Riccardo Simonetti scite author profile

This work summarizes the performance of a Solar Assisted Heat Pump integrating Photovoltaic thermal (PV/T) modules. This configuration reduces the disadvantage of low temperature heat recovery typical of PV/T modules as the fluid temperature is used to drive the heat pump evaporator instead of an end-user and, consequently, can be close to the ambient one. A detailed model featuring real components is developed in MATLAB ® to correctly predict the SAHP performance as function of the design parameters (number of PV/T modules) and ambient conditions (solar irradiance and ambient temperature). In addition, an optimization tool was combined with the model to maximize the COP (Coefficient of Performance) by varying the water flow rate circulating in the PV/T panels. Results outline the benefits of this concept with respect to conventional air/water heat pumps in particular when the ambient temperature is below zero as the frost formation issue is not present. COP reaches high values, between 2.5 and 4.9 in the case with 12 PV/T panels and between 2.2 and 6.2 with 24. Advantages in terms of electricity production are outlined as well, with an increasing of 8-9% of the power produced.

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Riccardo Simonetti

Development and experimental validation of a comprehensive thermoelectric dynamic model of photovoltaic modules

Combined water desalination and electricity generation through a humidification-dehumidification process integrated with photovoltaic-thermal modules: Design, performance analysis and techno-economic assessment

Optimization of cleaning strategies for heliostat fields in solar tower plants

Development and validation of a comprehensive dynamic mathematical model for hybrid PV/T solar collectors

Thermal and electric performances of roll-bond flat plate applied to conventional PV modules for heat recovery

Experimental and analytical study of an innovative integrated dual-source evaporator for solar-assisted heat pumps

Outdoor Assessment and Performance Evaluation of OPV Modules

Modeling of Solar Assisted Heat Pumps Combined with Photovoltaic Thermal Modules

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