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Spremljanje rasti vodikovega mehurčka na mikroelektrodi z uporabo hitrotekoče kamere
ID Bizilj, Tina (Author), ID Može, Matic (Mentor) More about this mentor... This link opens in a new window, ID Golobič, Iztok (Comentor)

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Abstract
Vodik se trenutno omenja kot prihodnji energetski vir, saj ne temelji na ogljiku, zato pri uporabi ne proizvaja neposrednih ogljikovih emisij. Večina vodika se trenutno proizvede iz zemeljskega plina, le manjši del pa z elektrolizo. Elektroliza vode, tj. postopek razgradnje vode na vodik in kisik z uporabo električne energije, predstavlja obetavno metodo za pridobivanje vodika ob pogoju uporabe elektrike iz obnovljivih virov energije. S pomočjo hitrotekoče kamere smo v elektrolitski celici opazovali rast vodikovih mehurčkov na elektrodah različnih velikosti in v različno koncentriranih raztopinah H2SO4. Ugotovili smo, da se premer mehurčkov povečuje z večanjem napetosti, hkrati pa potrebujejo tudi več časa za nastanek. Manjša površina mikroelektrode in nižja koncentracija raztopine H2SO4 sta ločeno vplivali na nastajanje večjih mehurčkov, ki rastejo počasi. Pokazali smo, da velikost mikroelektrode, napetost in koncentracija elektrolita pomembno vplivajo na proces elektrolize in rast vodikovih mehurčkov. Rezultati prispevajo k boljšemu razumevanju dinamike elektrolitskih procesov ter pripomorejo k optimizaciji elektrolitskih sistemov za učinkovitejšo proizvodnjo vodika, kar predstavlja potencial za razvoj novih tehnologij na področju energetske učinkovitosti in trajnostnih virov energije in okolju prijaznejših energetskih rešitev.

Language:Slovenian
Keywords:elektroliza, vodik, mehurčki, elektrolitske celice, mikroelektroda, hitrotekoča kamera
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FS - Faculty of Mechanical Engineering
Year:2025
Number of pages:XX, 69 str.
PID:20.500.12556/RUL-170095 This link opens in a new window
UDC:620.92:621.357:544.654:546.11(043.2)
COBISS.SI-ID:244599299 This link opens in a new window
Publication date in RUL:02.07.2025
Views:597
Downloads:93
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Secondary language

Language:English
Title:Evaluating the growth of a hydrogen bubble on a microelectrode using a high-speed camera
Abstract:
Hydrogen is nowadays mentioned as a future energy source because it does not contain carbon and thus causes no direct carbon compound emissions when used for energy purposes. Most hydrogen is currently produced from natural gas, with only a fraction produced by electrolysis. Water electrolysis, the process of decomposing water into hydrogen and oxygen using electricity, is a promising method for hydrogen production if renewable electricity is used. Using a high-speed camera, we observed the growth of hydrogen bubbles on microelectrodes of different sizes and in different concentrations of the H2SO4 in an electrolytic cell. The bubble diameters increased with increasing voltage, while at the same time, they also took longer to form. A smaller electrode surface and lower H2SO4 concentration separately contributed to larger bubble diameters, which grew slowly. We demonstrated that the size of the microelectrode, voltage, and electrolyte concentration significantly influence the electrolysis process and the growth of hydrogen bubbles. The results contribute to a better understanding of the dynamics of electrolytic processes and aid in optimizing electrolytic systems for more efficient hydrogen production, which represents a potential to develop new technologies in the field of energy efficiency, sustainable energy sources, and environmentally friendly energy solutions.

Keywords:electrolysis, hydrogen, bubbles, electrolytic cells, microelectrode, high-speed camera

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