DOI
10.5703/1288284318530
Description
This research investigates the electro-thermal performance of DC-powered air-source heat pump systems integrated into residential DC Nanogrids. By avoiding AC-DC conversion losses and further optimizing renewable energy integration, DC-powered heat pumps offer better energy efficiency and system stability. A comprehensive MATLAB/Simulink model is developed by integrating electrodynamics and thermodynamics to predict system behavior across a wide range of environmental and operational conditions.
Electro-Thermal Performance of DC-Powered heat pumps in nanogrid applications
This research investigates the electro-thermal performance of DC-powered air-source heat pump systems integrated into residential DC Nanogrids. By avoiding AC-DC conversion losses and further optimizing renewable energy integration, DC-powered heat pumps offer better energy efficiency and system stability. A comprehensive MATLAB/Simulink model is developed by integrating electrodynamics and thermodynamics to predict system behavior across a wide range of environmental and operational conditions.