Litcius/Paper detail

Performance enhancement of double pass photovoltaic/thermal solar collector using asymmetric compound parabolic concentrator (PV/T-ACPC) for façade application in different climates

Wan Nur Adilah Wan Roshdan, Hasila Jarimi, Ali H.A. Al‐Waeli, Omar Ramadan, Kamaruzzaman Sopian

2022Case Studies in Thermal Engineering32 citationsDOIOpen Access PDF

Abstract

Symmetrical compound parabolic concentrators (CPC) for a stationary double pass photovoltaic thermal (PV/T) air solar collector has been widely employed. However, for high yearly energy delivery, the solar incidence angle must be within the full acceptance angle of the CPC which is a challenge to determine for a symmetrical CPC. This paper presents the performance enhancement of a double pass photovoltaic/thermal air solar collector using an asymmetric compound parabolic concentrator (PV/T-ACPC) suitable for building façade application. Mathematical modelling was developed and validated against established experimental results. The potential of double pass PV/T-ACPC was then evaluated for different locations that represent low, mid, and high latitudes. Double pass PV/T-ACPC outperforms the conventional symmetric compound parabolic concentrator (PV/T-CPC) and the conventional flat type of double pass PV/T solar air collector. When compared with conventional flat type, the average percentage increase in the average daily total power yield for the PV/T-ACPC is as high as 14% and 50% for the low and mid-latitude, and high latitude countries, respectively. Meanwhile, for the PV/T CPC, the percentage of the average daily total power yield was slightly negative in value for low and mid-latitude countries, which indicates worse performance compared to the conventional type.

Topics & Concepts

Photovoltaic systemNonimaging opticsThermalSolar energyConcentratorEnvironmental scienceMaterials scienceOpticsMeteorologyElectrical engineeringPhysicsOptoelectronicsEngineeringSolar Thermal and Photovoltaic SystemsPhotovoltaic System Optimization Techniquessolar cell performance optimization