Produkt
KlappentextUnder increasing adoptions of climate neutrality paradigms, this dissertation demonstrates that analytical frameworks need to capture cross-sectoral interactions when analysing large-scale planning problems for low-carbon energy and power systems. A mathematical programming framework is presented that features a sector-integrated approach toward modelling and optimising transmission investment decisions in low-carbon energy scenarios. By exploiting the optimisation problem structure with tailored decomposition stages, a novel solution strategy optimises the otherwise intractable large-scale problem instances efficiently. The proposed bundle method implementation solves the mixed-integer problems on a distributed computational platform and recovers high-quality primal solutions. Finally, this dissertation addresses two main research objectives with a large-scale cross-sectoral capacity expansion and long-term cross-border transmission expansion study for the future integrated European system that shows the impact of transport sector flexibility on offshore grid investment decisions in the North Seas and the welfare distributional effects in direct and indirect neighbour countries.
ZusammenfassungUnder the climate neutrality paradigm, offshore wind energy is to become a cornerstone of the energy transition in Europe. Offshore grids are promising solutions to serve the twofold purpose of evacuating offshore generation and enhancing cross-border trade. This dissertation develops analytical frameworks for offshore transmission investments in low-carbon energy systems and their welfare impacts with new market actors and clearing effects.
Details
ISBN/GTIN978-3-8396-1713-7
ProduktartBuch
EinbandartKartoniert, Paperback
Verlag
Erscheinungsjahr2021
Erscheinungsdatum09.04.2021
Seiten406 Seiten
SpracheEnglisch
Illustrationennum., mostly col. illus. and tab.
Artikel-Nr.49463980
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