TY - GEN
T1 - Designing Hybrid Power Grid Networks for Equitable Access to Electricity
AU - Talebpour, Niousha
AU - Behrooz, Hojat
AU - Ilbeigi, Mohammad
N1 - Publisher Copyright:
© ASCE.
PY - 2025
Y1 - 2025
N2 - Equity issues stemming from unjust urban development have left marginalized communities without reliable access to critical infrastructure, including electrical systems. Addressing these inequities is essential to reduce social vulnerabilities. A significant concern is the correlation between socioeconomic attributes and power outage probabilities. Distributed energy systems offer a promising solution to enhance equitable access to electricity. This paper develops an optimization framework to minimize the correlation between socioeconomic factors, specifically per capita income and percentage of racial minorities, and power outage probabilities through the strategic placement of distributed energy systems. Using Monte Carlo simulations, multiple outage scenarios were analyzed on the IEEE 136-bus distribution network to evaluate the framework’s impact on promoting equity in electricity access. Results showed that the framework reduced correlations to statistically insignificant levels. These findings underscore the effectiveness of the proposed framework in mitigating inequities in electricity access and advancing just, equitable power distribution in urban areas.
AB - Equity issues stemming from unjust urban development have left marginalized communities without reliable access to critical infrastructure, including electrical systems. Addressing these inequities is essential to reduce social vulnerabilities. A significant concern is the correlation between socioeconomic attributes and power outage probabilities. Distributed energy systems offer a promising solution to enhance equitable access to electricity. This paper develops an optimization framework to minimize the correlation between socioeconomic factors, specifically per capita income and percentage of racial minorities, and power outage probabilities through the strategic placement of distributed energy systems. Using Monte Carlo simulations, multiple outage scenarios were analyzed on the IEEE 136-bus distribution network to evaluate the framework’s impact on promoting equity in electricity access. Results showed that the framework reduced correlations to statistically insignificant levels. These findings underscore the effectiveness of the proposed framework in mitigating inequities in electricity access and advancing just, equitable power distribution in urban areas.
UR - https://www.scopus.com/pages/publications/105030941927
UR - https://www.scopus.com/pages/publications/105030941927#tab=citedBy
U2 - 10.1061/9780784486443.016
DO - 10.1061/9780784486443.016
M3 - Conference contribution
AN - SCOPUS:105030941927
T3 - Computing in Civil Engineering 2025: Resilient, Robotic, and Educational Systems - Selected Papers from the ASCE International Conference on Computing in Civil Engineering 2025
SP - 133
EP - 141
BT - Computing in Civil Engineering 2025
A2 - Jafari, Amirhosein
A2 - Zhu, Yimin
T2 - ASCE International Conference on Computing in Civil Engineering, i3CE 2025
Y2 - 11 May 2025 through 14 May 2025
ER -