Essays about: "Solid-Oxide Electrolyser"
Found 5 essays containing the words Solid-Oxide Electrolyser.
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1. Hydrogen Production from Offshore Wind Power in Sweden
University essay from Lunds universitet/Miljö- och energisystemAbstract : The versatile energy carrier hydrogen has the potential to reach otherwise hard-to-abate sectors and is of importance for the energy transition and the full decarbonisation of the energy systems. In the meantime, the offshore wind power is predicted to increase where large amounts of electricity can be produced. READ MORE
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2. Modelling and Techno-economic Analysis of a Hybrid CSP/PV System using Solid Oxide Electrolyser for Hydrogen Production
University essay from KTH/Skolan för industriell teknik och management (ITM)Abstract : This project proposes a solar-driven hybrid system for electricity generation and hydrogen production, which includes concentrated solar power (CSP), photovoltaic (PV), solid oxide electrolyser (SOEC). Electricity from the CSP and PV provides a continuous 24/7 supply to meet demand-side power consumption. READ MORE
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3. Assessing Sweden's future prospect for domestic hydrogen production based on lifecycle assessment
University essay from KTH/Hållbar utveckling, miljövetenskap och teknikAbstract : Humanity faces challenge to satisfy its growing energy demand while simultaneously transitioning into a sustainable society. Reducing carbon emissions from the industrial and transportation sector are met with difficulties. To help decarbonisation efforts EU members like Sweden have recognised the use of hydrogen as a viable solution. READ MORE
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4. Techno-Economic Assessment of High-Temperature H2O/CO2 : Co-Electrolysis in Solid Oxide Electrolysers for Syngas Production
University essay from KTH/KemiteknikAbstract : High-temperature Co-electrolysis of H2O and CO2 in a solid-oxide electrolyser (Co-SOE) for syngas production is a high-efficiency renewable electricity conversion and storage method part of the Power-to-X technologies. Syngas, a mixture of H2, CO and CO2, is a critical building block to make several chemical and synthesis fuels. READ MORE
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5. Carbon capture and utilisation in the steel industry : A study exploring the integration of carboncapture technology and high-temperature coelectrolysisof CO2 and H2O to produce synthetic gas
University essay from KTH/EnergiteknikAbstract : The present thesis studies the potential for introducing the technology of co-electrolysis of carbondioxide (CO2) and water (H2O) through a Solid Oxide Electrolyser Cell (SOEC) in a top gas recyclingblast furnace (TGR-BF) in a steel plant. TGR-BF, commonly presented in literature as a promisingcarbon capture and storage (CCS) pathway for the steel industry, can drastically decrease theseemissions by successively recycling up to 90 % of the top gas from a blast furnace (EU, 2014) andsequestering the CO2 from the highly carbon concentrated remaining top gas. READ MORE