Nanocrystalline ferrites used as adsorbent in the treatment process of waste waters resulted from ink jet cartridges manufacturing

• Autorzy: Raluca Voda , Adina Negrea , Lavinia Lupa , Mihaela Ciopec , Petru Negrea , Corneliu Mircea Davidescu , Monica Butnariu
• Języki publikacji: EN

Abstrakty

EN

Dye pollution in waste waters causes serious environmental and health risk, legislation problems and is a serious challenge to environmental scientists. In this work the treatment of waste waters resulted from ink jet cartridges manufacturing, using different nanocrystalline ferrites MIIFe2O4 (MII = Mg, Cu) as adsorbent materials, has been investigated. The ferrites were obtained by thermal decomposition at 500°C of the magnesium and copper ferrioxalate coordination compounds. The nanocrystalline ferrites powder was investigated by various methods such as XRD, IR, SEM and EDX. The discoloration of the waste waters has been spectrophotometrically studied. The ferrites could be removed easily after adsorption by using a magnetic filtration process. The results indicated that the maximum adsorption efficiency was obtained after 60 min of treatment, magnesium ferrite showing a higher efficiency than the copper ferrite in the treatment process of waters resulted from ink jet cartridges manufacturing.

EN

Słowa kluczowe

EN

nanocrystalline ferrites; oxalate; oxides; inkjet; adsorption

• Czasopismo: Open Chemistry
• Rocznik: 2015
• Tom: 13
• Numer: 1

Daty

otrzymano

2014-11-13

zaakceptowano

2014-12-08

online

2015-02-03

Twórcy

autor

Raluca Voda

• University Politehnica
  Timisoara, Faculty for Industrial Chemistry and Environmental
  Engineering, Bv. Parvan no. 6, Timisoara, RO–300223, Romania

autor

Adina Negrea

• University Politehnica
  Timisoara, Faculty for Industrial Chemistry and Environmental
  Engineering, Bv. Parvan no. 6, Timisoara, RO–300223, Romania

autor

Lavinia Lupa

• University Politehnica
  Timisoara, Faculty for Industrial Chemistry and Environmental
  Engineering, Bv. Parvan no. 6, Timisoara, RO–300223, Romania

autor

Mihaela Ciopec

• University Politehnica
  Timisoara, Faculty for Industrial Chemistry and Environmental
  Engineering, Bv. Parvan no. 6, Timisoara, RO–300223, Romania

autor

Petru Negrea

• University Politehnica
  Timisoara, Faculty for Industrial Chemistry and Environmental
  Engineering, Bv. Parvan no. 6, Timisoara, RO–300223, Romania

autor

Corneliu Mircea Davidescu

• University Politehnica
  Timisoara, Faculty for Industrial Chemistry and Environmental
  Engineering, Bv. Parvan no. 6, Timisoara, RO–300223, Romania

autor

Monica Butnariu

• Banat’s University of
  Agricultural Sciences and Veterinary Medicine „Regele Mihai I
  al Romaniei“ from Timisoara, 300645, Calea Aradului, no. 119,
  Romania

