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Autores principales: Nilsson, Gustav, Aquino, Alejandro D. Owen, Coogan, Samuel, Molzahn, Daniel K.
Formato: Preprint
Publicado: 2023
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Acceso en línea:https://arxiv.org/abs/2305.12722
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author Nilsson, Gustav
Aquino, Alejandro D. Owen
Coogan, Samuel
Molzahn, Daniel K.
author_facet Nilsson, Gustav
Aquino, Alejandro D. Owen
Coogan, Samuel
Molzahn, Daniel K.
contents The ongoing electrification of the transportation fleet will increase the load on the electric power grid. Since both the transportation network and the power grid already experience periods of significant stress, joint analyses of both infrastructures will most likely be necessary to ensure acceptable operation in the future. To enable such analyses, this paper presents an open-source testbed that jointly simulates high-fidelity models of both the electric distribution system and the transportation network. The testbed utilizes two open-source simulators, OpenDSS to simulate the electric distribution system and the microscopic traffic simulator SUMO to simulate the traffic dynamics. Electric vehicle charging links the electric distribution system and the transportation network models at vehicle locations determined using publicly available parcel data. Leveraging high-fidelity synthetic electric distribution system data from the SMART-DS project and transportation system data from OpenStreetMap, this testbed models the city of Greensboro, NC down to the household level. Moreover, the methodology and the supporting scripts released with the testbed allow adaption to other areas where high-fidelity geolocated OpenDSS datasets are available. After describing the components and usage of the testbed, we exemplify applications enabled by the testbed via two scenarios modeling the extreme stresses encountered during evacuations.
format Preprint
id arxiv_https___arxiv_org_abs_2305_12722
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle GreenEVT: Greensboro Electric Vehicle Testbed
Nilsson, Gustav
Aquino, Alejandro D. Owen
Coogan, Samuel
Molzahn, Daniel K.
Systems and Control
The ongoing electrification of the transportation fleet will increase the load on the electric power grid. Since both the transportation network and the power grid already experience periods of significant stress, joint analyses of both infrastructures will most likely be necessary to ensure acceptable operation in the future. To enable such analyses, this paper presents an open-source testbed that jointly simulates high-fidelity models of both the electric distribution system and the transportation network. The testbed utilizes two open-source simulators, OpenDSS to simulate the electric distribution system and the microscopic traffic simulator SUMO to simulate the traffic dynamics. Electric vehicle charging links the electric distribution system and the transportation network models at vehicle locations determined using publicly available parcel data. Leveraging high-fidelity synthetic electric distribution system data from the SMART-DS project and transportation system data from OpenStreetMap, this testbed models the city of Greensboro, NC down to the household level. Moreover, the methodology and the supporting scripts released with the testbed allow adaption to other areas where high-fidelity geolocated OpenDSS datasets are available. After describing the components and usage of the testbed, we exemplify applications enabled by the testbed via two scenarios modeling the extreme stresses encountered during evacuations.
title GreenEVT: Greensboro Electric Vehicle Testbed
topic Systems and Control
url https://arxiv.org/abs/2305.12722