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Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği ve Termodinamiği

Year 2023, , 753 - 771, 28.06.2023
https://doi.org/10.35414/akufemubid.1173331

Abstract

Bu çalışmanın amacı; tekstil endüstrisinde yaygın olarak kullanılan bir boyarmadde olan Reaktif Mavi 21 (RM21)’in atık sulardan adsorpsiyon yöntemiyle uzaklaştırılmasında kaolin yüzeyine dekore edilmiş bakır katkılı çinko oksit nanokompozitinin adsorban olarak kullanılabilirliğinin araştırılmasıdır. Adsorpsiyon üzerine, başlangıç RM21 konsantrasyonu, adsorban miktarı, sıcaklık ve denge süresi gibi çeşitli deneysel parametrelerin etkileri incelenmiştir. Adsorpsiyon hızının ikinci mertebeden hız ifadesine uyduğu ve kaolin yüzeyine dekore edilmiş bakır katkılı çinko oksit nanokompozitinin RM21 üzerine adsorpsiyonunun Redlich-Peterson izoterm modeliyle uyum sağladığı görülmüştür. Bu çalışmanın sonuçları, RM21’nin sulu çözeltilerden uzaklaştırılmasında kaolin yüzeyine dekore edilmiş bakır katkılı çinko oksit nanokompozitinin etkili bir adsorban olarak kullanılabileceğini göstermiştir.

References

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Adsorption, Kinetics and Thermodynamics of Reactive Blue 21 Textile Dyestuff Using Copper Doped Zinc Oxide Nanocomposite Decorated on Kaolin Surface

Year 2023, , 753 - 771, 28.06.2023
https://doi.org/10.35414/akufemubid.1173331

Abstract

The aim of this study is to investigate the usability of copper-doped zinc oxide nanocomposite decorated on kaolin surface as an adsorbent in the removal of Reactive Blue 21 (RM21), a widely used dyestuff in the textile industry, from wastewater by adsorption method. The effects of various experimental parameters such as initial RM21 concentration, amount of adsorbent, temperature and equilibrium time on adsorption were investigated. It was observed that the adsorption rate matched the second-order rate expression and the adsorption of copper-doped zinc oxide nanocomposite decorated on the kaolin surface on RM21 was consistent with the Redlich-Peterson isotherm model. The results of this study showed that copper doped zinc oxide nanocomposite decorated on kaolin surface can be used as an effective adsorbent in the removal of RM21 from aqueous solutions.

