Essays about: "Offshore Wind Power"

Showing result 11 - 15 of 132 essays containing the words Offshore Wind Power.

1. 11. Developing a Cost Model For Combined Offshore Farms : The Advantages of Co-Located Wind and Wave Energy

   University essay from KTH/Skolan för industriell teknik och management (ITM)

   Author : Eva Blech; [2023]
   Keywords : Wave Energy; Floating Offshore Wind; Co-located Wind-Wave Farm; Levelized Cost of Energy; Multi-Source Offshore Farm; Vågenergi; flytande havsbaserad vindkraft; samlokaliserad vind- och vågpark; nivellerad energikostnad; havsbaserad park med flera källor;

   Abstract : Previous research has displayed that multi-source farms provide an opportunity to reduce the cost of energy and improve the energy output quality. This thesis assesses the cost competitiveness of co-located wind-wave farms, specifically floating offshore wind (FLOW) turbines and CorPower’s wave energy converters (WEC). READ MORE

3. 12. Climate Impact of Wind Turbine Production : Emissions from Material and Energy Usage for Onshore and Offshore Wind Turbines

   University essay from KTH/Skolan för industriell teknik och management (ITM)

   Author : Joel Arnelo; Maria Kolte; [2023]
   Keywords : Wind turbine production; Wind turbine components; Onshore and Offshore wind power; Wind power climate impact; Produktion av vindkraftverk; Vindkraftverk komponenter; Landbaserad och havsbaserad vindkraft; Klimatpåverkan vindkraft;

   Abstract : Wind power is a renewable energy source that is making great strides in the global energy sector. While wind power is a renewable energy source, it is not entirely free from carbon emissions. This is because the production of wind turbines is dependent on the use of energy, and as a result can emit large amounts of carbon dioxide. READ MORE

4. 13. Modeling of an Electrolysis System for Techno-Economic Optimization of Hydrogen Production

   University essay from KTH/Skolan för industriell teknik och management (ITM)

   Author : Jürgen Köstlbacher; [2023]
   Keywords : Hydrogen; Hydrogen Production; Green Hydrogen; LCOH; Electrolysis; PEM; AEL; MILP; Optimization; Techno-Economic Analysis; Cost Optimization; PPA; vätgas; vätgasproduktion; grön vätgas; LCOH; elektrolys; PEM; AEL; MILP; optimering; tekniskekonomisk analys; kostnadsoptimering; PPA;

   Abstract : In face of climate change, Europe and other global actors are in the process of transitioning to carbon-neutral economies, aiming to phase out of fossil fuels and power industries with renewable energies. Hydrogen is going to play a crucial role in the transition, replacing fossil fuels in hard-to-decarbonize industries and acting as energy carrier and energy storage for renewable electricity. READ MORE

5. 14. Evaluating electrolyser setups for hydrogen production from offshore wind power : A case study in the Baltic Sea

   University essay from KTH/Skolan för industriell teknik och management (ITM)

   Author : Kenzo Franzén; [2023]
   Keywords : electrolysis; energy systems modelling; green hydrogen; offshore wind power; power-to-x; electrólisis; energía eólica marina; hidrógeno verde; modelado de sistemas de energía; power-to-x;

   Abstract : As part of the transition towards a fully sustainable energy system, green hydrogen shows great potential to decarbonise several hard-to-abate sectors. To provide the fossil-free electricity required for electrolysis, offshore wind power has emerged as a suggested option. READ MORE

6. 15. Assessing Offshore Wind System Integration: Comparative Analysis of Floating Photovoltaics, Oscillating Surge Wave Converters, and Battery Energy Storage Systems

   University essay from Lunds universitet/Institutionen för energivetenskaper

   Author : Wilhelm Niilekselä; Douglas Hansson; [2023]
   Keywords : Technology and Engineering;

   Abstract : The high penetration of wind power is increasing the intermittency and power variability into the existing power grid. This is forcing industries to look for optimal configurations in order to improve their systems performance and minimize these effects from the power production method. READ MORE