Essays about: "Energy System Optimisation"

Showing result 1 - 5 of 83 essays containing the words Energy System Optimisation.

  1. 1. Harnessing Hydrogen and Batteries: Hybrid Energy Storage System for Versatile and Profitable Renewable Power Production

    University essay from Lunds universitet/Industriell elektroteknik och automation

    Author : Nora Jaredson Lilja; Hugo Björling; [2023]
    Keywords : Energy storage; Hydrogen energy storage; Battery storage; Hybrid storage; Wind power; Solar power; Combined wind and solar power production; Variable renewable energy sources; Power management; Energy storage operational strategy; Plannable renewable power production; Technology and Engineering;

    Abstract : This thesis explores the integration of hydrogen and battery energy storage systems as a means to enhance the management of wind and solar power in the pursuit of a greener grid. The objective of the study is to identify the potential benefits and challenges associated with hybrid energy storage systems (HESS) and their role in renewable energy integration. READ MORE

  3. 2. Battery-Storage Investment for a Power System with High Variable Renewable Energy Output

    University essay from Stockholms universitet/Institutionen för data- och systemvetenskap

    Author : Elva Yunyan Wallimann; [2023]
    Keywords : decision and risk analysis; energy economics; capacity expansion; operations research; utility-scale battery;

    Abstract : Climate change is posing significant threats to human beings. Deploying renewable energy sources in electricity generation is widely accepted as an indispensable part of the solution to climate change. The vast potential lies in variable renewable energy sources, such as solar and wind. READ MORE

  4. 3. 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

  5. 4. A techno-economical analysis of a solar PV system and a feasibility study for biogas production for cooking – A case study of the Tumaini Open School in Tanzania

    University essay from Lunds universitet/Miljö- och energisystem

    Author : Martina Prpic Vucenov; Lovisa Magnusson Ericsson; [2023]
    Keywords : electricity demand; electricity services; electricity consumption; electricity load profile; micro off-grid standalone solar system; solar energy; solar optimisation; solar optimization; PV optimisation; battery optimisation; biogas; biogas plants in developing countries; clean cooking; Tabora; Tanzania; school; MFS; Minor Field Study; biofertiliser; biofertilizer; EWB-SWE; Engineers Without Boarders; SDG 3; SDG 7; Technology and Engineering;

    Abstract : Detta examensarbete är en fallstudie av Tumaini Open School för gravida studenter och studerande mödrar i Tabora, Tanzania. Genom den ideella organisationen Ingenjörer utan gränser Sverige genomförde författarna en Minor Field Study i Tanzania för att fastställa efterfrågade eltjänster, det resulterande elbehovet och den maximala dagliga effektkurvan för skolan vid fullskalig verksamhet. READ MORE

  6. 5. Building performance optimisation tools for the decarbonisation of Swedish buildings

    University essay from Lunds universitet/Institutionen för arkitektur och byggd miljö; Lunds universitet/Avdelningen för Energi och byggnadsdesign

    Author : Nadja Baden; Marziyeh Taghizadeh; [2023]
    Keywords : Optimisation; Parametric design; Decarbonisation; Renovation; Technology and Engineering;

    Abstract : To mitigate climate change and reach Sweden’s goal of becoming carbon neutral by 2045, or at an earlier stage of 2030 for 23 Swedish cities, urgent action is required to reduce greenhouse gas emissions. Due to the building sector’s significant contribution to carbon emissions, a crucial aspect in achieving these goals is improving the energy efficiency of existing buildings, as most of these will still be in use by this time. READ MORE