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In this study, the adsorption behavior of natural and activated zeolites with respect to Cd2+, Cr3+, Pb2+and Zn2+, was studied in order to consider theirabilityto remove hazardousmetals fromdrilling mud. The batch method was employed, using initial metal concentrations in solution in the range of0.1 to 2.5 mg/dm3. It was determined that independently of the concentration, the adsorption ratios of zeolite towardsmetal cations match the Langmuir and Freundlich isotherms. The results of the research on the reduction of concentration of hazardousmetals from drilling mud wastewater by means of natural and activated zeoliteswere presented in the further part of this work. Natural and activated zeolites were introduced in portions (from 0.2to 10 g) to 100 cm3of wastewater; then, the content of metalions was determined using an inductively coupled plasma spectrometer. The experimental data showed that the applicationof activated zeolite enabled the removal rate of Cr3+, Pb2+, Zn2+and Cd2+close to 93%, 45%, 56% and 84%, respectively. In the case of the natural zeolite, the degree of hazardousmetals removal was lower by only a few percent, but still high enough to beinteresting from the practical point of view. Satisfactory effects of hazardousmetal ionsremoval from drilling muds were achieved using 2 to 5 g of zeolite. The obtained results proved that the natural zeolite constitutes an important material for efficient removal of hazardousmetalionsfrom drilling mud wastewater.
Słowa kluczowe
Rocznik
Tom
Strony
1467--1474
Opis fizyczny
Bibliogr. 26 poz., tab., wykr.
Twórcy
autor
- Lublin University of Technology, Faculty of Environmental Engineering, Nadbystrzycka 40B, Lublin, Poland
autor
- Lublin University of Technology, Faculty of Environmental Engineering, Nadbystrzycka 40B, Lublin, Poland
autor
- Lublin University of Technology, Faculty of Environmental Engineering, Nadbystrzycka 40B, Lublin, Poland
Bibliografia
- BALL, S. A., STEWART, R. J., SCHLIEOHAKE, K., 2012. A review of current options for the treatment and safe disposal of drill cuttings. Waste Manage. Res. 30, 457–473.
- BOSSO, S. T., ENZWEILER, J., 2002. Evaluation of hazardousmetal removal from aqueous solution onto solicited. Water Res. 36, 4795–4800.
- BUS, A., KARCZMARCZYK A. A., 2015. Kinetic and sorption equilibrium studies on phosphorus removal from natural swimming ponds by selected reactive materials. Fresen. Environ. Bull. 24, 2736-2741.
- DAVIS, M. E., 2014. Zeolites from a materials chemistry perspective. Chem. Mater. 26, 239–245.
- DEEPTHI RANI,R., SASIDHAR, P., 2012. Sorption of cesium on clay colloids: kinetic and thermodynamic studies. Aquat. Geochem. 18, 281–296.
- ELNENAY, A.M.H., NASSEF, E., MALASH, G. F., MAGID, M.H.A., 2017. Treatment of drilling fluids wastewater by electrocoagulation. Egypt. J. Petrol. 26, 203-208.
- FENGLIAN,F., WANG,Q., 2011. Removal of hazardousmetal ions from wastewaters: A review.J. Environ. Manage. 92, 407–418.
- GOMES, J. S., 2012. The oil and gas industry. Intech. United Kingdom, 1–32.
- HAUT, R. C., ROGERS, J. D., McDOLE, B. W., BURNETT, D., OLATUBI, O., 2007. Minimizing waste during drilling operations. Proceedings AADE National Technical Conference and Exhibition, Houston, Texas, 10–12.
- HO, Y. S., WANG, C. C., 2004. Pseudo–isotherms for the sorption of cadmium ion onto tree fern. Proc. Biochem. 39, 759–763.
- JAMROZIK,A., GONET,A., STRYCZEK,S., WOJACZEK,D., MACIOŁEK,Ł., 2011. Activity of clinoptilolite's sorbent in wasted drilling mud environment. Drilling, Oil, Gas 28, 171–179.
- KASPRZYK, M., GAJEWSKA, M., 2019. Phosphorus removal by application of natural and semi-natural materials for possible recovery according to assumptions of circular economy and closed circuit of P. Sci. Total Environ. 650, 249-256.
- KASPRZYK, M., OBARSKA-PEMPKOWIAKA, H., MASIB, F., GAJEWSKA, M., 2018. Possibilities of Phoslock® application to remove phosphorus compounds from wastewater treated in hybrid wetlands. Ecol. Eng. 122, 84-90.
- KIM,S. A., KAMALA-KANNAN, S., LEE, K.-J., PARK, Y-.J., SHEA, P.J., LEE, W.-H., KIM, H.-M., OH, B.-T., 2013. Removal of Pb(II) from aqueous solution by a zeolite-nanoscale zerovalent iron composite. Chem. Eng. Sci. 217, 54–60.
- KOCAOBA, S., 2007. Comparison of Amberlite IR 120 and dolomite’s performances for removal of hazardousmetals. J. Hazard. Mater. 147, 488–496.
- KORBAN, Z., 2011. Problem of mining waste and their impact on environment in the case of burrow no. 5A/W-1 of "X" mine. Górnictwo i Geologia 6, 109–120.
- LIMOUSIN, G., GAUDET, J.-P., CHARLET, L., SZENKNECT, S., BARTHE, V., KRIMISSA, M., 2007. Sorption isotherms: A review on physical bases, modeling and measurement. Appl. Geochem. 22, 249–275.
- MAURYA, N. S., MITTAL, A. K., 2006. Applicability of equilibrium isotherm models for the biosorptive uptakes in comparison to activated carbon-based adsorption. J. Environ. Eng. 132, 1589–1599.
- MOSELEY Jr, H. R., 1983.Summary of API onshore drilling mud and produced water environmental studies. IADC/SPE Drilling Conference. Society of Petroleum Engineers, New Orleans, USA, 20–23.
- ONWUKA, O. S., IGWE, O., IFEDIEGWU, S. I., UWOM, C. S., 2018. An assessment of the effectiveness of drilling waste treatment process in X-gas field, Niger Delta, Nigeria. Geol. Ecol. Land. 2, 288–302.
- ONWUKWE, S. I.., NWAKAUDU, M. S., 2012. Drilling wastes generation and management approach. Int. J. Environ. Sci. 3, 252–260.
- SAHL, I. B., YASIN, S., ELMUGDAD, A. A., ELHAG, A., 2016. Treatment of drilling mud waste water of block six oilfield plant Sudan using zeolites. Int. J. Multidiscip. Res. Dev. 3, 70–74.
- TAFFAREL, S. R., RUBIO, J., 2010. Removal of Mn2+from aqueous solution by manganese oxide coated zeolite. Miner. Eng., 23, 1131–1138.
- ZHANG, P. Z., WENJIE, D., YANJUN, Z., KANGHAI, D., WIE, L., 2014. Hazardousmetal ions removal from water using modified zeolite. J. Chem. Pharm. Res. 6, 507–514.
- ZHOU, X., GUO, J., ZHANG, W., 2014. Occurrences and inventories of hazardousmetals and brominated flame retardants in waste from printed circuit board production. Environ. Sci. Pollut. Res. 21, 10294–10306.
- YASIN, M. R., BEGUM, M., DEHGHANPOUR, H. 2017. Organic shale wettability and its relationship to other petrophysical properties: A Duvernay case study. Int. J. Coal Geol. 169, 74–91
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c41acae1-946a-4414-a0ed-910f24af8cf7