Potencijal upotrebe piritne izgoretine u tretmanu otpadnih voda i mogućnost njene dalje sanacije primenom imobilizacionih agenasa / Potential use of pyrite cinders in wastewater treatment and the possibility of its further disposal by using imobilizacionih agents

Description

<p>Predmet&nbsp; izučavanja&nbsp; ove&nbsp; disertacije&nbsp; bio&nbsp; je&nbsp; ispitivanje&nbsp; mogućnosti&nbsp; kori&scaron;ćenja&nbsp; piritne&nbsp;izgoretine&nbsp; u&nbsp; tretmanu&nbsp; otpadnih&nbsp; voda&nbsp; tekstilne&nbsp; industrije&nbsp; kao&nbsp; i&nbsp; dalji&nbsp; tretman&nbsp; mulja&nbsp; nastalog&nbsp;nakon ovog procesa. Naime, nakon iskori&scaron;ćenja ovog otpada &nbsp;u Fenton procesima, iskori&scaron;ćena&nbsp;piritna izgoretina u najvećem procentu čini mulj koji zaostaje nakon tretmana. Kako se piritna&nbsp;ruda jo&scaron; u procesu proizvodnje sumporne kiseline&nbsp; koristi nepreči&scaron;ćena, zaostali&nbsp; mulj koji je&nbsp;potencijalno&nbsp; toksičan&nbsp; i&nbsp; ne&nbsp; može&nbsp; se&nbsp; direktno&nbsp; odlagati&nbsp; bez&nbsp; prethodnog&nbsp; tretmana.&nbsp; Stoga,&nbsp;primenjena&nbsp; je&nbsp; tehnika&nbsp; stabilizacija&nbsp; i&nbsp; solidifikacija&nbsp; (S/S)&nbsp; uz&nbsp; kori&scaron;ćenje&nbsp; portland&nbsp; cementa,&nbsp;kalcijum-oksida, prirodnog zeolita, letećeg pepela, kaolinita,&nbsp; bentonita i&nbsp; autohtone&nbsp; gline &nbsp;za&nbsp;imobilizaciju metala. Istraživanja u ovoj disertaciji vr&scaron;ena su u dve faze. Prva faza imala je za&nbsp;cilj&nbsp; optimizaciju&nbsp; operativnih&nbsp; uslova&nbsp; Fenton&nbsp; tretmana&nbsp; pri&nbsp; kojima&nbsp; se&nbsp; postiže&nbsp; najvi&scaron;i&nbsp; stepen&nbsp;obezbojavanja&nbsp; i&nbsp; mineralizacije&nbsp; ispitivanih&nbsp; efluenata.&nbsp; Takođe&nbsp; ispitivanje&nbsp; je&nbsp; uključilo&nbsp; i&nbsp;karakterizaciju nastalih efluenata kako bi se procenila efikasnost primenjenog, i mogućnost&nbsp;daljeg&nbsp; tretmana.&nbsp; Druga&nbsp; faza&nbsp; uključivala&nbsp; je&nbsp; karakterizaciju&nbsp; nastalog&nbsp; mulja&nbsp; nakon&nbsp; tretmana&nbsp;obojenih&nbsp; efluenata&nbsp; i&nbsp; njegov&nbsp; tretman&nbsp; solidifikacijom&nbsp; i&nbsp; stabilizacijom.&nbsp; Vr&scaron;eno&nbsp; je&nbsp; određivanje&nbsp;efikasnosti&nbsp; primenjenih&nbsp; imobilizacionih&nbsp; agenasa&nbsp; u&nbsp; S/S tretmanu&nbsp; i&nbsp; dominantnog&nbsp; mehanizma&nbsp;<br />izluživanja&nbsp; metala&nbsp; koji&nbsp; opisuju&nbsp; njihov&nbsp; transport&nbsp; iz&nbsp; dobijenih&nbsp; solidifikata.&nbsp; Primenjeni&nbsp; su&nbsp; i&nbsp;modifikovani&nbsp; testovi&nbsp; izluživanja&nbsp; sa&nbsp; ciljem&nbsp; &scaron;to&nbsp; bolje&nbsp; simulacije&nbsp; realnih&nbsp; uslova.&nbsp; Rezultati&nbsp;dobijeni&nbsp; simulacijom&nbsp; uslova&nbsp; će&nbsp; dalje&nbsp; omogućiti&nbsp; modelovanje&nbsp; pona&scaron;anja&nbsp; metala&nbsp; u&nbsp; smislu&nbsp;dugoročnog&nbsp; &quot;izluživanja&quot;&nbsp; iz&nbsp; tretiranog&nbsp; otpada&nbsp; kao&nbsp; i&nbsp; procenu&nbsp; najefikasnijih&nbsp; agenasa&nbsp; za&nbsp;imobilizaciju različitih metala u ovom tipu otpada. TakoĎe primenjeni su testovi izluživanja&nbsp;sa jednom ekstrakcijom kako bi se osiguralo&nbsp; slaganje rezultata sa maksimalno dozvoljenim&nbsp;koncentracijama&nbsp; aktuelnih&nbsp; pravilnika.