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Rudarstvo 2011 / Mining 2011Ukoliko koristimo LX (Environment Canada, 1991) kao kriterijum za korišćenje i odlaganje tretiranogotpada, smeše sa letećim pepelom, kao što se vidi sa slike, se sve mogu smatrati pogodnim za daljuupotrebu, bez obzira na korišćeni rastvor za izluţivanje, jer se srednji indeksi izluţivanja kreću u opseguod 9 do14,8.ZAKLJUĈAKNa osnovu dobijenih rezultata moţe se zakljuĉiti da se leteći pepeo moţe efikasno upotrebljavati zaimobilizaciju metala u kontaminiranim sedimentima. Upotrebom letećeg pepela moţe se vršitiimobilizacija dve vrste otpadnog materijala, što je jedan od osnovnih principa koncepta zeleneremedijacije. Moţe se zakljuĉiti da tehnika solidifikacije/stabilizacije ima znaĉajan potencijal u pogledurešavanja problema kako kontaminiranog sedimenta tako i problema velike koliĉine letećeg pepela iztermoelektrana, bilo u smislu njegovog korišćenja kao dodatka pri proizvodnji graĊevinskog materijala(opeke), bilo u pogledu sigurnog odlaganja na deponiju.LITERATURA1. ANS (American National Standard) ANSI/ANS-16.1. (1986). American National Standard for theMeasurement of the Leachability of Solidified Low-Level Radioactive Wastes by a Short-Term TestsProcedure. ANSI/ANS-16.1. American National Standards Institute, New York, NY.2. Bone, B.D., Barnard, L.H., Boardman, D.I., Carey, P.J., Hills, C.D., Jones, H.M., MacLeod, C.L. iTryer, M. (2004) Rewiew of scientific literature on the use of stabilisation/solidication for treatment ofcontaminated soil, solid waste and sludges, Science Report, Environment Agency, Bristol.3. Moon, D.H., Dermatas, D. (2007). Arsenic and lead release from fly ash stabilized/solidified soilsunder modified semi-dynamic leaching conditions. Journal of Hazardous Materials 141, 388–394.4. Dermatas, D. i Meng, X. (2003) Utilisation of fly ash for stabilization/solidification of heavymetal contaminated soils, Engineering Geology 70, 377-394.5. Suzuki, K., Ono, Y. (2008). Leaching characteristics of stabilized/solidified fly ash generatedfrom ash-melting plant. Chemosphere 71, 922–932.6. Mohan, S. i Ganhimathi, R. (2009) Removal of heavz metal ions from municipal solid wastelechate using coal fly ash as an adsorbent, Journal of Hazardous Materials 169, 351-359.7. Nathwani, J.S., Phillips, C.R. (1980). Leachability of Ra-226 from uranium mill tailingsconsolidated with naturally occurring materials and/or cement: II. Analysis based on mass transportequation. Water, Air and Soil Pollution 14, 389–402.8. Environment Canada (1991). Proposed Evaluation Protocol for Cement-Based Solidified Wastes,Environmental Protection Series, Report No. EPS 3/HA/9.9. Official Journal of the European Communities, L11, (2003), Council Decision 2003/33/EC of 19December 2002 establishing criteria and procedures for the acceptance of waste at landfills pursuantto Article 16 of and Annex II to Directive 1999/31/EC.477
Rudarstvo 2011 / Mining 2011KONVENCIONALNA ELEKTROREMEDIJACIJA KAOLINAZAGAĐENOG Ni, Cu I PbCONVENTIONAL ELECTROREMEDIATION OF Ni, Cu AND PbCONTAMINATED KAOLINLjiljana Rajić*, Boţo Dalmacija, Svetlana Ugarĉina Perović, Milena Dalmacija, SrĊanRonĉević, Elvira KarlovićPrirodno-matematiĉki fakultet, Departman za hemiju, biohemiju i zaštitu ţivotne sredine, Novi SadApstraktU okviru ovog rada predstavljena je efikasnost konvencionalne elektroremedijacije kaolina zagaĊenog teškimmetalima. Tretmani su izvoĊeni na kaolinu zagaĊenom niklom (e1), bakrom (e2) i olovom (e3) pri ĉemu supostignute sledeće efikasnosti uklanjanja: 29% nakon e1, 44% nakon e2 i 35% nakon e3 odnosno ukoliko se neuraĉunava sadrţaj metala u katodnom regionu efikasnosti su: 72%, 68% i 53% nakon e1, e2 i e3, redom. Moţe seutvrditi da je elektroremedijacija pogodna tehnika za tretman medijuma tipa kaolina zagaĊenih navedenim metalima,a koja je ujedno jednostavna za izvoĊenje i ekonomiĉna.Kljuĉne reĉi: elektroremedijacija; kaolin; Ni, Cu i PbAbstractIn this work we <strong>present</strong> the efficacy of conventional electroremediation of heavy metals contaminated kaolin.Treatments were performed on nickel (e1), copper (e2) and lead (e3) contaminated kaolin, where the followingremoval efficacies are achieved: 29% after the e1, 44% after e2 and 35% after e3 or if metal content in the cathoderegion is not included efficacies are as follows: 72%, 68% and 53% after the e1, e2 and e3, respectively. It can benoticed that the electroremediation is suitable technique for the treatment of kaolin-type mediums contaminated withmentioned metals which is also cost-effective and easy to operate.Key words: electroremediation; kaolin; Ni, Cu and PbUvodS obzirom da sediment i zemljište mogu biti zagaĊeni teškim metalima usled niza prirodnih i, u većojmeri, antropogenih aktivnosti, pronalaţenje novih i usavršavanje postojećih metoda remedijacije ovihmedijuma je od velikog znaĉaja. U novije vreme se u cilju njihovog preĉišćavanja sve ĉešće koristielektrokinetiĉka (EK) remedijacija koja je jednostavna za izvoĊenje i ekonomski prihvatljiva (Gardner2005, US EPA 1997, 1997a). Ona podrazumeva primenu slabe jednosmerne struje (mA/cm 2 ) ili napona naheterogene sisteme (sediment, zemljište, industrijski mulj) (Acar i Alshawabkeh 1993). Posledicapropuštene jednosmerne struje kroz heterogeni medijum je niz procesa: elektromigracija, elektroliza vode,elektroosmotsko kretanje vode, elektroforeza tj. kretanje koloidnih ĉestica i difuzija (Alshawabkeh 2001).Da bi se primenom EK remedijacije metali uklonili iz medijuma neophodno je da se nalaze u obliku jona ito jednakog naelektrisanja (katjoni ili anjoni) s obzirom da je elektromigracija u najvećoj meri odgovornaza njihovu ekstrakciju (Ottosen i Jensen 2005). Na uklanjanje metala znaĉajno utiĉe proces elektrolizevode. Elektroliza se odvija na površini elektroda pri ĉemu se na površini anode formiraju H + joni dok sena katodi formiraju OH - joni. Formirani joni se kreću pod dejstvom struje u pravcu suprotnonaelektrisanih elektroda, te dolazi do njihovog prodora u medijum ĉiji se tretman vrši. Prisustvo H + jona umedijumu (kiseli front) je poţeljno, jer doprinosi desorpciji jona metala sa ĉestica medijuma dok se u u478
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Rudarstvo 2011 / Mining 2011ANALIZA
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Rudarstvo 2011 / Mining 2011proizvo
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stanje i perspektive u rudarstvu i odrÅ£ivi razvoj mining present state ...

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