Bibliografia

• [1] Louhichi B., Bensalah N., Comparative study of the treatment ofprinting ink wastewater by conductive–diamond electrochemicaloxidation, Fenton process, and ozonation, Sustain. Environ.Res, 2014, 24, 49–58
• [2] Zhang G.J., Liu Z.Z., Song L.F., Hu J.Y., Ong S.L, Ng W.J, Post–treatment of banknote printing works wastewater ultrafiltrationconcentrate, Water Res., 2004, 38, 3587–3595
• [3] Saint Amand F.J., Hydrodynamics of deinking flotation, Int.J. Min. Proc., 1999, 56, 277–316
• [4] Viesturs U., Leite M., Eisimonte M., Eremeeva T., Treimanis A.,Biological deinking technology for the recycling of office wastepapers, Bioresource Technol., 1999, 67, 255–265
• [5] Ma X.J., Xia H.L., Treatment of water–based printing inkwastewater by Fenton process combined with coagulation,J. Hazard. Mater., 2009, 162, 386–390[WoS]
• [6] Wang L., Li J., Wang Y., Zhao L., Jiang Q., Adsorption capabilityfor Congo red on nanocrystalline MFe2O4 (M = Mn, Fe, Co, Ni)spinel ferrites, Chem. Eng. J., 2012, 181–182, 72–79
• [7] Iram M., Guo C., Guan Y., Ishfaq A., Liu H., Adsorption andmagnetic removal of neutral red dye from aqueous solutionusing Fe3O4 hollow nanospheres, J. Hazard. Mater., 2010, 181,1039–1050[WoS]
• [8] Wu J.S., Liu C.H., Chu K.H., Suen S.Y., Removal of cationic dyemethyl violet 2B from water by cation exchange membranes,J. Membrane Sci., 2008, 309, 239–245[WoS]
• [9] Vîrlan C., Ciocârlan R. G., Roman T., Gherca D., Cornei N., PuiA., Studies on adsorption capacity of cationic dyes on severalmagnetic nanoparticles, Acta Chemica Iasi, 2013, 21, 19–30
• [10] Metes A., Koprivanac N., Glasnovic A., Flocculation as a treatmentmethod for printing ink wastewater, Water Environ. Res., 2000,72, 680–688
• [11] Nandy T., Shastry S., Pathe P.P., Kaul S.N., Pre–treatmentof currency printing ink wastewater through coagulation–flocculation process, Water Air and Soil Pollution, 2003, 148,15–30
• [12] Roussy J., Chastellan P., Vooren M. van, Guibal E., Treatment ofink–containing wastewater by coagulation/flocculation usingbiopolymers, Water SA, 2005, 31, 369–376
• [13] Fernandez J., Kiwi J., Lizama C., Freer J., Baeza J., MansillaH.D., Factorial experimental design of orange II photocatalyticdiscoloration process, J. Photochem. Photobiol. A, 2002, 151,213–219
• [14] Ersu C.B., Braida W., Chao K.P., Ong S.K., Ultrafiltration of ink andlatex wastewaters using cellulose membranes, Desalination,2004, 164, 63–70
• [15] Purkait M.K., Maiti A., DasGupta S., De S., Removal of Congo redusing activated carbon and its regeneration, J. Hazard. Mater.,2007, 145, 287–295[WoS]
• [16] Xiang–yu H., Jing F., Xiao–han L., Mi–lin Z., Comparable Studiesof Adsorption and Magnetic Properties of Ferrite MnFe2O4Nanoparticles, Porous Bulks and Nanowires, Chem. Res. inChinese Universities, 2011, 27, 543–546
• [17] Mayo J.T., Yavuz C., Yean S., Cong L., Shipley H., Yu W., FalknerJ., Kan A., Tomson M., Colvin V.L., The effect of nanocrystallinemagnetite size on arsenic removal, Sci. Technol. Adv. Mater.,2007, 8, 71–75[Crossref][WoS]
• [18] Casbeer E., Virender K.S., Li X.Z., Synthesis and photocatalyticactivity of ferrites under visible light: A review, Sep. Purif.Technol., 2012, 87, 1–14[WoS]
• [19] Liu Q., Wang L., Xiao A., Gao J., Ding W., Yu H., Huo J., Ericson M.,Templated preparation of porous magnetic microspheres andtheir application in removal of cationic dyes from wastewater,J. Hazard. Mater., 2010, 181, 586–592[WoS]
• [20] Tai Y., Wang L., Fan G., Gao J.M., Yu H., Zhang L., Recent researchprogress on the preparation and application of magneticnanospheres, Poly. Int., 2011, 60, 976–994
• [21] Dumitru R., Papa F., Balint I., Culita D., Munteanu C., Stanica N.,Ianculescu, A., Diamandescu, L., Carp O., Mesoporous cobaltferrite: A rival of platinum catalyst in methane combustionreaction, Appl. Catal. A: Gen., 2013, 467, 178–186
• [22] Modi K.B., Chhantbar M.C., Joshi H.H., Study of elastic behaviourof magnesium ferrialuminates, Ceram. Int., 2006, 32, 111–114[Crossref]
• [23] Gingasu D., Mindru I., Patron L., Cizmas C.B., Tetragonal copperferrite obtained by self–propagating combustion, J. Alloy.Compd, 2008, 460, 627–631[WoS]
• [24] Balavijayalakshmi J., Saranya M., Synthesis and Characterizationof Copper doped Magnesium ferrite nanoparticles, J. NanoSci.NanoTechno. 2014, 2, 397–399
• [25] Suryanarayana C., Norton M.G., X–Ray Diffraction A PracticalApproach, Plenum Press, New York, 2008
• [26] Nejati K., Zabihi R., Preparation and magnetic of nano sizenickel ferrite particles using hydrothermal method, Chem. Cent.J., 2012, 6, 1–6[WoS][Crossref]
• [27] Naidek K.P., Bianconi F., da Rocha T.C., Zanchet D., Bonacin J.A.,Novak M.A., Vaz Md, Winnischofer H., Structure and morphologyof spinel MFe2O4 (M=Fe, Co, Ni) nanoparticles chemicallysynthesized from heterometallic complexes, J. Colloid Inter.Sci., 2011, 358, 39–46
• [28] Chauhan S.S., Ojha C., Srivastava A.K., Synthesis andcharacterization of CuFe2O4 nanoparticles, Int. J. Theor. & App.Sci., 2009, 1, 9–11
• [29] Gao Z., Cui F., Zeng S., Guo L., Shi J., A high surface areasuperparamagnetic mesoporous spinel ferrite synthesized bya template–free approach and its adsorbative property,Micropor. Mesopor. Mat., 2010, 132, 188–195

Identyfikatory

DOI

10.1515/chem-2015-0092