Tirkīza ūdeņraža iegūšana ar metāna pirolīzi
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Latvijas Universitāte
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lav
Abstract
Ūdeņradis ir nozīmīgs degvielas avots jau vairāk nekā gadsimtu, un tā nozīme ir tikai palielinājusies, meklējot videi draudzīgus enerģijas risinājumus. Starp dažādām ūdeņra- ža ražošanas metodēm tirkīza ūdeņradis izceļas ar savu iespējamo labumu videi. Šajā pētījumā tiek pētīta tirkīza ūdeņraža ražošana, izmantojot feroniķeļa katalizatoru. Lai novērtētu katalītisko reakciju rezultātus, tika izmantotas vairākas analītiskās metodes, tostarp Furjē transformācijas infrasarkanā spektroskopija (FTIR), gāzu hromatogrāfija- masas spektrometrija (GC-MS), termogravimetriskā analīze (TGA) un skenēšanas elek- tronu mikroskopija (SEM). Rezultāti apstiprina tirkīza ūdeņraža sekmīgu ieguvi. Turklāt SEM attēli atklāj gan amorfu, gan pavedienveida oglekļa struktūru veidošanos. Šie at- klājumi parāda feroniķeļa katalizatora efektivitāti tirkīza ūdeņraža ražošanā un sniedz vērtīgu ieskatu saistītajās oglekļa morfoloģijās.
Hydrogen has been a relevant fuel source for over a century, and its importance has only increased in the quest for green energy solutions. Among various hydrogen production methods, turquoise hydrogen stands out for its potential environmental benefits. This study investigates the production of turquoise hydrogen using a ferro-nickel catalyst. To evaluate the outcomes of the catalytic reactions, several analytical techniques were employed, including Fourier Transform Infrared Spectroscopy (FTIR), Gas Chromatography- Mass Spectrometry (GC-MS), Thermogravimetric Analysis (TGA), and Scanning Electron Microscopy (SEM). The results confirm the successful extraction of turquoise hydrogen. Additionally, SEM images reveal the formation of both amorphous and filamentous car- bon structures. These findings demonstrate the efficacy of the ferro-nickel catalyst in turquoise hydrogen production and provide valuable insights into the associated carbon morphologies.
Hydrogen has been a relevant fuel source for over a century, and its importance has only increased in the quest for green energy solutions. Among various hydrogen production methods, turquoise hydrogen stands out for its potential environmental benefits. This study investigates the production of turquoise hydrogen using a ferro-nickel catalyst. To evaluate the outcomes of the catalytic reactions, several analytical techniques were employed, including Fourier Transform Infrared Spectroscopy (FTIR), Gas Chromatography- Mass Spectrometry (GC-MS), Thermogravimetric Analysis (TGA), and Scanning Electron Microscopy (SEM). The results confirm the successful extraction of turquoise hydrogen. Additionally, SEM images reveal the formation of both amorphous and filamentous car- bon structures. These findings demonstrate the efficacy of the ferro-nickel catalyst in turquoise hydrogen production and provide valuable insights into the associated carbon morphologies.