Litcius/Paper detail

Improving the efficiency of photovoltaic panels using air exhausted from HVAC systems: Thermal modelling and parametric analysis

Wassim Salameh, Cathy Castelain, Jalal Faraj, Rabih Murr, Hicham El Hage, Mahmoud Khaled

2021Case Studies in Thermal Engineering22 citationsDOIOpen Access PDF

Abstract

The present work proposes the engagement of relatively cold air exhausted from Heating, Ventilating and Air Conditioning (HVAC) systems, that exist in structures such as residential commercial and industrial, to reduce the PV modules’ operational temperature. To proceed, a thermal resistance model in steady state is developed along with its corresponding iterative procedure and calculations which are carried out for different configurations and scenarios. The thermal modeling was validated by comparing it to experimental measurement found in the literature. It was revealed that the PV modules’ temperature can be reduced with increasing the mass flow rate of the exhaust air. However, the air mass flow rate depends on the cooling load need; which increases with increasing the cooling load. The efficiency of the PV has shown an increase from 11 to 18% when the cooling load increases from 0 to 160 kW for a solar radiation of 500 W/m2. Moreover, there is an optimum height for the exhaust air duct for each cooling load that must be determined.

Topics & Concepts

HVACDuct (anatomy)Environmental scienceCooling loadMass flow rateAirflowPhotovoltaic systemThermalConstant air volumeAir conditioningParametric statisticsWork (physics)Nuclear engineeringAir mass (solar energy)Volumetric flow rateMass flowMaterials scienceAutomotive engineeringMechanical engineeringMechanicsMeteorologyEngineeringElectrical engineeringStatisticsPhysicsMathematicsBoundary layerPathologyMedicineSolar Thermal and Photovoltaic SystemsBuilding Energy and Comfort OptimizationPhotovoltaic System Optimization Techniques