&nbsp; Na&nbsp; osnovu&nbsp; dobijenih&nbsp; rezultata&nbsp; zaključeno&nbsp; je&nbsp; da&nbsp; se&nbsp;piritna izgoretina može uspe&scaron;no koristiti kao izvor katalitičkog gvožđa u Fenton tretmanima&nbsp;obojenih&nbsp; efluenata&nbsp; i&nbsp; može&nbsp; se&nbsp; smatrati&nbsp; efektivnom&nbsp; metodom &nbsp; predtretmana&nbsp; za&nbsp;nebiodegradabilne&nbsp; otpadne&nbsp; vode,&nbsp; čineći&nbsp; ih&nbsp; pogodnijim&nbsp; za&nbsp; konvencionalni&nbsp; biolo&scaron;ki&nbsp; tretman.&nbsp;Takođe&nbsp; u&nbsp; drugoj&nbsp; fazi&nbsp; istraživanja,&nbsp; na&nbsp; osnovu&nbsp; dobijenih&nbsp; rezultata,&nbsp; zaključeno&nbsp; je&nbsp; da&nbsp; je&nbsp; mulj&nbsp;tertian&nbsp; sa&nbsp; navedenim&nbsp; imobilizacionim&nbsp; agensima&nbsp; uspe&scaron;no&nbsp; solidifikovan&nbsp; i&nbsp; stabilizovan&nbsp;materijal.&nbsp; Optimalane&nbsp; su&nbsp; sme&scaron;e&nbsp; koje&nbsp; kao&nbsp; jedan&nbsp; od&nbsp; imobilizacionih&nbsp; agenasa&nbsp; sadrže&nbsp; leteći&nbsp;<br />pepeo, prevashodno u kombinaciji sa cementom i krečom. Dobijeni podaci su &nbsp;neprocenjivi sa&nbsp;aspekta ekonomski i ekolo&scaron;ki prihvatljivog upravljanja opasnim industrijskim otpadom.&nbsp;</p> / <p>This work is concerned with exploring the possibility of using pyrite cinders in the treatment&nbsp;of&nbsp; textile&nbsp; industry&nbsp; effluents&nbsp; and&nbsp; further&nbsp; treatment&nbsp; of&nbsp; sludge&nbsp; generated&nbsp; after&nbsp; this&nbsp; process.&nbsp;Namely,&nbsp; after&nbsp; the&nbsp; utilization&nbsp; of&nbsp; this&nbsp; waste&nbsp; in&nbsp; Fenton&nbsp; processes&nbsp; slag&nbsp; that&nbsp; remains&nbsp; after&nbsp;treatment is mostly composed of used pyrite cinder. As the pyrite ore, in the production of&nbsp;sulfuric&nbsp; acid,&nbsp; is&nbsp; used&nbsp; untreated,&nbsp; sludge&nbsp; that&nbsp; remains&nbsp; is&nbsp; potentially&nbsp; toxic&nbsp; and&nbsp; cannot&nbsp; be&nbsp;disposed&nbsp; directly&nbsp; without&nbsp; treatment.&nbsp; Therefore,&nbsp; the&nbsp; stabilization&nbsp; and&nbsp; solidification&nbsp; (S/S)&nbsp;technique&nbsp; with&nbsp; the&nbsp; usage&nbsp; of&nbsp; portland&nbsp; cement,&nbsp; calcium&nbsp; oxide,&nbsp; zeolite,&nbsp; fly&nbsp; ash,&nbsp; kaolinite,&nbsp;bentonite and native clay was used for metal immobilization. The research in this dissertation&nbsp;was carried out in two phases. The first phase aimed to optimize the operational conditions of&nbsp;Fenton&nbsp; treatment&nbsp; in&nbsp; which&nbsp; the&nbsp; highest&nbsp; degree&nbsp; of&nbsp; decolourization&nbsp; and&nbsp; mineralization&nbsp; was&nbsp;achieved in tested effluents. Also the research has included the characterization of generated&nbsp;effluents in order to evaluate the effectiveness of the treatment applied, and the possibility of&nbsp;further&nbsp; treatment.