Applications of Explainable Artificial Intelligence in Renewable Energy Research

Jordan Perr-Sauer; Juliette Ugirumurera; Jamil Gafur; Erik Bensen; Truc Nguyen; Shuva Paul; Joseph Severino; Ambarish Nag; Sanjana Vijayshankar; Paul Gasper; Donal Finegan; Jacob Holden; Juliane Mueller; Peter Graf; Charles Tripp; Hilary Egan

doi:10.1016/j.egyr.2025.08.046

Applications of Explainable Artificial Intelligence in Renewable Energy Research

Jordan Perr-Sauer
, Juliette Ugirumurera
, Jamil Gafur
, Erik Bensen
, Truc Nguyen
, Shuva Paul
, Joseph Severino
, Ambarish Nag
, Sanjana Vijayshankar
, Paul Gasper
, Donal Finegan
, Jacob Holden
, Juliane Mueller
, Peter Graf
, Charles Tripp
, Hilary Egan

Carnegie Mellon University

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

1 Scopus Citations

Abstract

Researchers in renewable energy are applying deep learning (DL) to a variety of problems from diverse renewable energy domains, such as biofuels, wind, solar, power systems, buildings, vehicles, and transportation systems. Improvements in accuracy may be demonstrated using DL in laboratory settings. However, the lack of interpretability of DL models poses a practical limitation to their utility in advancing scientific knowledge and in the deployment of DL models in safety-critical energy systems. In this article, we discuss explainable artificial intelligence (XAI) as one pathway toward more interpretable DL models. We explore a brief timeline of U.S. national laboratory interest in XAI, an overview and taxonomy of methods in the field of XAI, and a selection of applications across renewable energy research domains. We conclude by highlighting pivotal areas where XAI can accelerate innovation in artificial intelligence for renewable energy research and other essential future directions.

Original language	American English
Number of pages	19
Journal	Energy Reports
Volume	14
DOIs	https://doi.org/10.1016/j.egyr.2025.08.046
State	Published - 2025

NLR Publication Number

NREL/JA-2C00-89838

Keywords

deep learning
energy systems
explainable artificial intelligence
interpretable machine learning
renewable energy
trustworthy artificial intelligence

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10.1016/j.egyr.2025.08.046

Cite this

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title = "Applications of Explainable Artificial Intelligence in Renewable Energy Research",

abstract = "Researchers in renewable energy are applying deep learning (DL) to a variety of problems from diverse renewable energy domains, such as biofuels, wind, solar, power systems, buildings, vehicles, and transportation systems. Improvements in accuracy may be demonstrated using DL in laboratory settings. However, the lack of interpretability of DL models poses a practical limitation to their utility in advancing scientific knowledge and in the deployment of DL models in safety-critical energy systems. In this article, we discuss explainable artificial intelligence (XAI) as one pathway toward more interpretable DL models. We explore a brief timeline of U.S. national laboratory interest in XAI, an overview and taxonomy of methods in the field of XAI, and a selection of applications across renewable energy research domains. We conclude by highlighting pivotal areas where XAI can accelerate innovation in artificial intelligence for renewable energy research and other essential future directions.",

keywords = "deep learning, energy systems, explainable artificial intelligence, interpretable machine learning, renewable energy, trustworthy artificial intelligence",

author = "Jordan Perr-Sauer and Juliette Ugirumurera and Jamil Gafur and Erik Bensen and Truc Nguyen and Shuva Paul and Joseph Severino and Ambarish Nag and Sanjana Vijayshankar and Paul Gasper and Donal Finegan and Jacob Holden and Juliane Mueller and Peter Graf and Charles Tripp and Hilary Egan",

year = "2025",

doi = "10.1016/j.egyr.2025.08.046",

language = "American English",

volume = "14",

journal = "Energy Reports",

issn = "2352-4847",

publisher = "Elsevier Ltd.",

}

TY - JOUR

T1 - Applications of Explainable Artificial Intelligence in Renewable Energy Research

AU - Perr-Sauer, Jordan

AU - Ugirumurera, Juliette

AU - Gafur, Jamil

AU - Bensen, Erik

AU - Nguyen, Truc

AU - Paul, Shuva

AU - Severino, Joseph

AU - Nag, Ambarish

AU - Vijayshankar, Sanjana

AU - Gasper, Paul

AU - Finegan, Donal

AU - Holden, Jacob

AU - Mueller, Juliane

AU - Graf, Peter

AU - Tripp, Charles

AU - Egan, Hilary

PY - 2025

Y1 - 2025

N2 - Researchers in renewable energy are applying deep learning (DL) to a variety of problems from diverse renewable energy domains, such as biofuels, wind, solar, power systems, buildings, vehicles, and transportation systems. Improvements in accuracy may be demonstrated using DL in laboratory settings. However, the lack of interpretability of DL models poses a practical limitation to their utility in advancing scientific knowledge and in the deployment of DL models in safety-critical energy systems. In this article, we discuss explainable artificial intelligence (XAI) as one pathway toward more interpretable DL models. We explore a brief timeline of U.S. national laboratory interest in XAI, an overview and taxonomy of methods in the field of XAI, and a selection of applications across renewable energy research domains. We conclude by highlighting pivotal areas where XAI can accelerate innovation in artificial intelligence for renewable energy research and other essential future directions.

AB - Researchers in renewable energy are applying deep learning (DL) to a variety of problems from diverse renewable energy domains, such as biofuels, wind, solar, power systems, buildings, vehicles, and transportation systems. Improvements in accuracy may be demonstrated using DL in laboratory settings. However, the lack of interpretability of DL models poses a practical limitation to their utility in advancing scientific knowledge and in the deployment of DL models in safety-critical energy systems. In this article, we discuss explainable artificial intelligence (XAI) as one pathway toward more interpretable DL models. We explore a brief timeline of U.S. national laboratory interest in XAI, an overview and taxonomy of methods in the field of XAI, and a selection of applications across renewable energy research domains. We conclude by highlighting pivotal areas where XAI can accelerate innovation in artificial intelligence for renewable energy research and other essential future directions.

KW - deep learning

KW - energy systems

KW - explainable artificial intelligence

KW - interpretable machine learning

KW - renewable energy

KW - trustworthy artificial intelligence

U2 - 10.1016/j.egyr.2025.08.046

DO - 10.1016/j.egyr.2025.08.046

M3 - Article

SN - 2352-4847

VL - 14

JO - Energy Reports

JF - Energy Reports

ER -

Applications of Explainable Artificial Intelligence in Renewable Energy Research

Abstract

NLR Publication Number

Keywords

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