Setting Priorities for Photovoltaic Reliability Research Using Criticality Analysis

IF 2.5 3区工程技术 Q3 ENERGY & FUELS IEEE Journal of Photovoltaics Pub Date : 2023-10-26 DOI:10.1109/JPHOTOV.2023.3324996

Ingrid L. Repins;Michael G. Deceglie;Timothy J. Silverman;David C. Miller;Dirk C. Jordan;Mike Woodhouse;Teresa M. Barnes

引用次数: 0

Abstract

A forward-looking research opportunity number (RON) is defined for photovoltaic reliability researchers. The RON enables researchers to prioritize their efforts toward the highest impact. For a given degradation mode, the RON is based on three factors: the effect on levelized cost of electricity, the susceptibility of future module products, and the maturity of accelerated tests that can detect and quantify the mode. Reporting bias is avoided because the RON does not rely on polls. The RON is derived for three example cases: light and elevated temperature degradation, backsheet cracking, and antireflective coating abrasion. These examples demonstrate that targeted research has reduced the risk for these modes over the last several years.

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利用临界分析确定光伏可靠性研究的优先次序

为光伏可靠性研究人员定义了前瞻性研究机会编号（RON）。RON 使研究人员能够优先考虑影响最大的工作。对于给定的退化模式，RON 基于三个因素：对平准化电力成本的影响、未来组件产品的易损性以及可检测和量化该模式的加速测试的成熟度。由于 RON 不依赖于民意调查，因此避免了报告偏差。RON 是针对三个实例得出的：光照和高温降解、背板开裂和抗反射涂层磨损。这些示例表明，在过去几年中，有针对性的研究已经降低了这些模式的风险。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Journal of Photovoltaics ENERGY & FUELS-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

7.00

自引率

10.00%

发文量

206

期刊介绍： The IEEE Journal of Photovoltaics is a peer-reviewed, archival publication reporting original and significant research results that advance the field of photovoltaics (PV). The PV field is diverse in its science base ranging from semiconductor and PV device physics to optics and the materials sciences. The journal publishes articles that connect this science base to PV science and technology. The intent is to publish original research results that are of primary interest to the photovoltaic specialist. The scope of the IEEE J. Photovoltaics incorporates: fundamentals and new concepts of PV conversion, including those based on nanostructured materials, low-dimensional physics, multiple charge generation, up/down converters, thermophotovoltaics, hot-carrier effects, plasmonics, metamorphic materials, luminescent concentrators, and rectennas; Si-based PV, including new cell designs, crystalline and non-crystalline Si, passivation, characterization and Si crystal growth; polycrystalline, amorphous and crystalline thin-film solar cell materials, including PV structures and solar cells based on II-VI, chalcopyrite, Si and other thin film absorbers; III-V PV materials, heterostructures, multijunction devices and concentrator PV; optics for light trapping, reflection control and concentration; organic PV including polymer, hybrid and dye sensitized solar cells; space PV including cell materials and PV devices, defects and reliability, environmental effects and protective materials; PV modeling and characterization methods; and other aspects of PV, including modules, power conditioning, inverters, balance-of-systems components, monitoring, analyses and simulations, and supporting PV module standards and measurements. Tutorial and review papers on these subjects are also published and occasionally special issues are published to treat particular areas in more depth and breadth.

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