magistrsko delo
Aleksander Grobin (Author), Aleš Hribernik (Mentor), Gašper Artač (Mentor)

Abstract

Več kot tretjino svetovnih emisij predstavljata industrija in transport, sektorja, ki ju ni mogoče v celoti elektrificirati. Kot vezni člen med obnovljivimi viri energije in brezogljično energijo se vse bolj uporablja vodik. V magistrskem delu je opisano vozlišče na osnovi vodikovih tehnologij. Električna energija se proizvaja v sončni elektrarni, ki nato v elektrolizerju proizvaja zeleni vodik oziroma vodik brez emisij toplogrednih plinov. Proizvedeni vodik se primarno uporablja za transport, v povezavi z gorivno celico pa omogoča avtonomnost vozlišča, kadar slednje ni povezano na elektroenergetsko omrežje. Za namen ogrevanja se toplota v vozlišču proizvaja v toplotnih črpalkah. Podani so tudi ekonomski izračuni vozlišča in končna cena vodika. Izračuni, modeli in simulacije vozlišča so izvedeni v programskem jeziku Python.

Keywords

vodik;zeleni;vozlišče;vodikove tehnologije;magistrske naloge;

Data

Language: Slovenian
Year of publishing:
Typology: 2.09 - Master's Thesis
Organization: UM FS - Faculty of Mechanical Engineering
Publisher: [A. Grobin]
UDC: 621.311.243:502.12(043.2)
COBISS: 105094915 Link will open in a new window
Views: 233
Downloads: 26
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Other data

Secondary language: English
Secondary title: Hydrogen-Based node
Secondary abstract: More than a third of global emissions come from industry and transport, sectors of which cannot be fully electrified. Hydrogen is being used increasingly as a link between renewable energy sources and carbon-free energy. The master's thesis describes a node based on hydrogen technologies. Electricity is produced in a solar power plant, which then in the electrolyzer produces hydrogen without greenhouse gas emissions, also known as green hydrogen. The produced hydrogen is primarily used for transport, and in conjunction with the fuel cell, it allows the autonomy of the node when it is not connected to the electricity grid. The heat energy in the node is produced in the heat pumps. The economic calculations of the node and the final price of hydrogen are also given. Node calculations, models, and simulations are performed in the Python programming language.
Secondary keywords: hydrogen;green;node;hydrogen technologies;Python;
Type (COBISS): Master's thesis/paper
Thesis comment: Univ. v Mariboru, Fak. za strojništvo, Tehniško varstvo okolja
Pages: VII, 66 f.
ID: 13617942