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Main Authors: Li, Chenchen, Li, Fangxing, Jiang, Sufan, Zhao, Jin, Fan, Shiyuan, Tolbert, Leon M.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.13992
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author Li, Chenchen
Li, Fangxing
Jiang, Sufan
Zhao, Jin
Fan, Shiyuan
Tolbert, Leon M.
author_facet Li, Chenchen
Li, Fangxing
Jiang, Sufan
Zhao, Jin
Fan, Shiyuan
Tolbert, Leon M.
contents Extreme weather events can cause widespread power outages and huge economic losses. Low-income customers are more vulnerable to power outages because they live in areas with poorly equipped distribution systems. However, existing approaches to improve grid resilience focus on the overall condition of the system and ignore the outage experiences of low-income customers, which leads to significant energy inequities in resilience. Therefore, this paper explores a new resilience-oriented planning method for distributed generator (DG) siting and sizing, by embedding an additional energy equity constraint (EEC). First, the expected load shedding index (ELSI) is defined as the ratio of the load shedding to the original load, which quantifies the resilience-oriented energy equity. Then, the DG siting and sizing problem is formulated as a two-stage stochastic programming with the EEC. The first stage determines the optimal sites and sizes of DG units under investment constraints and EECs, while the second stage optimizes expected costs of unserved load. A subsidiary variable is introduced to ensure the model's solvability. Finally, numerical studies are performed on the IEEE 33-bus and 123-bus systems to verify the effectiveness of the proposed DG planning model in achieving energy equity. Three observations are presented as future guidelines for resilience-oriented DG planning.
format Preprint
id arxiv_https___arxiv_org_abs_2410_13992
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Resilience-Oriented DG Siting and Sizing Considering Energy Equity Constraint
Li, Chenchen
Li, Fangxing
Jiang, Sufan
Zhao, Jin
Fan, Shiyuan
Tolbert, Leon M.
Systems and Control
Extreme weather events can cause widespread power outages and huge economic losses. Low-income customers are more vulnerable to power outages because they live in areas with poorly equipped distribution systems. However, existing approaches to improve grid resilience focus on the overall condition of the system and ignore the outage experiences of low-income customers, which leads to significant energy inequities in resilience. Therefore, this paper explores a new resilience-oriented planning method for distributed generator (DG) siting and sizing, by embedding an additional energy equity constraint (EEC). First, the expected load shedding index (ELSI) is defined as the ratio of the load shedding to the original load, which quantifies the resilience-oriented energy equity. Then, the DG siting and sizing problem is formulated as a two-stage stochastic programming with the EEC. The first stage determines the optimal sites and sizes of DG units under investment constraints and EECs, while the second stage optimizes expected costs of unserved load. A subsidiary variable is introduced to ensure the model's solvability. Finally, numerical studies are performed on the IEEE 33-bus and 123-bus systems to verify the effectiveness of the proposed DG planning model in achieving energy equity. Three observations are presented as future guidelines for resilience-oriented DG planning.
title Resilience-Oriented DG Siting and Sizing Considering Energy Equity Constraint
topic Systems and Control
url https://arxiv.org/abs/2410.13992