&nbsp; The&nbsp; second&nbsp; phase&nbsp; involved&nbsp; the&nbsp; characterization&nbsp; of&nbsp; the&nbsp; generated&nbsp; sludge&nbsp;after the treatment of effluents that contained dyes and its treatment with solidification and&nbsp;stabilization technique.&nbsp; The determination of used immobilization agents effectiveness was&nbsp;Conducted&nbsp; to&nbsp; determine&nbsp; the&nbsp; efficacy&nbsp; of&nbsp; immobilization&nbsp; agents&nbsp; in&nbsp; S&nbsp; /&nbsp; S&nbsp; treatment&nbsp; and&nbsp; the&nbsp;dominant&nbsp; mechanism&nbsp; of&nbsp; leaching&nbsp; of&nbsp; metals&nbsp; that&nbsp; describe&nbsp; their&nbsp; transport&nbsp; from&nbsp; the&nbsp; received&nbsp;solidificate . Were applied and modified leaching tests with the aim of better simulation of&nbsp;real&nbsp; conditions.&nbsp; The&nbsp; results&nbsp; obtained&nbsp; by&nbsp; condition&nbsp; simulation&nbsp; will&nbsp; enable&nbsp; the&nbsp; modeling&nbsp; of&nbsp;behavior of metals in terms of long-term leaching period from the treated sludge and assess&nbsp;the most effective agents for the immobilization of various metals in this type of waste. Also,&nbsp;single-extraction leaching tests were applied to ensure the accordance of obtained results &nbsp;with&nbsp;the maximum permissible concentrations of current regulations. Based on these results, it was&nbsp;concluded&nbsp; that&nbsp; the&nbsp; pyrite&nbsp; cinders&nbsp; can&nbsp; be&nbsp; successfully&nbsp; used&nbsp; as&nbsp; a&nbsp; source&nbsp; of&nbsp; catalytic&nbsp; iron&nbsp; in&nbsp;Fenton&nbsp; treatment&nbsp; of&nbsp; effluents&nbsp; containing&nbsp; dyes,&nbsp; and&nbsp; can&nbsp; be&nbsp; considered&nbsp; an&nbsp; effective&nbsp;pretreatment&nbsp; method&nbsp; for&nbsp; non-biodegradable&nbsp; waste&nbsp; waters,&nbsp; making&nbsp; them&nbsp; amenable&nbsp; to&nbsp;conventional biological treatment. Also in the second phase, based on the results obtained, it&nbsp;was concluded that the sludge treated with&nbsp; aforementioned&nbsp; immobilization agents represents&nbsp;a successfully solidified and stabilized material. The optimal mixtures are those that contain&nbsp;fly ash as one of the used immobilization agents, primarily in combination with cement and&nbsp;lime.&nbsp; The&nbsp; obtained&nbsp; data&nbsp; are&nbsp; invaluable&nbsp; in&nbsp; terms&nbsp; of&nbsp; economic&nbsp; and&nbsp; environmentally&nbsp; sound&nbsp;management of hazardous industrial waste.</p>

Links & Downloads

1. https://www.cris.uns.ac.rs/DownloadFileServlet/Disertacija140532606546094.pdf?controlNumber=(BISIS)89491&fileName=140532606546094.pdf&id=2448&source=NDLTD&language=en
2. https://www.cris.uns.ac.rs/record.jsf?recordId=89491&source=NDLTD&language=en

Tags

Additional Fields

Identifer	oai:union.ndltd.org:uns.ac.rs/oai:CRISUNS:(BISIS)89491
Date	17 October 2014
Creators	Kerkez Djurdja
Contributors	Bečelić Tomin Milena, Dalmacija Božo, Rončević Srđan, Krčmar Dejan, Klašnja Mile
Publisher	Univerzitet u Novom Sadu, Prirodno-matematički fakultet u Novom Sadu, University of Novi Sad, Faculty of Sciences at Novi Sad
Source Sets	University of Novi Sad
Language	Serbian
Detected Language	English
Type	PhD thesis