Impact of Measured Spectrum Variation on Solar Photovoltaic Efficiencies Worldwide

Geoffrey Kinsey; Nicholas Riedel-Lynagskaer; Alonso-Abella Miguel; Matthew Boyd; Marilia Braga; Chunhui Shou; Raul Cordero; Benjamin Duck; Christopher Fell; Sarah Feron; George Georghiou; Nicholas Habryl; Jim John; Nipon Ketjoy; Gabriel Lopez; Atse Louwen; Elijah Maweza; Takashi Minemoto; Ankit Mittal; Cecile Molto; Guilherme Neves; Gustavo Garrido; Matthew Norton; Basant Paudyal; Enio Pereira; Yves Poissant; Lawrence Pratt; Qu Shen; Thomas Reindl; Marcus Rennhofer; Carlos Rodriguez-Gallegos; Ricardo Ruther; Wilfried van Sark; Miguel Sevillano-Bendezu; Hubert Seigneur; Jorge Tejero; Marios Theristis; Jan Tofflinger; Carolin Ulbrich; Waldeir Vilela; Xiangao Xia; Marcia Yamasoe

doi:10.1016/j.renene.2022.07.011

Impact of Measured Spectrum Variation on Solar Photovoltaic Efficiencies Worldwide

Geoffrey Kinsey
, Nicholas Riedel-Lynagskaer
, Alonso-Abella Miguel
, Matthew Boyd
, Marilia Braga
, Chunhui Shou
, Raul Cordero
, Benjamin Duck
, Christopher Fell
, Sarah Feron
, George Georghiou
, Nicholas Habryl
, Jim John
, Nipon Ketjoy
, Gabriel Lopez
, Atse Louwen
, Elijah Maweza
, Takashi Minemoto
, Ankit Mittal
, Cecile Molto

Guilherme Neves, Gustavo Garrido, Matthew Norton, Basant Paudyal, Enio Pereira, Yves Poissant, Lawrence Pratt, Qu Shen, Thomas Reindl, Marcus Rennhofer, Carlos Rodriguez-Gallegos, Ricardo Ruther, Wilfried van Sark, Miguel Sevillano-Bendezu, Hubert Seigneur, Jorge Tejero, Marios Theristis, Jan Tofflinger, Carolin Ulbrich, Waldeir Vilela, Xiangao Xia, Marcia Yamasoe

Center for Energy Conversion and Storage Systems

Zuva Energy Consulting
Technical University of Denmark
Centro de Investigaciones Energeticas, Medioambientales y Tecnologicas
Universidade Federal de Santa Catarina
Zhejiang Energy Group
University of Santiago Chile
Commonwealth Scientific & Industrial Research Organisation
University of Cyprus
University of Central Florida
Dubai Electricity And Water Authority
Naresuan University
University of Huelva
EURAC Research
Austrian Institute of Technology
Ritsumeikan University
National Institute for Space Research (Brazil)
University of Jaen
University of Agder
Natural Resources Canada
Council for Scientific & Industrial Research (South Africa)
National University of Singapore
Utrecht University
Pontifical Catholic University of Peru
Sandia National Laboratories
Helmholtz-Zentrum Berlin
Chinese Academy of Sciences
University of Sao Paulo

Research output: Contribution to journal › Article › peer-review

46 Scopus Citations

Abstract

In photovoltaic power ratings, a single solar spectrum, AM1.5, is the de facto standard for record laboratory efficiencies, commercial module specifications, and performance ratios of solar power plants. More detailed energy analysis that accounts for local spectral irradiance, along with temperature and broadband irradiance, reduces forecast errors to expand the grid utility of solar energy. Here, ground-level measurements of spectral irradiance collected worldwide have been pooled to provide a sampling of geographic, seasonal, and diurnal variation. Applied to nine solar cell types, the resulting divergence in solar cell efficiencies illustrates that a single spectrum is insufficient for comparisons of cells with different spectral responses. Cells with two or more junctions tend to have efficiencies below that under the standard spectrum. Silicon exhibits the least spectral sensitivity: relative weekly site variation ranges from 1% in Lima, Peru to 14% in Edmonton, Canada.

