efficiency in Baltic States Using TRNSYS Simulation Tool
DOAJ | 2022
|