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DYESTUFFS REMOVAL FROM SYNTHETIC WASTEWATER WITH CHITOSAN, CROSS-LINKED CHITOSAN AND CHITOSAN-POLY (ACRYLIC ACID) CONJUGATE

Year 2017, Volume: 27 Issue: 3, 283 - 288, 30.09.2017

Abstract




Remazol Brillant Blue R (RBBR) and Naphthol Blue Black (NBB) dyestuffs are commonly utilized in the textile industry. In this
study, RBBR and NBB dyestuffs were removed with chitosan, cross-linked chitosan and chitosan-poly(acrylic acid) (PAA) conjugate.
Cross-linked chitosan and chitosan-poly(acrylic acid) conjugate were synthesized at 15 and 30 minutes respectively by using microwave
energy. RBBR dyestuff was removed 70.23 % and 80.78 % at pH: 4.0 and pH: 5.0 respectively by chitosan-poly(acrylic acid) conjugate.
NBB and RBBR were removed higher percent with crosslinked chitosan than chitosan-poly(acrylic acid) conjugate at acidic pHs. NBB
and RBBR were removed successfully with approximately 100 % dye removal percentage using both chitosan and cross-linked chitosan. 




References

  • 1. Yaman, Y.C, Gündüz, G., Kumbasar, E.P.A., 2010, "The treatment of waste water of dyeing by fenton oxidation in presence and absence of ultrasound", Tekstil ve Konfeksiyon. 20, pp. 348–358.
  • 2. Eren H.A., Yildiz, D., Demir, C., Şahin, S., 2013, "Color removal of disperse blue dyes by ozonation", Tekstil ve Konfeksiyon. 23, pp. 267–272.
  • 3. Karatas, M., Dursun, S., Argun, M.E., 2010, "The Decolorization of Azo Dye Reactive Black 5 in a Sequential Anaerobic-Aerobic System", Ekoloji. 19, pp. 15–23.
  • 4. Yagub, M.T., Sen, T.K., Afroze, S., Ang, H.M., 2014, "Dye and its removal from aqueous solution by adsorption: A review", Advanced Colloid Interface Science. 209, pp. 172–184.
  • 5. Deveci, T., Unyayar, A., Mazmanci, M.A., 2004, "Production of Remazol Brilliant Blue R decolourising oxygenase from the culture filtrate of Funalia trogii ATCC 200800", Journal of Molecular Catalysis. B Enzyme, 30, pp. 25–32.
  • 6. Onder, S., Celebi, M., Altikatoglu, M., Hatipoglu, A., Kuzu, H., 2011, "Decolorization of naphthol blue black using the horseradish peroxidase", Applied Biochemistry and Biotechnology, 163, pp. 433–443.
  • 7. Song, S., Yao, J., He, Z., Qiu, J., Chen, J., 2008, "Effect of operational parameters on the decolorization of C.I. Reactive Blue 19 in aqueous solution by ozone-enhanced electrocoagulation", Journal of Hazardous Materials, 152, pp. 204–210.
  • 8. Celebi, M., Altikatoglu, M., Akdeste, Z.M., Yildirim, H., 2013, "Determination of decolorization properties of Reactive Blue 19 dye using Horseradish Peroxidase enzyme", Turkish Journal of Biochemistry, 38, pp. 200–206.
  • 9. Vakili, M., Rafatullah, M., Salamatinia, B., Abdullah, A.Z., Ibrahim, M.H., Tan, K.B., Gholami, Z., Amouzgar, P., 2014, "Application of chitosan and its derivatives as adsorbents for dye removal from water and wastewater: A review", Carbohydrate Polymers, 113, pp. 115–130.
  • 10. Guibal, E., Roussy, J., 2007, "Coagulation and flocculation of dye-containing solutions using a biopolymer (Chitosan)", Reactive and Functional Polymers, 67, pp. 33–42.
  • 11. Petzold, G., Schwarz, S., 2006, "Dye removal from solutions and sludges by using polyelectrolytes and polyelectrolyte-surfactant complexes", Seperation and Purification Technology, 51, pp. 318–324.
  • 12. Crini, G., Badot, P.M., 2008, "Application of chitosan, a natural aminopolysaccharide, for dye removal from aqueous solutions by adsorption processes using batch studies: A review of recent literature", Progressive Polymer Science, 33, pp. 399–447.
  • 13. Yazdani, M., Bahrami, H., Arami, M., 2014, "Feldspar/titanium dioxide/chitosan as a biophotocatalyst hybrid for the removal of organic dyes from aquatic phases", Journal of Applied Polymer Science, 131, pp. 1–9.
  • 14. Jabli, M., Aloui, F., Ben Hassine, B., 2013, "[ Copper ( II )/ Cellulose-Chitosan ] Microspheres Complex for Dye Immobilization : Isotherm , Kinetic and Thermodynamic Analysis", Journal of Engineered. Fibers and Fabrics. 8, pp. 19–34.
  • 15. Chen, Y., He, F., Ren, Y., Peng, H., Huang, K., 2014, "Fabrication of chitosan/PAA multilayer onto magnetic microspheres by LbL method for removal of dyes", Journal of Chemical Engineering, 249, pp. 79–92.
  • 16. Nüchter, M., Ondruschka, B., Bonrath, W., Gum, A., 2004, "Microwave assisted synthesis - a critical technology overview", Green Chemistry, 6, pp. 128– 141.
  • 17. Michael, D., Mingos, P., Baghurst, D.R., 1991, "Applications of Microwave Dielectric Heating Effects to Synthetic Problems in Chemistry", Chemical Society Reviewers, 20, pp. 1-47.
  • 18. Baig, R.B.N., Varma, R.S., 2012., "Alternative energy input: mechanochemical, microwave and ultrasound-assisted organic synthesis", Chemical Society Reviewers, 41, pp. 1559-1584.
  • 19. Gedye, R., Smith, F., Westaway, K., Ali, H., Baldisera, L., Laberge, L., Rousell, J., 1986, "The use of microwave ovens for rapid organic synthesis", Tetrahedron Letters. 27, pp. 279–282.
  • 20. Polshettiwar, V., Varma, R.S., 2008, "Microwave-Assisted Organic Synthesis and Transformations using Benign Reaction Media", ACS, Accounts Chemical Resources, 41, pp. 629-639.
  • 21. Jiang, X., Cai, K., Zhang, J., Shen, Y., Wang, S., Tian, X., 2011, "Synthesis of a novel water-soluble chitosan derivative for flocculated decolorization", Journal of Hazardous Materials, 185, pp. 1482–1488.
  • 22. Renault, F., Sancey, B., Badot, P.M., Crini, G., 2009, "Chitosan for coagulation/flocculation processes - An eco-friendly approach", Journal of European Polymers, 45, pp. 1337–1348.

