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A security-aware dynamic hosting capacity approach to enhance the integration of renewable generation in distribution networks

L. Herding, L. Carvalho, R. Cossent, M. Rivier

International Journal of Electrical Power & Energy Systems Vol. 161, pp. 110210-1 - 110210-13

Summary:

Hosting capacity (HC) describes the electricity network’s ability to accommodate distributed generation (DG) without deteriorating electrical performance indicators. Distribution system operators typically express their networks’ HC as a single threshold, called static hosting capacity (SHC). SHC is determined via conservative regulatory criteria, increasing connection costs and time. This paper explores the potential for additional energy injection into the network via dynamic hosting capacity (DHC). A network node’s DHC is derived from the hourly operation of the network, accounting for the time variability of existing distributed generation (DG) output and demand. The methodology considers the network assets’ N-1 contingencies and their probabilities, defining the security-aware DHC (SDHC). The SDHC definition is technologically neutral. Through a case study of a radial medium voltage distribution network, the paper highlights the significant limitations of SHC due to conservative calculation criteria mandated by regulators. Annual injectable energy is increased by 62% to 76% when comparing DHC to SHC. Variations between average DHC and SDHC are below 0.01% due to low N-1 probabilities. This finding points out the potential of dynamic hosting capacity definitions, allowing more efficient use of the existing network and facilitating the integration of new DG capacity with reduced connection costs and time.


Spanish layman's summary:

Este trabajo explora la relajación de los criterios de la capacidad de acceso nodal (HC). La HC dinámica (DHC) considera la variabilidad de la generación renovable y demanda. La HC “security-aware” (SDHC) incluye la probabilidad de contingencias N-1. Ambas permiten inyectar mucha más energía que la HC estática convencional.


English layman's summary:

This work explores relaxing nodal hosting capacity (HC) criteria. Dynamic HC (DHC) considers RES and load variability. Security-aware DHC (SDHC) includes the probability of N-1 contingencies, minimising risks. Both allow to inject significantly more energy compared to conventional static HC.


Keywords: Flexible connections; Dynamic hosting capacity; Probabilistic analysis; N-1 contingencies; Distributed generation; Distribution grids


JCR Impact Factor and WoS quartile: 5,000 - Q1 (2023)

DOI reference: DOI icon https://doi.org/10.1016/j.ijepes.2024.110210

Published on paper: October 2024.

Published on-line: September 2024.



Citation:
L. Herding, L. Carvalho, R. Cossent, M. Rivier, A security-aware dynamic hosting capacity approach to enhance the integration of renewable generation in distribution networks. International Journal of Electrical Power & Energy Systems. Vol. 161, pp. 110210-1 - 110210-13, October 2024. [Online: September 2024]


    Research topics:
  • Green energy integration
  • Planning and operation of DER
  • Regulation of energy network infrastructures: Transport and distribution