Keywords
active distribution network (ADN); island division; robust; linearization; interruptible load; outage loss
Abstract
With the rapid development of distributed generation, energy storage and intelligent ring network cabinets in the distribution network, the active and intelligent distribution network provides strong support for its island operation. To solve the problem of islanding of active distribution network (ADN) after a fault in the upper‑level power grid, a robust optimal partition model is established with the consideration of the least comprehensive loss of load outage. The comprehensive loss of power outage takes into account the compensation cost of cutting off the interruptible load and the load loss cost caused by non‑agreement blackout. The loss cost is modeled by piecewise linearization technique, and a unified linear constraint is constructed by adding logical variables. In order to avoid the frequent switching on and off of any load in the island operation scheme, the continuous state constraint of load power failure and its linearization method are proposed. Further, considering the uncertainty of the output characteristics of distributed energy in ADN, the deterministic model is transformed into a two‑stage robust optimization model, and the flexible adjustment scheme of robust adjustment coefficients is introduced to adjust the scheme conservativeness. At the same time, the model is solved based on duality theory and column generation algorithm. Cases studies verify the effectiveness of the proposed model and method.
DOI
10.19781/j.issn.1673-9140.2023.02.016
First Page
141
Last Page
149
Recommended Citation
LIU, Jia; LUO, Huixiong; ZHANG, Xiaohua; and CHUAN, Xing
(2023)
"Robust islanding strategy for active distribution network considering outage loss and interruptible load,"
Journal of Electric Power Science and Technology: Vol. 38:
Iss.
2, Article 16.
DOI: 10.19781/j.issn.1673-9140.2023.02.016
Available at:
https://jepst.researchcommons.org/journal/vol38/iss2/16