Potencialidades e uso da quitosana no tratamento de rejeitos têxteis / Potentials and use of chitosan in the treatment of textile waste

Authors

  • Lourdes A. Etshindo
  • Priscila Tamiasso-Martinhon
  • Angela Sanches Rocha
  • Lúcia Regina Raddi de Araujo
  • Célia Sousa

DOI:

https://doi.org/10.34115/basr.v2i6.597

Keywords:

Quitosana, Tratamento de efluentes têxteis, Corantes, Meio ambiente

Abstract

Os rejeitos gerados na indústria têxtil são um problema enfrentado por países em todo mundo. Estes rejeitos causam sérios danos ambientais, sendo que os corantes aparecem como um dos componentes com maior caráter poluidor. Assim, o desenvolvimento de processos para tratamento de rejeitos têxteis tem recebido muita atenção em centros de pesquisa. Neste trabalho realizou-se uma revisão da literatura sobre o uso de quitosana para tratamento destes rejeitos e concluímos que este biopolímero é barato, abundante e apresenta características promissoras para o descoramento de efluentes.

References

ALARCÓN-PAYÁN, D. A.; KOYANI, R. D.; VAZQUEZ-DUHALT, R. Chitosan-based biocatalytic nanoparticles for pollutantremoval from wastewater. Enzyme and Microbial Technology, 100, 71-78, 2017.

M.AHMAD, M.; AHMED, E.; AHMED, W.; ELHISSI, A.; HONG, Z.L.; KHALID, N.R.

Ahmad, M et al. Enhancing visible light responsive photocatalytic activity by decorating Mn-doped ZnO nanoparticles on graphene, Ceramics International, 40, 10085-10097, 2014.

BILAL, M.; ASGHER, M.; IQBAL, M; HUA, H.; ZHANG, X. Chitosan beads immobilized manganese peroxidase catalytic potential for detoxification and decolorization of textile effluent. International Journal of Biological Macromolecules, 89, 181-189, 2016.

CRINI, G.; BADOT, P. Application of chitosan, a natural aminopolysaccharide, for dyeremoval from aqueous solutions by adsorption processes usingbatch studies: A review of recent literature. Progress in Polymer. Science, 33, 399-447, 2007.

GUIBAL, E. Heterogeneous catalysis on chitosan-based materials: a review. Progress in Polymer Science, 30, 71-109, 2004.

GUIBAL, E.; ROUSSY, J. Coagulation and flocculation of dye-containing solutions usinga biopolymer (Chitosan). Reactive & Functional Polymers, 67, 33-42, 2006.

HABIBA, U.; SLAM, MD. S.; SIDDIQUE, T. A.; AFIFI, A. M.; ANG, A. C. ADSORPTION and photocatalytic degradation of anionic dyes on Chitosan/PVA/Na–Titanate/TiO2 composites synthesized by solution casting method. Carbohydrate Polymers, 149, 317-331, 2016.

HOLKAR, C. R.; JADHAV, A. J.; PINJARI, D. V.; MAHAMUNI, N. M. A critical review on textile wastewater treatments: Possibleapproaches. Journal of Environmental Management, 182, 351-366, 2016.

NAWI, M. A.; JAWARD, A. H.; SABAR, S.; WAN NGAH, W. S. Immobilized bilayer TiO2/chitosan system for the removal of phenol underirradiation by a 45 watt compactfluorescent lamp. Desalination, 280, 288-296, 2011.

NAWI, M. A.; SABAR, S.; JAWARD, A. H.; SHEILATINA; WAN NGAH, W. S. Adsorption of Reactive Red 4 by immobilized chitosan on glass plates: Towardsthe design of immobilized TiO2–chitosan synergistic photocatalyst-adsorptionbilayer system. Biochemical Engineering Journal, 49, 317-325, 2010.

OLIVERA, S.; MURALIDHARA, H. B.; VENKATESH, K.; GUNA, V. K.; GOPALAKRISHNA, K.; KUMAR K, Y. Potential applications of cellulose and chitosan nanoparticles/composites in wastewater treatment: A review. Carbohydrate Polymers, 153, 600-618, 2016.

RENAULT, F.; SANCEY, B.; BADOT, P. M.; CRINI, B. G. Chitosan for coagulation/flocculation processes – An eco-friendly approach. European Polymer Journal, 45, 1337-1348, 2008.

RINAUDO, M. Chitin and chitosan: Properties and applications. Progress in Polymer Science, França, 31, 603-632, 2006.

SIVAKAMI, M. S.; GOMATHI, T.; VENKATESAN, J.; JEONG, H.; KIM, S.; SUDHA, P. N. Preparationandcharacterizationofnanochitosanfortreatmentwastewaters. International Journal of Biological Macromolecules, 57, 204-212, 2013.

SHAN, Y.; YANG, G.; JIA, Y.; GONG, J.; SU, Z.; QU, L. ITO electrode modified with chitosan nanofibers loadingpolyoxometalate by one step self-assembly methodand its electrocatalysis. Electrochemistry Communications, 9, 2224-2228, 2007.

SU, C. X.; LOW, L. W.; TENG, T. T.; WONG, Y. S. Combinationandhybridisationoftreatmentsindyewastewatertreatment:Areview. Journal of Environmental Chemical Engineering, 4, 3618-3633, 2016.

SZYGUA, A.; GUIBAL, E.; PALACÍN, M. A.; RUIZ, M.; SASTRE, A. M. Removal of an anionic dye (Acid Blue 92) by coagulation–flocculationusing chitosan. Journal of Environmental Management, 90, 2279-2986, 2009.

VAKILI, M.; RAFATULLAH, M.; SALAMATINIA, B.; ABDULLAH, A.Z.; IBRAHIM, M.H.; TAN, K.B.; GHOLAMI, Z.; AMOUZGAR, P. Applicationofchitosananditsderivativesasadsorbentsfordyeremovalfromwaterandwastewater:Areview. Carbohydrate Polymers, 113, 115-130, 2014.

VERMA, A. K.; DASH, R. R.; BHUNIA, P. A review on chemical coagulation/flocculation technologies for removal of colourfrom textile wastewaters. Journal of Environmental Management, 93, 154-168, 2011.

WAN NGAH, W. S.; TEONG, L. C.; HANAFIAH, M. A. K. M. Adsorption of dyes and heavy metal ions by chitosan composites: A review. Carbohydrate Polymers, 83, 1446-1456, 2010.

WANG, B.; ZHU, Y.; BAI, Z.; LUQUE, R.; XUAN, J. Functionalized chitosan biosorbents withultra-high performance, mechanical strength and tunable selectivity for heavy metals in wastewater treatment. Chemical Engineering Journal, 325,350-359, 2017.

YANG, R.; LI, H.; HUANG, M.; YANG, H.; LI, A. A review on chitosan-based flocculants and their applications in water treatment. Water Research, 95, 59-89, 2016.

Published

2018-10-18

How to Cite

Etshindo, L. A., Tamiasso-Martinhon, P., Rocha, A. S., Araujo, L. R. R. de, & Sousa, C. (2018). Potencialidades e uso da quitosana no tratamento de rejeitos têxteis / Potentials and use of chitosan in the treatment of textile waste. Brazilian Applied Science Review, 2(6), 2010–2020. https://doi.org/10.34115/basr.v2i6.597

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Section

Original articles