References

  • Ahmad I., Kan C. and Yao Z., 2019. Photoactive cotton fabric for UV protection and self-cleaning. RSC Advances, 9, 18106.
  • Al-Tohamy R., Ali S.S, Li F., Okasha K.M., Mahmoud Y.A.-G., Elsamahy T., Jiao H., Fu Y., Sun J., 2022. A critical review on the treatment of dye-containing wastewater: Ecotoxicological and health concerns of textile dyes and possible remediation approaches for environmental safety. Ecotoxicology and Environmental Safety 231,113160.
  • Aksu Z, Isoglu I.A., 2007. Use of dried sugar beet pulp for binary biosorption of Gemazol Turquoise Blue-G reactive dye and copper (II) ions: equilibrium modeling. Chemical Engineering Journal 127, 177-188.
  • Baldermann A., and Stamm F.M., 2022. Effect of kinetics, pH, aqueous speciation and presence of ferrihydrite on vanadium (V) uptake by allophanic and smectitic clays. Chemical Geology, 607, 121022.
  • Bayramoglu G, Kunduzcu G, Arica MY., 2020. Preparation and characterization of strong cation exchange terpolymer resin as efective adsorbent for removal of disperse dyes. Polymer Engineering & Science, 60(1), 192-201.
  • Bensalah, J., Habsaoui, A., Dagdag, O., Lebkiri, A., Ismi, I., Rifi, E. H., Warad, I., Zarrouk, A., 2021. Adsorption of a cationic dye (Safranin) by artificial cationic resins Amberlite®IRC-50: Equilibrium, kinetic and thermodynamic study. Chemical Data Collections, 35, 100756.
  • Berradi M., Hsissou R., Khudhair M., Assouag M., Cherkaoui O., El Bachiri A., Harf A.E., 2019. Textile finishing dyes and their impact on aquatic environs. Heliyon, 5, e02711.
  • Bilińska, L., Blus, K., Gmurek, M., Ledakowicz, S., 2019. Coupling of electrocoagulation and ozone treatment for textile wastewater reuse. Chemical Engineering Journal, 358, 992-1001.
  • Binaeian E., Zadvarzi S.B., Yuan D., 2020. Anionic dye uptake via composite using chitosan-polyacrylamide hydrogel as matrix containing TiO2 nanoparticles; comprehensive adsorption studies. International Journal of Biological Macromolecules, 162, 150-162.
  • Boulika, H., El Hajam, M., Nabih, M. H., Karim, I. R., Kandri, N. I., Zerouale A., 2022. Definitive screening design applied to cationic & anionic adsorption dyes on Almond shells activated carbon: Isotherm, kinetic and thermodynamic studies. Materials Today: Proceedings,
  • Chandrabose G., Dey A., Gaur S.S., Pitchaimuthu S., Jagadeesan H., Braithwaite N.J., Selvaraj V., Kumar V., Krishnamurthy S., 2021. Removal and degradation of mixed dye pollutants by integrated adsorption-photocatalysis technique using 2-D MoS2/TiO2 nanocomposite. Chemosphere, 279, 130467.
  • De Gisi S., Lofrano G., Grassi M., Notarnicola M., 2016. Characteristics and adsorption capacities of low-cost sorbents for wastewater treatment: A review, Sustainable Materials and Technologies, 9, 10-40.
  • Demir, Ö., Gök, A., Kırbaşlar, Ş. A., 2022. Optimization of protocatechuic acid adsorption onto weak basic anion exchange resins: kinetic, mass transfer, isotherm, and thermodynamic Study, Biomass Conversion and Biorefinery, 138.
  • El-Bindary, A.A., Abd El-Kawi, M.A., Hafez, A.M.., Rashed, I.G.A and Aboelnaga, E.E., 2016. Removal of reactive blue 19 from aqueous solution using rice straw fly ash. Journal of Materials and Environmental Science, 7 (3), 1023-1036.
  • El-Desouky, M. G., El-Bindary, A. A., El-Bindary, M. A., 2021. Low-Temperature Adsorption Study of Carbon Dioxide on Porous Magnetite Nanospheres Iron Oxide. Biointerface Research in Applied Chemistry, 12(5), 6252-6268.
  • Eren, E.,Çağlar, B., Eren, B., Tabak, A., 2010. Equilibrium and kinetic studies on the removal of basic dye using raw and thermal-activeted Fatsa bentonite. Fresenius Environmental Bulletin, 19 (5), 773-782.
  • Ewis D., Ba Abbad M.M., Benamor A., Mahmud N., Nasser M., El Naas M., Mohammad A.W., 2022. Adsorption of 4 Nitrophenol onto Iron Oxide Bentonite Nanocomposite: Process Optimization, Kinetics, Isotherms and Mechanism. International Journal of Environmental Research, 16, 23.
  • Fadillah G., Yudha S.P, Sagadevan S., Fatimah I., Muraza O., 2020. Magnetic iron oxide/clay nanocomposites for adsorption and catalytic oxidation in water treatment applications. Open Chemistry, 18, 1148-1166.
  • Haladu, S. A., 2022. Highly efficient adsorption of malachite green dye onto a cross-linke pH-responsive cycloterpolymer resin: Kinetic, equilibrium and thermodynamic studies, Journal of Molecular Liquids, 357, 119115.
  • Hamad H.N. and Idrus S., 2022. Recent Developments in the Application of Bio-Waste-Derived Adsorbents for the Removal of Methylene Blue from Wastewater: A Review. Polymers, 14, 783.
  • Hassan M.M., Carr C.M., 2018. A critical review on recent advancements of the removal of reactive dyes from dyehouse effluent by ion-exchange adsorbents. Chemosphere 209 201-219.
  • Kalam, S., Abu-Khamsin S.A.,Kamal, M.S. and Patil S., 2021. Surfactant Adsorption Isotherms: A Review. ACS Omega, 6, 32342-32348.
  • Keleş Güner E. ve Çağlar B., 2020. CuxZn(1-x)O Nanoparçacıklarıyla Dekore Edilmiş Kaolin Nanokompozitinin Sentezi, Karakterizasyonu ve Fotokatalitik Aktivitesi. Erzincan Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 13(2), 369-383.
  • Khan T.A., Khan E.A., Shahjahan, 2015. Removal of basic dyes from aqueous solution by adsorption onto binary iron-manganese oxide coated kaolinite: Non-linear isotherm and kinetics modelling, Applied Clay Science, 107, 70-77.
  • Kızıltaş, H., 2022. Production of highly effective adsorbent from tea waste, and its adsorption behaviors and characteristics for the removal of Rhodamine B. International Journal of Environmental Analytical Chemistry, 1, 1-20.
  • Kiełbasa, K., Kaminska, A., Niedoba, O., Michalkiewicz, B., 2021. CO2 Adsorption on Activated Carbons Prepared from Molasses: A Comparison of Two and Three Parametric Models. Materials, 14, 7458.
