Uklanjanje metil oranža korišćenjem dvoslojnog slojevitog hidroksida poreklom od istrošene kiseline

##plugins.themes.bootstrap3.article.main##

Mladen Bugarčić http://orcid.org/0000-0002-6119-4414 Aleksandar Jovanović http://orcid.org/0000-0001-9867-9282 Milica Mišić http://orcid.org/0009-0001-8274-3136 Milan Milivojević Nataša Knežević http://orcid.org/0000-0003-4572-4398 Jovana Bošnjaković Miroslav Sokić http://orcid.org/0000-0002-4468-9503

Apstrakt

Proizvodnja organskih boja je u stalnom porastu poslednjih decenija, pa njihova upotreba ostavlja negativan uticaj na životnu sredinu najčešće na živi svet u vodi. Otpadne vode koje nose rastvorene boje su toksične za sve organizme koji postoje u vodi, pa se takvi tokovi otpadnih voda moraju na odgovarajući način tretirati pre nego što se ispuste u životnu sredinu. Izrada efikasnih adsorbenata koji se mogu koristiti u prečišćavanju otpadnih voda postala je mandatorna. U toku pripreme adsorbenata često nastaju i sporedni proizvodi kao što su istrošene kiseline ili baze pošto se one obično koriste za aktivaciju površine adsorbenata. Istrošena kiselina nastala tokom aktivacije ekspandiranog vermikulita (EVer) korišćena je kao polazni materijal za pripremu dvoslojnog slojevitog hidroksida (DSH-EVer) metodom koprecipitacije pri niskoj prezasićenosti. DSH-EVer korišćen je za uklanjanja metil oranža iz vodenog rastvora. Tokom eksperimenata, vreme kontakta je varirano i na taj način je određena brzina adsorpcije. Dobijeni rezultati pokazuju visok kapacitet adsorpcije od 63 mg g-1.

##plugins.themes.bootstrap3.article.details##

Kako citirati
BUGARČIĆ, Mladen et al. Uklanjanje metil oranža korišćenjem dvoslojnog slojevitog hidroksida poreklom od istrošene kiseline. Zbornik Međunarodnog kongresa o procesnoj industriji – Procesing, [S.l.], v. 37, n. 1, p. 321-326, june 2024. Dostupno na: <https://izdanja.smeits.rs/index.php/ptk/article/view/8091>. Datum pristupa: 17 july 2024 doi: https://doi.org/10.24094/ptk.024.321.
Sekcija
Procesne tehnologije

Reference

[1] Ai, L. H.; Zhou, Y.; Jiang, J. Removal of methylene blue from aqueous solution by mon-tmorillonite/CoFe2O4 composite with magnetic separation performance, Desalination, 266 (2011), 1-3, pp. 72–77.
[2] Wu, L., Liu, X., Lv, G., Zhu, R., Tian, L., Liu, M., Tianming L., Liao, L. (2021). Study on the adsorption properties of methyl orange by natural one-dimensional nano-mineral materi-als with different structures, Scientific reports, 11(2021), 1, 10640
[3] Kishor, R., Purchase, D., Saratale, G. D., Ferreira, L. F. R., Hussain, C. M., Mulla, S. I., Bharagava, R. N. Degradation mechanism and toxicity reduction of methyl orange dye by a newly isolated bacterium Pseudomonas aeruginosa MZ520730, Journal of Water Process Engineering, 43 (2021), 102300.
[4] Abdulsalam, K. A., Olagoke, H. B., Oladosu, I. A., Olawoye, B. M., Amodu, B. H., Fako-rede, O. K., Tiamiyu A., Owolabi, S. O. Methyl Orange, An Organic Dye: Its Health Impact And Sorptive Removal From Waste Water, International Journal of Progressive Sciences and Technologies (IJPSAT), 33 (2022), 1, pp. 150–160.
[5] Kishor, R., Purchase, D., Ferreira, L., Mulla, S., Bilal, M., Bharagava, R. Environmental and health hazards of textile industry wastewater pollutants and its treatment approaches, Springer Nature, Cham, Switzerland, 2020.
[6] Eltaboni, F., Bader, N., El-Kailany, R., Elsharif, N., Ahmida, A. Chemistry and Applicati-ons of Azo Dyes: A Comprehensive Review, Journal of Chemical Reviews, Volume 4 (2022), issue 4, pp. 313–330.
[7] Hadibarata, T., Yusoff, A. R. M., Kristanti, R. A. Decolorization and metabolism of anthraquionone-type dye by laccase of white-rot fungi Polyporus sp. S133, Water, Air, & Soil Pollution, 223 (2012), pp. 933–941.
[8] Alzain, H., Kalimugogo, V., Hussein, K., Karkadan, M. A Review of Environmental Impact of Azo Dyes, International Journal of Engineering Research and General Science, 10 (2023), 6, pp. 64–689.
[9] Dutta, S. K., Amin, M. K., Ahmed, J., Elias, M., Mahiuddin, M. Removal of toxic methyl orange by a cost-free and eco-friendly adsorbent: mechanism, phytotoxicity, thermodyna-mics, and kinetics, South African Journal of Chemical Engineering, 40 (2022), pp. 195–208.
[10] Vatandoostarani, S., Lotfabad, T. B., Heidarinasab, A., Yaghmaei, S. Degradation of azo dye methyl red by Saccharomyces cerevisiae ATCC 9763, International Biodeterioration & Biodegradation, 125 (2017), pp. 62–72.
[11] Han, Q., Wang, A., Zhang, J. Research on the removal of Cr(VI) ions from wastewater by Mg/Al-layered double oxides, Materials Today Chemistry, 29 (2023) 101466.
[12] Vuksanović, M., Egelja M., A., Barudžija, T., Tomić, N., Petrović, M., Marinković, A., Radojević V., Heinemann, R. J. Inorganically modified particles FeAl-LDH@ SiO2 as rein-forcement in poly (methyl) methacrylate matrix composite, Royal Society Open Science, 8 (2021), 9, 210835.
[13] Bugarčić, M., Lopičić, Z., Šoštarić, T., Marinković, A., Rusmirovic, J. D., Milošević, D., Milivojević, M. Vermiculite enriched by Fe (III) oxides as a novel adsorbent for toxic metals removal, Journal of Environmental Chemical Engineering, 9 (2021), 5, 106020.