2021
DOI: 10.3389/fenrg.2020.541495
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To Prevent or Promote Grid Expansion? Analyzing the Future Role of Power Transmission in the European Energy System

Abstract: Future energy supply systems must become more flexible than they are today to accommodate the significant contributions expected from intermittent renewable power sources. Although numerous studies on planning flexibility options have emerged over the last few years, the uncertainties related to model-based studies have left the literature lacking a proper understanding of the investment strategy needed to ensure robust power grid expansion. To address this issue, we focus herein on two important aspects of th… Show more

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Cited by 14 publications
(8 citation statements)
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“…Grid interconnections between countries or regions within a world region are expected to bring further benefits to the energy system by enabling system flexibility and cost reduction. In the case of high variable RE shares, combinations of battery storage and the expansion of grid transfer capacities are important elements of load balancing in the system [128,129]. However, it has been argued that very long-distance power transmission networks beyond the dimensions of major regions can transfer only a smaller fraction of electricity and contribute very limited to the overall cost reduction as discussed for various cases around the world [23], and in detail for the Americas [60], East Asia [130], Europe-China [131] and Europe-Eurasia-MENA [132].…”
Section: Uncertainties and Limitationsmentioning
confidence: 99%
“…Grid interconnections between countries or regions within a world region are expected to bring further benefits to the energy system by enabling system flexibility and cost reduction. In the case of high variable RE shares, combinations of battery storage and the expansion of grid transfer capacities are important elements of load balancing in the system [128,129]. However, it has been argued that very long-distance power transmission networks beyond the dimensions of major regions can transfer only a smaller fraction of electricity and contribute very limited to the overall cost reduction as discussed for various cases around the world [23], and in detail for the Americas [60], East Asia [130], Europe-China [131] and Europe-Eurasia-MENA [132].…”
Section: Uncertainties and Limitationsmentioning
confidence: 99%
“…For the sake of simplicity, the heat sector is not considered in the present study. This is the main difference with the scenario setup by Cao et al [36], who, for example, also considered the additional electricity demand by heat pumps, electric boilers, and the heat demand to be covered by cogeneration.…”
Section: Scenario Setupmentioning
confidence: 96%
“…Our scenario setup is based on the model parameterization and the "CSP&H2" scenario in combination with the "Trend" scenario for transmission grid expansion defined in Cao et al [36]. The "Trend" scenario assumes that all major ten-year network development plan (TYNDP) projects [37] are implemented and the current structure of the transmission network will be maintained.…”
Section: Scenario Setupmentioning
confidence: 99%
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“…A spatial disaggregation of ESOM output data requires geo‐coordinates of substations. Coupling in the opposite direction is less cumbersome as it mostly comes down to spatial aggregation of costs or technical parameters, such as power transfer distribution factors 45 …”
Section: Model Coupling Via Automated Workflows: An Exemplary Coupling Conceptmentioning
confidence: 99%