Clustering‐based method for the feeder selection to improve the characteristics of load shedding

Potel, Barnabé; Cadoux, Florent; Garcia, Leticia de Alvaro; Debusschere, Vincent

doi:10.1049/iet-stg.2019.0064

Cited by 8 publications

(7 citation statements)

References 26 publications

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“…The implementation schemes IS2 and IS3 are more realistic than IS1, even though the assumption that the load consumption is evenly distributed across the system's feeders can be criticized as discussed in (Sigrist and Rouco, 2014); (Potel, et al, 2019). Nonetheless, it should be noted that the simulations of the current UFLS scheme have been performed using an analogous assumption.…”

Section: Proposed Approachmentioning

confidence: 99%

Simplified Event-Based Load Shedding Scheme for Frequency Stability in an Isolated Power System With High Renewable Penetration. El Hierro: A Case Study

Sarasúa¹,

Pérez‐Díaz²,

Martínez‐Lucas³

et al. 2021

Front. Energy Res.

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This study presents a novel approach to calculate the load to be shed in El Hierro isolated power system in generation tripping events. The proposed shedding law is based on a linear regression model. The regression model is obtained by means of offline dynamic simulations in a set of representative test cases. The proposed shedding law has been compared to the under-frequency load shedding scheme currently utilized in El Hierro, considering three different implementation schemes. The results of this study demonstrate that the proposed shedding law can contribute to reduce the average amount of load shed in generation tripping events and meet the requirements of the system’s frequency with a moderate investment in smart power management devices.

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Section: Proposed Approachmentioning

confidence: 99%

Simplified Event-Based Load Shedding Scheme for Frequency Stability in an Isolated Power System With High Renewable Penetration. El Hierro: A Case Study

Sarasúa¹,

Pérez‐Díaz²,

Martínez‐Lucas³

et al. 2021

Front. Energy Res.

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“…Optimisation method: The problem formulated in the above subsection is an optimisation problem that involves a large number of binary variables. There can be a number of equally good solutions that satisfy the condition (10). Among them the 'fairest' solution will be selected as described in the next subsection.…”

Section: Step 4: Load Controllers' Optimisation: Upon Receiving the Nmentioning

confidence: 99%

“…Shekari et al [9] proposed an adaptive wide‐area centralised LS by determining the amount of necessary demand reductions, locations of load drops, and the LS event types are optimally simulated. Potel et al [10] proposed a clustering‐based method to improve the selection of feeders in a UFLS implementation. Abdelwahid et al [11] verified the effectiveness of UFLS scheme implemented in real‐time through hardware implementation and simulations.…”

Section: Introductionmentioning

confidence: 99%

Consumer appliance‐level load shedding optimisation for real‐time application

Jabian

Funaki

Murata

2020

J. eng.

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“…A few limited heuristic methods represent the current state of the art for the feeder allocation problem [9,10,11,12,13,14]. References [9], [10] and [11] analyse the effects of disconnecting different feeders on the system's dynamic performance and voltage stability.…”

Section: Introductionmentioning

confidence: 99%

Chance-constrained allocation of UFLS candidate feeders under high penetration of distributed generation

Badesa¹,

O’Malley²,

Parajeles³

et al. 2022

Preprint

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Under-Frequency Load Shedding (UFLS) schemes are the last resort to contain a frequency drop in the grid by disconnecting part of the demand. The allocation methods for selecting feeders that would contribute to the UFLS scheme have traditionally relied on the fact that electric demand followed fairly regular patterns, and could be forecast with high accuracy. However, recent integration of Distributed Generation (DG) increases the uncertainty in net consumption of feeders which, in turn, requires a reformulation of UFLS-allocation methods to account for this uncertainty. In this paper, a chance-constrained methodology for selecting feeders is proposed, with mathematical guarantees for the disconnection of the required amount of load with a certain pre-defined probability. The correlation in net-load forecasts among feeders is explicitly considered, given that uncertainty in DG power output is driven by meteorological conditions with high correlation across the network. Furthermore, this method is applicable either to systems with conventional UFLS schemes (where relays measure local frequency and trip if this magnitude falls below a certain threshold), or adaptive UFLS schemes (where relays are triggered by control signals sent in the few instants following a contingency). Relevant case studies demonstrate the applicability of the proposed method, and the need for explicit consideration of uncertainty in the UFLS-allocation process.

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Clustering‐based method for the feeder selection to improve the characteristics of load shedding

Cited by 8 publications

References 26 publications

Simplified Event-Based Load Shedding Scheme for Frequency Stability in an Isolated Power System With High Renewable Penetration. El Hierro: A Case Study

Simplified Event-Based Load Shedding Scheme for Frequency Stability in an Isolated Power System With High Renewable Penetration. El Hierro: A Case Study

Consumer appliance‐level load shedding optimisation for real‐time application

Chance-constrained allocation of UFLS candidate feeders under high penetration of distributed generation

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