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Assessing the impact of renewable energy penetration and geographical allocation on transmission expansion cost: a comparative analysis of two large-scale systems

L. Herding, R. Cossent, M. Rivier, S. Bañales

Sustainable Energy, Grids and Networks Vol. 38, pp. 101349-1 - 101349-13

Resumen:

Ambitious renewable energy development plans require an efficient electricity grid connection of massive generation capacity. Significant transmission network investments are considered necessary to support the energy transition. This paper analyses the transmission grid reinforcement requirements of two large-scale electricity systems with notably different geographical distributions of renewable resource availability and load density. The results indicate that optimal transmission expansion accounts for less than 10% of total annualised system investment (generation capacity + transmission grid). This is true even in transmission systems with significant existing bottlenecks. The study includes a sensitivity analysis of the location of renewable energy source (RES) capacity. The sensitivities examine the impact of varying the concentration of RES in resource-rich areas, as well as the proportion of RES capacity connected at the distribution level. Both sensitivities are evaluated over a common base case scenario. The results show that a higher concentration of RES capacity in resource-rich network zones can more than double the optimal transmission expansion requirements. In contrast, the implementation of distributed generation (DG) leads to the allocation of generation closer to demand centres, resulting in transmission grid savings of up to 30%. These effects are more pronounced in networks where RES capacity is located further away from major demand centres. This is because existing bottlenecks are exacerbated by higher RES concentration and relieved as the share of DG increases.


Resumen divulgativo:

El paper analiza la expansión óptima de la red de transporte para integrar energías renovables. Los costes de red son pequeños comparados con los costes totales. La concentración geográfica duplica la inversión, mientras que la integración de generación distribuida reduce la necesidad de refuerzos.


Palabras Clave: Energy transition; Power system decarbonisation; Distributed generation; Transmission expansion planning; Power system planning


Índice de impacto JCR y cuartil WoS: 4,800 - Q1 (2023)

Referencia DOI: DOI icon https://doi.org/10.1016/j.segan.2024.101349

Publicado en papel: Junio 2024.

Publicado on-line: Marzo 2024.



Cita:
L. Herding, R. Cossent, M. Rivier, S. Bañales, Assessing the impact of renewable energy penetration and geographical allocation on transmission expansion cost: a comparative analysis of two large-scale systems. Sustainable Energy, Grids and Networks. Vol. 38, pp. 101349-1 - 101349-13, Junio 2024. [Online: Marzo 2024]


    Líneas de investigación:
  • Integración de energía renovable
  • Planificación integrada de generación y transporte
  • Escenarios energéticos de largo plazo : Escenarios energéticos de largo plazo

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