2020
DOI: 10.15255/kui.2019.049
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Membranska filtracija kao ekološki prihvatljiva metoda pročišćavanja sirovog biodizela

Abstract: Biodizel je prvo alternativno gorivo čija su fizikalno-kemijska svojstva regulirana odgovarajućim standardima: američkim ASTM D 6751 i europskim standardom EN 14214. Proces proizvodnje biodizela sastoji se od tri glavne faze: 1) pripreme sirovine, 2) transesterifikacije i 3) obrade produkta reakcije – pročišćavanje sirovog biodizela kako bi se zadovoljile specifikacije koje su navedene u prethodno spomenutim standardima. Proces pročišćavanja sirovog biodizela obično se provodi dvjema tehnikama: vlažnim i suhim… Show more

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Cited by 10 publications
(4 citation statements)
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References 48 publications
(69 reference statements)
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“…This necessitates membrane cleaning to remove residual components and extend membrane life, efficiency, and repeatability. [ 146 ] In the context of developing membrane materials for biogas separation applications, the focus should shift toward improving compatibility with a broad spectrum of biogas components, prioritizing product stability over excessively high selectivity. Table 4 outlines the performance enhancement and effects of various nanofillers on membranes.…”
Section: Future Prospects and Challengesmentioning
confidence: 99%
“…This necessitates membrane cleaning to remove residual components and extend membrane life, efficiency, and repeatability. [ 146 ] In the context of developing membrane materials for biogas separation applications, the focus should shift toward improving compatibility with a broad spectrum of biogas components, prioritizing product stability over excessively high selectivity. Table 4 outlines the performance enhancement and effects of various nanofillers on membranes.…”
Section: Future Prospects and Challengesmentioning
confidence: 99%
“…As glycerol and FAAE are immiscible due to their polarity differences, the lipid/oil droplets can be filtered through ceramic membranes owing to their large droplet size compared to the biodiesel [61]. These membranes have also been successful removing other common contaminants such as soap, to reach the quality defined in standard specifications [76]. However, it is often necessary to clean the membranes after each purification process either physically, chemically (hydrogen peroxide, chlorine, etc.…”
Section: Membrane Filtrationmentioning
confidence: 99%
“…However, it is often necessary to clean the membranes after each purification process either physically, chemically (hydrogen peroxide, chlorine, etc. ), or hydraulically [77], to extend the reusability, efficiency, and repeatability of the membrane [76], otherwise, fouling and clogging can occur [74]. Furthermore, the membrane performance can be affected by physical operating parameters, including temperature requirements.…”
Section: Membrane Filtrationmentioning
confidence: 99%
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