Next frontiers in energy system modelling: A review on challenges and the state of the art

Energy Systems Modelling is growing in relevance on providing insights and strategies to plan a carbon-neutral future. The implementation of an effective energy transition plan faces multiple challenges, spanning from the integration of the operations of different energy carriers and sectors to the...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews 2022-05, Vol.160, p.112246, Article 112246
Main Authors: Fodstad, Marte, Crespo del Granado, Pedro, Hellemo, Lars, Knudsen, Brage Rugstad, Pisciella, Paolo, Silvast, Antti, Bordin, Chiara, Schmidt, Sarah, Straus, Julian
Format: Article
Language:English
Subjects:
Annen kjemisk teknologi: 569
Behavioural modelling
Chemical engineering: 560
Electro-technical sciences: 540
Elektrotekniske fag: 540
Energisystemanalyse / Energy system analyses
Environmental engineering: 610
Kjemisk teknologi: 560
Klimaendringer / Climate change
Machinery energy and environmental technology: 573
Maskinfag: 570
Maskinteknisk energi- og miljøteknologi: 573
Mechanical engineering: 570
Miljøteknologi: 610
Modellering av energisytemer / Energy system modeling
Multi-energy systems
Multiscale modelling
Other chemical technology: 569
Review
Technology: 500
Teknologi: 500
Uncertainty
VDP
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Summary:Energy Systems Modelling is growing in relevance on providing insights and strategies to plan a carbon-neutral future. The implementation of an effective energy transition plan faces multiple challenges, spanning from the integration of the operations of different energy carriers and sectors to the consideration of multiple spatial and temporal resolutions. In this review, we outline these challenges and discuss how they have been tackled by the current literature, as well as pointing at directions for future research. Many of the existing reviews identify a list of challenges common to most models, but they tend to be grouped according to type or energy carrier. Here we take a new approach and structure both well-established models and solution approaches along with the main challenges that energy modelling will have to deal with in the near future. We focus on four main current challenges that energy system models face: time and space; uncertainty; multi-energy; energy behaviour and energy transition. The main findings suggest that: demand-side management applied to multi-carrier energy system models lacks; prosumers is explored only in a limited manner; general, multi-scale modelling frameworks should be established and considered both in the dimensions of time, space, technology and energy carrier; long term energy system models tend to address uncertainty scarcely; there is a lack of studies modelling uncertainties related to emerging technologies and; modelling of energy consumer behaviour is one of the major aspect of future research. •A review on key challenges in energy system modelling.•RES integration requires uncertainty handling, multi-scale time, and spatial modelling.•Detailed modelling of multi-carrier and multi-sector energy systems has grown in relevance.•Energy behaviour and energy transition dynamics are frontiers in energy system models.
ISSN:1364-0321
1879-0690
1879-0690
DOI:10.1016/j.rser.2022.112246