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Onymous early‐life performance degradation analysis of recent photovoltaic module technologies

Marios Theristis, Joshua S. Stein, Chris Deline, Dirk Jordan, Charles Robinson, William Sekulic, A. Anderberg, Dylan J. Colvin, Joseph Walters, Hubert Seigneur, Bruce H. King

2022Progress in Photovoltaics Research and Applications69 citationsDOIOpen Access PDF

Abstract

Abstract The cost of photovoltaic (PV) modules has declined by 85% since 2010. To achieve this reduction, manufacturers altered module designs and bill of materials; changes that could affect module durability and reliability. To determine if these changes have affected module durability, we measured the performance degradation of 834 fielded PV modules representing 13 module types from 7 manufacturers in 3 climates over 5 years. Degradation rates ( Rd ) are highly nonlinear over time, and seasonal variations are present in some module types. Mean and median degradation rate values of −0.62%/year and −0.58%/year, respectively, are consistent with rates measured for older modules. Of the 23 systems studied, 6 have degradation rates that will exceed the warranty limits in the future, whereas 13 systems demonstrate the potential of achieving lifetimes beyond 30 years, assuming Rd trends have stabilized.

Topics & Concepts

WarrantyDegradation (telecommunications)DurabilityPhotovoltaic systemReliability engineeringReliability (semiconductor)Environmental scienceReduction (mathematics)Computer scienceElectrical engineeringMathematicsEngineeringPhysicsTelecommunicationsPower (physics)ThermodynamicsGeometryLawDatabasePolitical sciencePhotovoltaic System Optimization TechniquesPhotovoltaic Systems and SustainabilityAdvanced Battery Technologies Research
Onymous early‐life performance degradation analysis of recent photovoltaic module technologies | Litcius