  • Kumbhar P., Narale D., Bhosale R., Jambhale C., Kim J.H., Kolekar S., 2022. Synthesis of tea waste/Fe3O4 magnetic composite (TWMC) for efficient adsorption of crystal violet dye: Isotherm, kinetic and thermodynamic studies, Journal of Environmental Chemical Engineering, 10, 107893.
  • Küçük, İ., 2021. Methylene blue adsorption capacity and coherent isotherm model of commercial activated carbon, Cumhuriyet Science Journal, 42(4), 843-851.
  • Lellis, B., Fávaro-Polonio, C.Z. Pamphile J.A., Polonio, J.C., 2019. Effects of textile dyes on health and the environment and bioremediation potential of living organisms. Biotechnology Research and Innovation (3), 2, 275-290.
  • Lim S.L., Chu W.L., Phang S.M., 2010. Use of Chlorella vulgaris for bioremediation of textile wastewater. Bioresource Technology, 1, 7314-7322.
  • Liu S, Li B, Qi P, Yu W, Zhao J, Liu Y, 2019. Performance of freshly generated magnesium hydroxide (FGMH) for reactive dye removal. Colloid and Interface Science Communications, 28, 34-40.
  • Luo C., Yao W., Gao X., 2022. Degradation of a Reactive Orange 16 in textile wastewater treatment using CuO/ZnO nanocomposite as photocatalyst. International Journal of Electrochemical Science, 17, 220732.
  • Mahmood R.S, 2022. The uptake of Eriochrome Black T dye from Wastewater utilizing synthesized Cadmium Sulfide Nanoparticles. Egyptian Journal of Chemistry, 65(6), 699-706.
  • Markandeya, Mohan D., Prasad Shukla S., 2022. Hazardous consequences of textile mill effluents on soil and their remediation approaches. Cleaner Engineering and Technology, 7, 100434.
  • Mia, R., Selim, M., Shamim, A., Mugdho, M. C., Sultana, S., Armin, M., Naznin, H., 2019. Review on various types of pollution problem in textile dyeing & printing industries of Bangladesh and recommandation for mitigation. Journal of Textile Engineering, 5, 220-226.
  • Muthuvela A., Jothibasa M., Manoharan C., 2020. Effect of chemically synthesis compared to biosynthesized ZnO-NPs using Solanum nigrum leaf extract and their photocatalytic, antibacterial and invitro antioxidant activity. Journal of Environmental Chemical Engineering, 8, 103705.
  • Nasar, A. and Mashkoor, F., 2019. Application of polyaniline-based adsorbents for dye removal from water and wastewater-a review. Environmental Science and Pollution Research, 26 (6), 5333-5356.
  • Naseem T., and Durrani T., 2021. The role of some important metal oxide nanoparticles for wastewater and antibacterial applications: A review. Environmental Chemistry and Ecotoxicology, 3, 59-75.
  • Nazifa, T. H., Habba, N., Salmiati, Aris, A., & Hadibarata, T., 2017. Adsorption of Procion Red MX-5B and Crystal Violet Dyes from Aqueous Solution onto Corncob Activated Carbon. Journal of the Chinese Chemical Society, 65(2), 259-270.
  • Ncibi, M.C., Mahjoub, B., Seffen M., 2007. Adsorptive removal of textile reactive dye using posidonia oceanica (L.) fibrous biomass. International Journal of Environmental Science and Technology, 4 (4), 433-440.
  • Özdemir, A.O., 2015. Pamuk Liflerinin Renklendirilmesinde Boyama Verimi Ve Kinetiğinin Araştırılması. Doktora Tezi, Erciyes Üniversitesi, Fen Bilimleri Enstitüsü, Kayseri, 160.
  • Patra T., Mohanty A., Singh L., Muduli S., Parhi P.K., Sahoo T.R., 2022. Effect of calcination temperature on morphology and phase transformation of MnO2 nanoparticles: A step towards green synthesis for reactive dye adsorption. Chemosphere, 288, 132472.
  • Rostamzadeh D. and Sadeghi S., 2022. Ni doped zinc oxide nanoparticles supported bentonite clay for photocatalytic degradation of anionic and cationic synthetic dyes in water treatment, Journal of Photochemistry & Photobiology, A: Chemistry, 431, 113947.
  • Roshanfekr Rad L. and Anbia M., 2021. Zeolite-based composites for the adsorption of toxic matters from water: A review. Journal of Environmental Chemical Engineering, 9, 106088.
  • Saeed, T., Naeem, A., Din, I. U., Farooq, M., Khan, I. W., Hamayun, M., Malik, T., 2022. Synthesis of chitosan composite of metal-organic framework for the adsorption of dyes; kinetic and thermodynamic approach. Journal of Hazardous Materials, 427, 127902.
  • Saloglu, D., 2019. Mikro Kirletici Naproksenin Atık Sulardan Spirulina platensis ile Modifiye Edilmiş Kitosan-Polivinilalkol Biyokompozitleri ile Adsorpsiyonu. BEÜ Fen Bilimleri Dergisi, 8(2), 506-520.
  • Senthil Rathi B., Senthil Kumar P., 2021. Application of adsorption process for effective removal of emerging contaminants from water and wastewater. Environmental Pollution, 280, 116995.
  • Simonic, .M., Flucher, V., Luxbacher, T., Vesel, A., Zemljic, L. F., 2022. Adsorptive Removal of Heavy Metal Ions by Waste Wool. Journal of Natural Fibers, 1-14.
  • Stengl V. and Krˇalov´a D., 2011. TiO2/ZnS/CdS Nanocomposite for Hydrogen Evolution and Orange II Dye Degradation, International Journal of Photoenergy, 532578.
  • Sun Y.F., Liu S.B., Meng F.L., Liu J.Y., Jin Z., Kong L.T., Liu J.H., 2012. Metal Oxide Nanostructures and Their Gas Sensing Properties: A Review. Sensors, 12, 2610-2631.
  • Tekin, D. Tekin, T. Kızıltaş H., 2020. Synthesis and characterization of TiO2 and Ag/TiO2 thin-film photocatalysts and their efficiency in the photocatalytic degradation kinetics of Orange G dyestuff. Desalination and Water Treatment, 198, 376-385.
  • Vaghela N.R., Nath K., 2020. Reduced graphene oxide coated graphite electrodes for treating Reactive Turquoise Blue 21 rinse water using an indirect electro‑oxidation process. SN Applied Sciences, 2, 1839.
  • Velusamy S., Roy A., Sundaram S., Mallick T.K., 2021. A Review on Heavy Metal Ions and Containing Dyes Removal Through Graphene Oxide-Based Adsorption Strategies for Textile Wastewater Treatment. Chemical Record, 21, 1570-1610.
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There are 58 citations in total.

