Sökning: "Implementering av batterilagringssystem"
Visar resultat 1 - 5 av 6 uppsatser innehållade orden Implementering av batterilagringssystem.
1. Battery Storage as Grid Reinforcement for Peak Power Demands
Master-uppsats, Linköpings universitet/EnergisystemSammanfattning : An increased amount of intermittent electricity production, more electric vehicles (EV), and an overall electrification of society may all cause a higher variability between the balance of supply and demand on the electric grid. Battery storage has been identified as a solution to the emerging problem asit can be charged during hours of low power demand and then discharged to help meet the power demand during peak loads. LÄS MER
2. Implementation of battery energy storage systems in the Swedish electrical infrastructure
Master-uppsats, KTH/KemiteknikSammanfattning : Detta examensarbete utreder den tekniska och ekonomiska passbarheten av batterilagringssystem (BESS) inom den svenska el infrastrukturen. Syftet är att konstruera tre olika affärsfall för att representera den tekniska och den ekonomiska passbarheten av BESS inom den svenska el infrastrukturen, specifikt med uppkoppling mot distributionsnätverket på den regionala nivån, 6 kilovolt till 132 kilovolt (kV). LÄS MER
3. Impact of smart EV charging on grid network with PV and BESS : Case study for Hammarby Sjöstad
Master-uppsats, KTH/Skolan för industriell teknik och management (ITM)Sammanfattning : The transition in the transport sector by the integration of battery electric vehicles (BEVs) brings a new challenge for the system operators to ensure the balance between supply and demand. The installation of new EV charges poses a surge in electricity demand in the coming years which jeopardizes the grid reliability and stability. LÄS MER
4. Techno-economic analysis of Battery Energy Storage Systems and Demand Side Management for peak load shaving in Swedish industries
Master-uppsats, KTH/Kraft- och värmeteknologiSammanfattning : The Swedish electrical grid has historically been robust and reliable, but with increased electrification in numerous sectors, out-phasing of nuclear power and a high market diffusion of wind power, the system is now facing challenges. The rotational energy in the system is expected to decrease as a result of higher shares of intermittent energy sources, which can affect the stability of the grid frequency negatively. LÄS MER
5. Key Performance Indicators for the monitoring of large-scale battery storage systems
Master-uppsats, KTH/EnergiteknikSammanfattning : In the context of the fight against climate change, the electricity sector is experiencing a complete renewal. Power grids are undergoing a transformation from centralized and unidirectional systems to multilevel and more integrated networks with, among others, the insertion of intermittent Renewable Energy Sources (RES) on the production side and with the emergence of new consumer behaviors on the demand side. LÄS MER