TY - JOUR
T1 - Practical design of an optical filter for thermal management of photovoltaic modules
AU - Lizcano, Juan Camilo Ortiz
AU - Kaaya, Ismail
AU - Ziar, Hesan
AU - Seoane da Silva , Patricia
AU - Zhou, Yilong
AU - Zeman, Miro
AU - Isabella, Olindo
PY - 2024
Y1 - 2024
N2 - This work presents a practical approach to designing an optical filter for thermal management for photovoltaic modules. The approach emphasizes the practicality of manufacturing over optical performance. Simulation work demonstrates that, for an interdigitated back contact solar cell architecture, complete rejection of infrared radiation offers limited thermal benefits requiring highly complex optical filter designs. An alternative approach consists of reducing thermalization losses by providing reflectance at lower wavelength values. An optical filter design that fulfills this requirement is possible using simple structures based on two materials and taking advantage of the harmonics present in quarter wavelength optical thickness designs. The filter is later optimized for angular performance via second-order algorithms, resulting in a device consisting of only 15 thin-film layers. Performance simulations on two locations, Delft (the Netherlands) and Singapore, estimate a temperature reduction of 2.20°C and 2.45°C, respectively. In a single year, the optical loss produced by the filter is not compensated via temperature reduction. However, improvements in the annual degradation rate show that in Singapore, the overall effect of the filter on the lifetime DC energy yield is positive.
AB - This work presents a practical approach to designing an optical filter for thermal management for photovoltaic modules. The approach emphasizes the practicality of manufacturing over optical performance. Simulation work demonstrates that, for an interdigitated back contact solar cell architecture, complete rejection of infrared radiation offers limited thermal benefits requiring highly complex optical filter designs. An alternative approach consists of reducing thermalization losses by providing reflectance at lower wavelength values. An optical filter design that fulfills this requirement is possible using simple structures based on two materials and taking advantage of the harmonics present in quarter wavelength optical thickness designs. The filter is later optimized for angular performance via second-order algorithms, resulting in a device consisting of only 15 thin-film layers. Performance simulations on two locations, Delft (the Netherlands) and Singapore, estimate a temperature reduction of 2.20°C and 2.45°C, respectively. In a single year, the optical loss produced by the filter is not compensated via temperature reduction. However, improvements in the annual degradation rate show that in Singapore, the overall effect of the filter on the lifetime DC energy yield is positive.
KW - lifetime
KW - optical filters
KW - performance modeling
KW - reliability
KW - thermal management
UR - http://www.scopus.com/inward/record.url?scp=85187772974&partnerID=8YFLogxK
U2 - 10.1002/pip.3813
DO - 10.1002/pip.3813
M3 - Article
AN - SCOPUS:85187772974
SN - 1062-7995
VL - 32
SP - 753
EP - 773
JO - Progress in Photovoltaics: research and applications
JF - Progress in Photovoltaics: research and applications
IS - 11
ER -