Details

Primary Language Turkish
Subjects Engineering, Chemical Engineering, Material Production Technologies
Journal Section Articles
Authors

Eda Keleş Güner 0000-0002-4421-1315

Agah Özdemir 0000-0003-4488-746X

Bilge Doğan 0000-0001-7552-3461

Bülent Çağlar 0000-0002-6087-3685

Early Pub Date June 22, 2023
Publication Date June 28, 2023
Submission Date September 9, 2022
Published in Issue Year 2023

Cite

APA Keleş Güner, E., Özdemir, A., Doğan, B., Çağlar, B. (2023). Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği ve Termodinamiği. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, 23(3), 753-771. https://doi.org/10.35414/akufemubid.1173331
AMA Keleş Güner E, Özdemir A, Doğan B, Çağlar B. Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği ve Termodinamiği. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. June 2023;23(3):753-771. doi:10.35414/akufemubid.1173331
Chicago Keleş Güner, Eda, Agah Özdemir, Bilge Doğan, and Bülent Çağlar. “Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği Ve Termodinamiği”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 23, no. 3 (June 2023): 753-71. https://doi.org/10.35414/akufemubid.1173331.
EndNote Keleş Güner E, Özdemir A, Doğan B, Çağlar B (June 1, 2023) Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği ve Termodinamiği. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 23 3 753–771.
IEEE E. Keleş Güner, A. Özdemir, B. Doğan, and B. Çağlar, “Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği ve Termodinamiği”, Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, vol. 23, no. 3, pp. 753–771, 2023, doi: 10.35414/akufemubid.1173331.
ISNAD Keleş Güner, Eda et al. “Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği Ve Termodinamiği”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi 23/3 (June 2023), 753-771. https://doi.org/10.35414/akufemubid.1173331.
JAMA Keleş Güner E, Özdemir A, Doğan B, Çağlar B. Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği ve Termodinamiği. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2023;23:753–771.
MLA Keleş Güner, Eda et al. “Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği Ve Termodinamiği”. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, vol. 23, no. 3, 2023, pp. 753-71, doi:10.35414/akufemubid.1173331.
Vancouver Keleş Güner E, Özdemir A, Doğan B, Çağlar B. Kaolin Yüzeyine Dekore Edilmiş Bakır Katkılı Çinko Oksit Nanokompoziti Kullanılarak Reaktif Mavi 21 Tekstil Boyar Maddesinin Adsorpsiyonu, Kinetiği ve Termodinamiği. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi. 2023;23(3):753-71.


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