Original language	American English
Pages (from-to)	995-1016
Number of pages	22
Journal	Renewable Energy
Volume	196
DOIs	https://doi.org/10.1016/j.renene.2022.07.011
State	Published - 2022

NLR Publication Number

NREL/JA-5700-83771

Keywords

energy yield
forecasting
photovoltaics
spectral irradiance

Access to Document

10.1016/j.renene.2022.07.011

Cite this

Kinsey, G., Riedel-Lynagskaer, N., Miguel, A.-A., Boyd, M., Braga, M., Shou, C., Cordero, R., Duck, B., Fell, C., Feron, S., Georghiou, G., Habryl, N., John, J., Ketjoy, N., Lopez, G., Louwen, A., Maweza, E., Minemoto, T., Mittal, A., ... Yamasoe, M. (2022). Impact of Measured Spectrum Variation on Solar Photovoltaic Efficiencies Worldwide. Renewable Energy, 196, 995-1016. https://doi.org/10.1016/j.renene.2022.07.011

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title = "Impact of Measured Spectrum Variation on Solar Photovoltaic Efficiencies Worldwide",

abstract = "In photovoltaic power ratings, a single solar spectrum, AM1.5, is the de facto standard for record laboratory efficiencies, commercial module specifications, and performance ratios of solar power plants. More detailed energy analysis that accounts for local spectral irradiance, along with temperature and broadband irradiance, reduces forecast errors to expand the grid utility of solar energy. Here, ground-level measurements of spectral irradiance collected worldwide have been pooled to provide a sampling of geographic, seasonal, and diurnal variation. Applied to nine solar cell types, the resulting divergence in solar cell efficiencies illustrates that a single spectrum is insufficient for comparisons of cells with different spectral responses. Cells with two or more junctions tend to have efficiencies below that under the standard spectrum. Silicon exhibits the least spectral sensitivity: relative weekly site variation ranges from 1\% in Lima, Peru to 14\% in Edmonton, Canada.",

keywords = "energy yield, forecasting, photovoltaics, spectral irradiance",

author = "Geoffrey Kinsey and Nicholas Riedel-Lynagskaer and Alonso-Abella Miguel and Matthew Boyd and Marilia Braga and Chunhui Shou and Raul Cordero and Benjamin Duck and Christopher Fell and Sarah Feron and George Georghiou and Nicholas Habryl and Jim John and Nipon Ketjoy and Gabriel Lopez and Atse Louwen and Elijah Maweza and Takashi Minemoto and Ankit Mittal and Cecile Molto and Guilherme Neves and Gustavo Garrido and Matthew Norton and Basant Paudyal and Enio Pereira and Yves Poissant and Lawrence Pratt and Qu Shen and Thomas Reindl and Marcus Rennhofer and Carlos Rodriguez-Gallegos and Ricardo Ruther and \{van Sark\}, Wilfried and Miguel Sevillano-Bendezu and Hubert Seigneur and Jorge Tejero and Marios Theristis and Jan Tofflinger and Carolin Ulbrich and Waldeir Vilela and Xiangao Xia and Marcia Yamasoe",

year = "2022",

doi = "10.1016/j.renene.2022.07.011",

language = "American English",

volume = "196",

pages = "995--1016",

journal = "Renewable Energy",

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Kinsey, G, Riedel-Lynagskaer, N, Miguel, A-A, Boyd, M, Braga, M, Shou, C, Cordero, R, Duck, B, Fell, C, Feron, S, Georghiou, G, Habryl, N, John, J, Ketjoy, N, Lopez, G, Louwen, A, Maweza, E, Minemoto, T, Mittal, A, Molto, C, Neves, G, Garrido, G, Norton, M, Paudyal, B, Pereira, E, Poissant, Y, Pratt, L, Shen, Q, Reindl, T, Rennhofer, M, Rodriguez-Gallegos, C, Ruther, R, van Sark, W, Sevillano-Bendezu, M, Seigneur, H, Tejero, J, Theristis, M, Tofflinger, J, Ulbrich, C, Vilela, W, Xia, X & Yamasoe, M 2022, 'Impact of Measured Spectrum Variation on Solar Photovoltaic Efficiencies Worldwide', Renewable Energy, vol. 196, pp. 995-1016. https://doi.org/10.1016/j.renene.2022.07.011