SENTETİK ATIK SULARDAN BOYAR MADDELERİN KİTOSAN, ÇAPRAZ BAĞLI KİTOSAN VE KİTOSAN-POLİ (AKRİLİK ASİT) KONJUGATI İLE GİDERİLMESİ

Year 2017, Volume: 27 Issue: 3, 283 - 288, 30.09.2017

Abstract




Remazol Brillant Blue R (RBBR) ve Naphtol Blue Black (NBB) boyar maddeleri tekstil endüstrisinde yaygın olarak
kullan
ılmaktadır. Bu çalışmada, RBBR ve NBB boyar maddeleri kitosan, çapraz bağlı kitosan ve kitosan-poli(akrilik asit) (PAA)
konjugat
ı ile giderildi. Çapraz bağlı kitosan ve kitosan-poli(akrilik asit) konjugatı mikrodalga enerjisi kullanarak sırasıyla 15 ve 30
dakikada sentezlendi. RBBR boyar maddesi kitosan-poli(akrilik asit) konjugat
ı ile pH: 4.0 ve pH: 5.0’te sırasıyla % 70.23 ve % 80.78
giderildi. NBB ve RBBR çapraz ba
ğlı kitosan ile kitosan-poli(akrilik asit) konjugatına göre daha yüksek bir yüzde ile giderildi. NBB ve
RBBR boyar maddeleri kitosan ve çapraz ba
ğlı kitosan kullanılarak yaklaşık olarak % 100 boya giderme yüzdesi ile başarılı bir şekilde
giderildi. 




