Community energy projects in the context of generation and transmission expansion planning

We extend multi-level generation and transmission expansion planning optimisation methods to analyse the impact of the community energy sector emergence on power system expansion. Methodologically, we do this by incorporating biform games and linear production games into the classic power transmissi...

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Bibliographic Details
Published in:Energy economics 2022-04, Vol.108, p.105859, Article 105859
Main Authors: Fuentes González, Fabián, Sauma, Enzo, van der Weijde, Adriaan Hendrik
Format: Article
Language:English
Subjects:
Biform games
Charges
Community
Community energy
Competitors
Cost analysis
Customers
Electricity
Electricity distribution
Electricity pricing
Energy
Energy economics
Energy industry
Game theory
Games
Generation and transmission expansion planning
Impact analysis
Intergenerational transmission
Linear production games
Markets
Mathematical program with equilibrium constraints (MPEC)
Optimization
Planning
Power
Power marketers
Prices
Social welfare
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Summary:We extend multi-level generation and transmission expansion planning optimisation methods to analyse the impact of the community energy sector emergence on power system expansion. Methodologically, we do this by incorporating biform games and linear production games into the classic power transmission and generation expansion planning problem. The model is formulated as a Mathematical Program with Equilibrium Constraints (MPEC). Using a stylised example based on Chilean power market data, we show that community energy projects can be an optimal choice for residential customers. Furthermore, we find that community energy projects can widely impact the power system as a whole. Importantly, unlike some large generation projects, they can have positive effects on electricity customers who do not participate in them. Nevertheless, the implementation of net billing schemes, potential competitors for community energy projects, may be preferred when net billing injection prices are comparatively high, there are potentially high levels of confidence about the final payoffs, and there exist comparatively lower investment costs. Yet, we show that, depending on the specific case analysed with our model, it is likely that under the above circumstances nodal prices increase, social welfare decreases, and capacity limitations need to be addressed. The methodology developed in this work can be a valuable tool to examine and better understand the complexities of community energy projects and their interactions with market incumbents. •We extend multi-level generation and transmission expansion planning methods.•Our optimisation model incorporates biform games and linear production games.•Community energy projects can be an optimal choice for residential customers.•Community energy projects can widely impact the power system as a whole.•Such projects can have positive effects on customers who do not participate in them.
ISSN:0140-9883
1873-6181
DOI:10.1016/j.eneco.2022.105859