Towards closing the data gap: A project-driven distributed energy resource dataset for the U.S. Grid
- Rabab Haider ,
- Yixing Xu ,
- Weiwei Yang
AMC International conference on Future of Energy Systems |
Published by acm
Designing future energy systems with high penetrations of variable renewable energy and third-party owned devices requires information with high spatial and temporal granularity. Existing public datasets focus on specific resource classes (ex. bulk generators, residential solar, or electric vehicles), and cannot inform holistic planning or policy decisions. Further, with the high penetration of distributed energy resources (DERs) located in the distribution grid, datasets and models which focus only on the bulk system will no longer be sufficient. To meet this modelling need, this paper presents a project-driven dataset of DERs for the contiguous U.S., generated using only publicly available data. We integrate the resources into a high-resolution test system of the U.S. grid. Our integrated U.S. grid model and DER dataset enables planners, operators, and policy makers to pose questions and conduct data-driven analysis of rapid decarbonization pathways for the electricity system. We pose a set of research questions in our Research Project Database.
Publication Downloads
Continental United States Distributed Energy Resources (DER) Dataset
September 6, 2023
We present a dataset of distributed energy resources (DERs) for the contiguous U.S. using only publicly available data. The primary focus of the dataset is on distribution-level utility-scale and distributed solar and storage, given their widespread deployment and significant growth potential. The dataset includes additional information to integrate these DER resources into a high-resolution model of the U.S. electricity grid*. The presented dataset takes the first step towards understanding the impact of DERs on the U.S. power grid, by accurately modeling DER penetration. The DER dataset and U.S.-wide grid model can be used by researchers, industry, and policy makers to inform operating and investment decisions of the 2023 U.S. grid and beyond.