References

  • 1. Yaman, Y.C, Gündüz, G., Kumbasar, E.P.A., 2010, "The treatment of waste water of dyeing by fenton oxidation in presence and absence of ultrasound", Tekstil ve Konfeksiyon. 20, pp. 348–358.
  • 2. Eren H.A., Yildiz, D., Demir, C., Şahin, S., 2013, "Color removal of disperse blue dyes by ozonation", Tekstil ve Konfeksiyon. 23, pp. 267–272.
  • 3. Karatas, M., Dursun, S., Argun, M.E., 2010, "The Decolorization of Azo Dye Reactive Black 5 in a Sequential Anaerobic-Aerobic System", Ekoloji. 19, pp. 15–23.
  • 4. Yagub, M.T., Sen, T.K., Afroze, S., Ang, H.M., 2014, "Dye and its removal from aqueous solution by adsorption: A review", Advanced Colloid Interface Science. 209, pp. 172–184.
  • 5. Deveci, T., Unyayar, A., Mazmanci, M.A., 2004, "Production of Remazol Brilliant Blue R decolourising oxygenase from the culture filtrate of Funalia trogii ATCC 200800", Journal of Molecular Catalysis. B Enzyme, 30, pp. 25–32.
  • 6. Onder, S., Celebi, M., Altikatoglu, M., Hatipoglu, A., Kuzu, H., 2011, "Decolorization of naphthol blue black using the horseradish peroxidase", Applied Biochemistry and Biotechnology, 163, pp. 433–443.
  • 7. Song, S., Yao, J., He, Z., Qiu, J., Chen, J., 2008, "Effect of operational parameters on the decolorization of C.I. Reactive Blue 19 in aqueous solution by ozone-enhanced electrocoagulation", Journal of Hazardous Materials, 152, pp. 204–210.
  • 8. Celebi, M., Altikatoglu, M., Akdeste, Z.M., Yildirim, H., 2013, "Determination of decolorization properties of Reactive Blue 19 dye using Horseradish Peroxidase enzyme", Turkish Journal of Biochemistry, 38, pp. 200–206.
  • 9. Vakili, M., Rafatullah, M., Salamatinia, B., Abdullah, A.Z., Ibrahim, M.H., Tan, K.B., Gholami, Z., Amouzgar, P., 2014, "Application of chitosan and its derivatives as adsorbents for dye removal from water and wastewater: A review", Carbohydrate Polymers, 113, pp. 115–130.
  • 10. Guibal, E., Roussy, J., 2007, "Coagulation and flocculation of dye-containing solutions using a biopolymer (Chitosan)", Reactive and Functional Polymers, 67, pp. 33–42.
  • 11. Petzold, G., Schwarz, S., 2006, "Dye removal from solutions and sludges by using polyelectrolytes and polyelectrolyte-surfactant complexes", Seperation and Purification Technology, 51, pp. 318–324.
  • 12. Crini, G., Badot, P.M., 2008, "Application of chitosan, a natural aminopolysaccharide, for dye removal from aqueous solutions by adsorption processes using batch studies: A review of recent literature", Progressive Polymer Science, 33, pp. 399–447.
  • 13. Yazdani, M., Bahrami, H., Arami, M., 2014, "Feldspar/titanium dioxide/chitosan as a biophotocatalyst hybrid for the removal of organic dyes from aquatic phases", Journal of Applied Polymer Science, 131, pp. 1–9.
  • 14. Jabli, M., Aloui, F., Ben Hassine, B., 2013, "[ Copper ( II )/ Cellulose-Chitosan ] Microspheres Complex for Dye Immobilization : Isotherm , Kinetic and Thermodynamic Analysis", Journal of Engineered. Fibers and Fabrics. 8, pp. 19–34.
  • 15. Chen, Y., He, F., Ren, Y., Peng, H., Huang, K., 2014, "Fabrication of chitosan/PAA multilayer onto magnetic microspheres by LbL method for removal of dyes", Journal of Chemical Engineering, 249, pp. 79–92.
  • 16. Nüchter, M., Ondruschka, B., Bonrath, W., Gum, A., 2004, "Microwave assisted synthesis - a critical technology overview", Green Chemistry, 6, pp. 128– 141.
  • 17. Michael, D., Mingos, P., Baghurst, D.R., 1991, "Applications of Microwave Dielectric Heating Effects to Synthetic Problems in Chemistry", Chemical Society Reviewers, 20, pp. 1-47.
  • 18. Baig, R.B.N., Varma, R.S., 2012., "Alternative energy input: mechanochemical, microwave and ultrasound-assisted organic synthesis", Chemical Society Reviewers, 41, pp. 1559-1584.
  • 19. Gedye, R., Smith, F., Westaway, K., Ali, H., Baldisera, L., Laberge, L., Rousell, J., 1986, "The use of microwave ovens for rapid organic synthesis", Tetrahedron Letters. 27, pp. 279–282.
  • 20. Polshettiwar, V., Varma, R.S., 2008, "Microwave-Assisted Organic Synthesis and Transformations using Benign Reaction Media", ACS, Accounts Chemical Resources, 41, pp. 629-639.
  • 21. Jiang, X., Cai, K., Zhang, J., Shen, Y., Wang, S., Tian, X., 2011, "Synthesis of a novel water-soluble chitosan derivative for flocculated decolorization", Journal of Hazardous Materials, 185, pp. 1482–1488.
  • 22. Renault, F., Sancey, B., Badot, P.M., Crini, G., 2009, "Chitosan for coagulation/flocculation processes - An eco-friendly approach", Journal of European Polymers, 45, pp. 1337–1348.
There are 22 citations in total.

Details

Journal Section Articles
Authors

Mithat Çelebi

Zafer Ömer Özdemir

Publication Date September 30, 2017
Submission Date September 30, 2017
Acceptance Date March 29, 2017
Published in Issue Year 2017 Volume: 27 Issue: 3

Cite

APA Çelebi, M., & Özdemir, Z. Ö. (2017). DYESTUFFS REMOVAL FROM SYNTHETIC WASTEWATER WITH CHITOSAN, CROSS-LINKED CHITOSAN AND CHITOSAN-POLY (ACRYLIC ACID) CONJUGATE. Textile and Apparel, 27(3), 283-288.

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