The paper introduces the concept of energysheds, which are local energy communities within geographical areas where energy system objectives and constraints are determined and between which energy can be actively exchanged. The authors propose a mathematical definition of an energyshed and analyze the factors that impact a community's ability to achieve energyshed policy incentives within a larger connected power grid, as well as the tradeoffs associated with different spatial policy requirements.
The paper presents two key optimization problems:
The authors show that the non-convex problem (P2) can be solved to global optimality by reformulating it as a sequence of convex problems. They also demonstrate that the generalized problem (P4) can be solved efficiently by leveraging quasi-linearity and parametric optimization techniques.
The numerical case study on the IEEE 39-bus system illustrates the impact of spatial aggregation of energyshed boundaries on the tradeoffs between local generation ratio requirements and system-wide capacity costs. The results provide insights that can inform policymakers in designing effective energyshed policies.
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by Dakota Hamil... alle arxiv.org 05-01-2024
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