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Debunking the speed-fidelity trade-off: Speeding-up large-scale energy models while keeping fidelity

D.A. Tejada, J. Kiviluoma, G. Morales-España

International Journal of Electrical Power & Energy Systems Vol. 168, pp. 110674-1 - 110674-12

Resumen:

Energy system models are essential for planning and supporting the energy transition. However, increasing temporal, spatial, and sectoral resolutions have led to large-scale linear programming (LP) models that are often (over)simplified to remain computationally tractable—frequently at the expense of model fidelity. This paper challenges the common belief that LP formulations cannot be improved without sacrificing their accuracy. Inspired by graph theory, we propose to model energy systems using energy assets (vertices), as a single building-block, and flows to connect between them. This reduces the need for additional components such as nodes and connections. The resulting formulation is more compact, without sacrificing accuracy, and leverages the inherent graph structure of energy systems. To evaluate performance, we implemented and compared four common modelling approaches varying in their use of building blocks and flow representations. We conducted experiments using TulipaEnergyModel.jl and applied them to a multi-sector case study with varying problem sizes. Results show that our single-building-block (1BB-1F) approach reduces variables and constraints by 26% and 35%, respectively, and achieves a 1.27x average speedup in solving time without any loss in model fidelity. The speedup increases with problem size, making this approach particularly advantageous for large-scale models. Our findings demonstrate that not all LPs are equal in quality and that better reformulations can lead to substantial computational benefits. This paper also aims to raise awareness of model quality considerations in energy system optimisation and promote more efficient formulations without compromising fidelity.


Resumen divulgativo:

Proponemos una formulación de PL inspirada en grafos para sistemas energéticos que utiliza un único bloque de construcción y conexiones de flujo. Este enfoque reduce las variables en un 26 %, las restricciones en un 35 % y acelera la resolución en 1,27 veces en promedio, sin perder precisión.


Palabras Clave: Energy sector coupling; Optimisation modelling; Energy system models; Linear programming (LP); Computational efficiency


Índice de impacto JCR y cuartil WoS: 5,000 - Q1 (2023)

Referencia DOI: DOI icon https://doi.org/10.1016/j.ijepes.2025.110674

Publicado en papel: Julio 2025.

Publicado on-line: Abril 2025.



Cita:
D.A. Tejada, J. Kiviluoma, G. Morales-España, Debunking the speed-fidelity trade-off: Speeding-up large-scale energy models while keeping fidelity. International Journal of Electrical Power & Energy Systems. Vol. 168, pp. 110674-1 - 110674-12, Julio 2025. [Online: Abril 2025]


    Líneas de investigación:
  • Modelado de procesos industriales y tecnologías de descarbonización industrial
  • Modelos de mercados de electricidad, gas natural y gases renovables
  • Modelos de mercados eléctricos con alta penetración de generación renovable