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Environmental constraints in stochastic hydropower scheduling for long planning horizons

The transformation of the European power system to a climate-friendly one by 2050 involves a shift from fossil fuel generation to renewable energy sources. As a part of this transition, flexible assets are needed to balance out the increasing variability in electricity supply and demand to ensure st...

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Bibliographic Details
Main Author: Schäffer, Linn Emelie
Format: Dissertation
Language:English
Online Access:Request full text
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Summary:The transformation of the European power system to a climate-friendly one by 2050 involves a shift from fossil fuel generation to renewable energy sources. As a part of this transition, flexible assets are needed to balance out the increasing variability in electricity supply and demand to ensure stability in the system. Hydropower can be an enabler for the green transition because of the technology’s unique ability to provide both short-term operational flexibility and long-term energy storage in the reservoirs. On the other hand, hydropower plants may negatively impact surrounding ecosystems in several ways. To mitigate the negative impacts of hydropower, environmental regulations are normally defined in the licences of hydropower plants. Environmental regulations are necessary to protect local ecosystems and to respect the needs of other stakeholders. Nevertheless, such regulations may reduce the operational flexibility of the hydropower plants and are therefore also associated with a cost. Good utilisation of renewable energy resources contributes to lower system costs and security of supply. To achieve efficient use of water for power generation, hydropower producers rely on decision support tools to schedule the short- and long-term operation of hydropower plants and reservoirs. Accurate representation of environmental constraints in hydropower scheduling models is required to make correct assessments of the operational flexibility of hydropower plants and the influence of environmental regulations. Understanding the implications of environmental constraints on the operation of hydropower plants and their capability to provide flexibility to power systems is imperative to effectively plan the operation of hydropower-dominated power systems with high shares of variable renewable power generation. The work conducted in this thesis investigates the implications of environmental constraints on flexible hydropower plants in stochastic scheduling models with long planning horizons. The impacts of different types of environmental constraints have been assessed from the perspective of a profit-maximising power producer operating in a competitive market and from a cost-minimising system perspective considering a wind- and hydropower-dominated region of a power system. A special emphasis was put on the modelling and evaluation of reservoirfilling constraints that are formulated as reservoir-level dependent discharge limitations (soft reservoir-filling constrai