Vpliv proizvodnje vodika na okolje

Mitrović, Davor

Vpliv proizvodnje vodika na okolje
ID Mitrović, Davor (Author), ID Genorio, Boštjan (Mentor) More about this mentor... This link opens in a new window

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Abstract

Vodik je s 75 % deležem najpogostejši element v vesolju. Je zelo reaktiven in se uporablja v različnih industrijskih procesih, vključno s proizvodnjo amonijaka za gnojila, rafiniranjem nafte in sintezo metanola. Vodik veliko obeta kot čist in obnovljiv vir energije, zlasti v tehnologiji gorivnih celic, kjer se lahko uporablja za proizvodnjo električne energije. Proizvodnja vodika pušča pomembne ekološke posledice, ki predstavljajo dodatne izzive. Glede na način proizvodnje vodika ločimo: zelen, roza, rumen, turkizen, moder, siv in črn vodik. Za pridobivanje vodika se uporabljajo različne metode, kot so parni reforming, uplinjanje, piroliza, elektroliza in dodatni procesi kot sta povratna reakcija vodnega plina in absorpcija z nihajočim tlakom. Hranjenje vodika je zahtevno, saj je vodik majhna in reaktivna molekula. Previdnost zahteva izbiro ustreznega materiala v katerem vodik hranimo in tako zmanjšamo možnosti izpustov v okolje.

Language:	Slovenian
Keywords:	barve vodika, parni reforming, vodik, nevarnosti vodika pri delu
Work type:	Bachelor thesis/paper
Typology:	2.11 - Undergraduate Thesis
Organization:	FKKT - Faculty of Chemistry and Chemical Technology
Year:	2024
PID:	20.500.12556/RUL-155359
COBISS.SI-ID:	191395075
Publication date in RUL:	27.03.2024
Views:	130
Downloads:	24
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Abstract:
Language:	English
Title:	The impact of hydrogen production on the environment
Hydrogen represents 75 % of all elements and is the most common element in the Universe. It is highly reactive and is used in a variety of industrial processes, including ammonia production for fertilizers, petroleum refining, and methanol synthesis. Hydrogen holds great promise as a clean and renewable energy source, particularly in fuel cell technology where it can be used to generate electricity. Hydrogen production has significant ecological consequences that pose additional challenges. Based on the means of production we separate hydrogen by colours: green, pink, yellow, turquoise, blue, grey, and black. Different methods are used to obtain hydrogen, such as steam reforming, gasification, pyrolysis, electrolysis, and additional processes such as water gas shift reaction and pressure swing adsorption. Hydrogen being a small molecule, has the tendency to cause embrittlement to the exposed material. Adequate ventilation and the use of appropriate material are required to prevent releases into the environment.
Keywords:	hydrogen colours, steam methane reforming, hydrogen, hydrogen workplace dangers

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