TY - JOUR

T1 - Impact of Measured Spectrum Variation on Solar Photovoltaic Efficiencies Worldwide

AU - Kinsey, Geoffrey

AU - Riedel-Lynagskaer, Nicholas

AU - Miguel, Alonso-Abella

AU - Boyd, Matthew

AU - Braga, Marilia

AU - Shou, Chunhui

AU - Cordero, Raul

AU - Duck, Benjamin

AU - Fell, Christopher

AU - Feron, Sarah

AU - Georghiou, George

AU - Habryl, Nicholas

AU - John, Jim

AU - Ketjoy, Nipon

AU - Lopez, Gabriel

AU - Louwen, Atse

AU - Maweza, Elijah

AU - Minemoto, Takashi

AU - Mittal, Ankit

AU - Molto, Cecile

AU - Neves, Guilherme

AU - Garrido, Gustavo

AU - Norton, Matthew

AU - Paudyal, Basant

AU - Pereira, Enio

AU - Poissant, Yves

AU - Pratt, Lawrence

AU - Shen, Qu

AU - Reindl, Thomas

AU - Rennhofer, Marcus

AU - Rodriguez-Gallegos, Carlos

AU - Ruther, Ricardo

AU - van Sark, Wilfried

AU - Sevillano-Bendezu, Miguel

AU - Seigneur, Hubert

AU - Tejero, Jorge

AU - Theristis, Marios

AU - Tofflinger, Jan

AU - Ulbrich, Carolin

AU - Vilela, Waldeir

AU - Xia, Xiangao

AU - Yamasoe, Marcia

PY - 2022

Y1 - 2022

N2 - In photovoltaic power ratings, a single solar spectrum, AM1.5, is the de facto standard for record laboratory efficiencies, commercial module specifications, and performance ratios of solar power plants. More detailed energy analysis that accounts for local spectral irradiance, along with temperature and broadband irradiance, reduces forecast errors to expand the grid utility of solar energy. Here, ground-level measurements of spectral irradiance collected worldwide have been pooled to provide a sampling of geographic, seasonal, and diurnal variation. Applied to nine solar cell types, the resulting divergence in solar cell efficiencies illustrates that a single spectrum is insufficient for comparisons of cells with different spectral responses. Cells with two or more junctions tend to have efficiencies below that under the standard spectrum. Silicon exhibits the least spectral sensitivity: relative weekly site variation ranges from 1% in Lima, Peru to 14% in Edmonton, Canada.

AB - In photovoltaic power ratings, a single solar spectrum, AM1.5, is the de facto standard for record laboratory efficiencies, commercial module specifications, and performance ratios of solar power plants. More detailed energy analysis that accounts for local spectral irradiance, along with temperature and broadband irradiance, reduces forecast errors to expand the grid utility of solar energy. Here, ground-level measurements of spectral irradiance collected worldwide have been pooled to provide a sampling of geographic, seasonal, and diurnal variation. Applied to nine solar cell types, the resulting divergence in solar cell efficiencies illustrates that a single spectrum is insufficient for comparisons of cells with different spectral responses. Cells with two or more junctions tend to have efficiencies below that under the standard spectrum. Silicon exhibits the least spectral sensitivity: relative weekly site variation ranges from 1% in Lima, Peru to 14% in Edmonton, Canada.

KW - energy yield

KW - forecasting

KW - photovoltaics

KW - spectral irradiance

U2 - 10.1016/j.renene.2022.07.011

DO - 10.1016/j.renene.2022.07.011

M3 - Article

SN - 0960-1481

VL - 196

SP - 995

EP - 1016

JO - Renewable Energy

JF - Renewable Energy

ER -

Impact of Measured Spectrum Variation on Solar Photovoltaic Efficiencies Worldwide

Abstract

NLR Publication Number

Keywords

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