Component dimensioning for a combined photovoltaic and heat pump system installed in a residential building
Session
Energy Efficiency Engineering
Description
The intermittent nature of renewable energy sources has attracted much interest in the integration of storage devices towards the deployment of micro-grid systems. In fact, these devices can be placed in the system decoupling energy production from consumption mainly by storing the extra energy produced by RES during the day for eventual use at night. However, for stand-alone systems, calculating the optimal size of power generation systems and storage devices is required for continuous power supply. The energy sector faces a continuous increase in PV battery energy storage systems. These systems are applied to increase the rate of self-consumption of home photovoltaic systems. The energy generated by the PV system can also be used for space heating and domestic hot water to contribute to the decarburization of the heating sector. Sectorial coupling of energy and heat can be achieved using heat pump systems. The combined system is capable of providing renewable energy for the heating and electricity needs of households. Therefore the Dimensioning of the various system components greatly affects the economics of PV with combined power and heat.
Keywords:
PV system, heat pump, components, residential building
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-550-50-5
Location
UBT Kampus, Lipjan
Start Date
29-10-2022 12:00 AM
End Date
30-10-2022 12:00 AM
DOI
10.33107/ubt-ic.2022.126
Recommended Citation
Neziri, Atdhe; Krasniqi, Nexhmi; and Ymeri, Armend, "Component dimensioning for a combined photovoltaic and heat pump system installed in a residential building" (2022). UBT International Conference. 127.
https://knowledgecenter.ubt-uni.net/conference/2022/all-events/127
Component dimensioning for a combined photovoltaic and heat pump system installed in a residential building
UBT Kampus, Lipjan
The intermittent nature of renewable energy sources has attracted much interest in the integration of storage devices towards the deployment of micro-grid systems. In fact, these devices can be placed in the system decoupling energy production from consumption mainly by storing the extra energy produced by RES during the day for eventual use at night. However, for stand-alone systems, calculating the optimal size of power generation systems and storage devices is required for continuous power supply. The energy sector faces a continuous increase in PV battery energy storage systems. These systems are applied to increase the rate of self-consumption of home photovoltaic systems. The energy generated by the PV system can also be used for space heating and domestic hot water to contribute to the decarburization of the heating sector. Sectorial coupling of energy and heat can be achieved using heat pump systems. The combined system is capable of providing renewable energy for the heating and electricity needs of households. Therefore the Dimensioning of the various system components greatly affects the economics of PV with combined power and heat.