Multi-stress durability testing to better predict outdoor performance of PV modules

Gambogi, William J.; Kopchick, James G.; Felder, Thomas; MacMaster, Steven; Bradley, Alexander Z.; Hamzavy, Babak; Yu, Bao-Ling; Stika, Katherine M.; Garreau-Iles, Lucie; Wang, Chiou Fu; Hu, Hongjie; Heta, Yushi; Trout, T. John

doi:10.1109/pvsc.2015.7355708

Cited by 3 publications

(6 citation statements)

References 6 publications

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“…Backsheets based on PVF and PET have been used for more than 30 years and have served as good standards for performance and durability in PV applications. Field studies have confirmed its outstanding long-term performance relative to other backsheet materials [106,129].…”

Section: Lessons Learned From New Degradation Modes Explained By the ...mentioning

confidence: 86%

“…Several 'extended testing' procedures were proposed from different test houses, manufacturers, reinsurance and engineering companies, see e.g. [105], DuPont [106] and the Product qualification Program of PVEL [107] having both eight parallel test sequences, but different ones.…”

Section: Impact On Module Testing Procedures and Standardizationmentioning

confidence: 99%

“…Field-specific errors have also been observed for other materials. Gambogi et al have observed PVDF cracks in backsheets of modules in the field-a failure pattern that could be replicated by sequential interior exposures [106,149]. These cracking effects have been associated with a change in phase of the PVDF material.…”

Section: Critical Backsheet Issues Of Fielded Modulesmentioning

confidence: 99%

“…MAST starts with exposure of the samples to 1000 h of damp heat, and 1000 h in a UVA chamber followed by sequence of 200 thermal cycles and additional 1000 h in the UVA chamber [162]. This test sequence mimics the amount of approximately 25 years' worth of humidity, UV and mechanical stress seen in the field [106,155,158,162]. Using this approach cracking of PA and PVDF based backsheets was successfully replicated.…”

Section: New Approaches For Indoor Accelerated Aging Testsmentioning

confidence: 99%

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Motivation, benefits, and challenges for new photovoltaic material & module developments

Stein

Eder²,

Berger

et al. 2022

Prog. Energy

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In the last decade and longer, photovoltaic module manufacturers have experienced a rapidly growing market along with a dramatic decrease in module prices. Such cost pressures have resulted in a drive to develop and implement new module designs, which either increase performance and/or lifetime of the modules or decrease the cost to produce them. In this paper, the main motivations and benefits but also challenges for material innovations will be discussed. Many of these innovations include the use of new and novel materials in place of more conventional materials or designs. As a result, modules are being produced and sold without a long-term understanding about the performance and reliability of these new materials. This has lead to unexpected new failure mechanisms occuring few years after deployment, such as Potential Induced Degradation or backsheet cracking. None of these failure modes have been detected after the back then common single stress tests. New accelerated test approaches are based on a combination or sequence of multiple stressors that better reflect outdoor conditions. That allows for identification of new degradation modes linked to new module materials or module designs.

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Section: Lessons Learned From New Degradation Modes Explained By the ...mentioning

confidence: 86%

Section: Impact On Module Testing Procedures and Standardizationmentioning

confidence: 99%

Section: Critical Backsheet Issues Of Fielded Modulesmentioning

confidence: 99%

Section: New Approaches For Indoor Accelerated Aging Testsmentioning

confidence: 99%

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Motivation, benefits, and challenges for new photovoltaic material & module developments

Stein

Eder²,

Berger

et al. 2022

Prog. Energy

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“…In addition, glass is difficult to deteriorate due to UV and hygrothermal stress unlike normal PET. 9,10) And A lower water vapor transmission rate than the normal type backsheet prevent acetic acid from producing. 11,12) Figures 5-7 show the result of a 5400 Pa mechanical load test after 3000 h of damp heat test (DH), a thermal cycle test (TC) of 600 cycles, and combination test repeated three times that involved a thermal cycle test and humidity freeze test (HF).…”

Section: Reliability Testsmentioning

confidence: 99%

Development of high-efficiency bifacial photovoltaic module and simulation method for its power generation

Nakamura

Fukumochi²,

Maruyama³

et al. 2015

Jpn. J. Appl. Phys.

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We have been producing the bifacial module, the HIT ® Double, since 2000. This module was the first to be released in the world. 1) We have since been developing high efficiency bifacial modules. We released a new bifacial photovoltaic (PV) module in 2013. It has a conversion efficiency of 16.0% in spite of having a light-through area of 8% within the total module area, and the temperature coefficient of the output power is quite good at %0.29%/°C. It passed various environmental tests that are much stricter than the industrial standard. Our field test showed the effectiveness of vertically installing the bifacial module, especially when installed on ground that highly reflects light such as snow or white limestone. We developed an original simulation method to accurately estimate the energy production of the bifacial module. A simulation accuracy of about 3.7% was confirmed through practical test results at our field test site in Niigata Prefecture, Japan.

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Recent developments of polymer-based encapsulants and backsheets for stable and high-performance silicon photovoltaic modules: materials nanoarchitectonics and mechanisms

Kim,

Lim,

Kim

et al. 2024

J. Mater. Chem. A

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Multi-stress durability testing to better predict outdoor performance of PV modules

Cited by 3 publications

References 6 publications

Motivation, benefits, and challenges for new photovoltaic material & module developments

Motivation, benefits, and challenges for new photovoltaic material & module developments

Development of high-efficiency bifacial photovoltaic module and simulation method for its power generation

Recent developments of polymer-based encapsulants and backsheets for stable and high-performance silicon photovoltaic modules: materials nanoarchitectonics and mechanisms

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