Search for dissertations about: "electricity forecasting"
Showing result 1 - 5 of 13 swedish dissertations containing the words electricity forecasting.
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1. Hydrological Seasonal Forecasting
Abstract : In Sweden, almost half of the electricity produced comes from hydropower. However, the amount of water in the reservoir catchments is not evenly distributed throughout the year. During the colder months, precipitation usually falls as snow and accumulates into a snowpack. READ MORE
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2. Modeling and forecasting the load in the future electricity grid : Spatial electric vehicle load modeling and residential load forecasting
Abstract : The energy system is being transitioned to increase sustainability. This transition has been accelerated by the increased awareness about the adverse effects of the greenhouse gas (GHG) emissions into the atmosphere. The transition includes switching to electricity as the energy carrier in some sectors, e.g. READ MORE
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3. Spatio-temporal forecasting and optimization for integration of solar energy in urban energy systems
Abstract : The increasing penetration of non-dispatchable renewable energy sources such as photovoltaic (PV) systems in the electricity generating mix poses challenges to the operational performance of the power system. On the demand side, advanced schemes that increase the flexibility of customer loads and the increase in electrification are set to noticeably alter electricity demand. READ MORE
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4. Characterization and forecasting of wind conditions over the Baltic Sea
Abstract : To meet the increasing demand of sustainably produced electricity, the total number of installed wind turbines is rapidly increasing globally. Although onshore installations are dominating, offshore wind power is taking a greater share of the market every year. READ MORE
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5. Analysis and Forecasting of Utility-Scale Hybrid Wind and PV Power Parks
Abstract : The increasing share of wind and photovoltaic (PV) power in the electricity generation mix pose challenges in power system management due to their non-dispatchable and intermittent nature. Co-locating wind and PV parks, forming utility-scale hybrid power parks (HPPs), means that the sources can share grid connection, land, permitting procedures as well as operation and maintenance work. READ MORE