Estudo da remoção de corante azul de metileno de soluções aquosas usando o bambu in natura (Bambusa Vulgaris) como adsorvente.

Alrivan Gomes do  Rêgo Júnior; Geraldine Angelica Silva da  Nobrega; Ruthilene Catarina Lima da  Silva; Diego Ângelo Araújo  Gomes

doi:10.33448/rsd-v11i6.29314

Authors

Alrivan Gomes do Rêgo Júnior Universidade Federal Rural do Semí-Árido https://orcid.org/0000-0002-1957-2450
Geraldine Angelica Silva da Nobrega Universidade Federal Rural do Semí-Árido https://orcid.org/0000-0003-2729-1197
Ruthilene Catarina Lima da Silva Instituto Federal de Educação, Ciência e Tecnologia do Rio Grande do Norte https://orcid.org/0000-0002-4108-7873
Diego Ângelo Araújo Gomes Instituto Federal de Educação, Ciência e Tecnologia do Rio Grande do Norte https://orcid.org/0000-0001-7370-5966

DOI:

https://doi.org/10.33448/rsd-v11i6.29314

Keywords:

Bamboo; Adsorption; Methylene blue; Kinetics.

Abstract

Concerns about the environment and public health have driven the search for in natura adsorbents, called biosorbents, to be used in adsorption processes in the treatment of industrial effluents. The objective of this work was to study the efficiency of bamboo (Bambusa Vulgaris) in the in natura condition as an adsorbent in the removal of methylene blue from aqueous solution, as they have culms that can exceed 6 meters in height and 5 centimeters in diameter. For the kinetic tests, the samples were shaken and after appropriate intervals of contact time, aliquots were removed to determine their concentrations, the data obtained were analyzed according to the pseudo first order and pseudo second order kinetic models, as well as the material was characterized through Scanning Electron Microscopy (SEM) analysis. The results showed a second order adsorption kinetics, with a removal percentage around 90%, with an equilibrium time of 840 min, with an adsorptive capacity qe of 35.7 mg/g of adsorbent material. It was confirmed that the use of in natura bamboo as an adsorbent becomes an ecologically efficient technique in adsorption processes for the treatment of effluents containing this type of dye.

References

Abdulhameed, A. S., Mohammad, A. T, & Jawad, A. H. (2019). Modeling and mechanism of reactive orange 16 dye adsorption by chitosan-glyoxal/TiO2nanocomposite: application of response surface methodology. Desalin Water Treat.,164, 346–360.

Adeniyi, M., Salaudeen, G. & Ojo, R. (2020). Ultrastructure of Bamboo (Bambusa vulgaris Schrad. ex J.C. Wendl.). Tropical Plant Research. 7(22), 171-175.

Aichour, A., Zaghouane-Boudiaf, H., Zuki, F.B.M.,Aroua, M.K. & Ibbora, C.V. (2019). Low-cost, biodegradable and highly effective adsorbents for batch and column fixed bed adsorption processes of methylene blue. Journal of Environmental Chemical Engineering, 7(5), 103409.

Almeida, N.P. & Santos, K.G. (2020). Chemical Engineering Laboratory teaching using Project-based learning approach: gas adsorption using banana peel. Research, Society and Development, (9)3, e184932716.

Andrade Siqueira, T. C., Zanette da Silva, I., Rubio, A. J., Bergamasco, R., Gasparotto, F., Aparecida de Souza Paccola, E., & Ueda Yamaguchi, N. (2020). Sugarcane bagasse as an efficient biosorbent for methylene blue removal: kinetics, isotherms and thermodynamics. International Journal of Environmental Research and Public Health, 17(2), 526.

Antunes, E., Pereira, J., Ferreira, R., Medeiros, M., & Barros Neto, E. (2018). Remoção de corante têxtil utilizando a casca do abacaxi como adsorvente natural. HOLOS, 3, 81 – 97.

Badawi, A. K., Abd Elkodous, M., & Ali, G. A. (2021). Recent advances in dye and metal ion removal using efficient adsorbents and novel nano-based materials: an overview. RSC Advances, 11(58), 36528 – 36553.

Beltran, L. B., Januário, E. F. D., Araújo, L. A., Souza, A. C., Meloni, C. E. P., Magiero, P. E., Bergamasco, R, & Vieira, A. M. S. (2020). Processo de biossorção de corante utilizando casca de tangerina (citrus reticulata). Brazilian Journal of Development., 6(6), 41760 – 41771.

Brião, G. V., Jahn, S. L., Foletto, E. L. & Dotto, G. L. (2018). Highly efficient and reusable mesoporous zeolite synthetized from a biopolymer for cationic dyes adsorption. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 556(5), 43–50.

Buthiyappan, A., Abdul, J.G. & Abdul, A. (2019). Raman Synthesis of iron oxides impregnated green adsorbent from sugarcane bagasse: Characterization and evaluation of adsorption efficiency. Journal of Environmental Management, 249(1), 109323.

Cusioli, L. F., Quesada, H. B., Baptista, A. T. A., Gomes, R. G. & Bergamasco, R. (2020). Soybean hulls as a low-cost biosorbent for removal of methylene blue contaminant. Environ Prog Sustainable Energy, (39), e13328.

El Alouani, M., Alehyen, S., El Achouri, M. & Taibi, M'H. (2019). Preparation, Characterization, and Application of Metakaolin-Based Geopolymer for Removal of Methylene Blue from Aqueous Solution. Journal of Chemistry.

Georgin, J., Marques, B. S., Peres, E. C., Allasia, D., & Dotto, G. L. (2018). Biosorption of cationic dyes by Pará chestnut husk (Bertholletia excelsa). Water science and technology : a journal of the International Association on Water Pollution Research, 77(5-6), 1612–1621.

Guimarães, B., Silva, J. T. T.; Santos, K. G. & Neto, J. L. V. (2020). Sequencing of unit operations for integral and sustainable peanut processing. Research, Society and Development, 9(6), e67963449.

Ismail, M.I., Fadzil, M.S.M., Rosmadi, N.N.F., Razali, N. R. A. M. & Mohamad Daud, A.R. (2019) Acid treated corn stalk adsorbent for removal of alizarin yellow dye in wastewater. Journal of Physics: Conference Series, 1349, 012105.

Jawad, A. H., Abdulhameed, A. S. & Mastuli, M.S. (2020) Acid-factionalized biomass material for methylene blue dye removal: a comprehensive adsorption and mechanism study. Journal of Taibah University for Science, 14(1), 305 – 313.

Lima, A. F., Fagnani, H. M. C., Santos, W. L. F. & Barros, M. A. S. D. (2020). Adsorção de azul de metileno em hidrocarvões de resíduos têxteis. Revista Matéria, 25(4), e12885.

Müller, L. C., Alves, A. A. A., Mondardo, R. I. & Sens, M. L. (2019). Adsorção do azul de metileno em serragem de Pinus elliottii (pinus) e Drepanostachyum falcatum (bambu). Engenharia Sanitária e Ambiental. 24(4) 687 – 695.

Nogueira, G., Duarte, C. R., & Barrozo, M. (2019). Hydrothermal carbonization of acerola (Malphigia emarginata D.C.) wastes and its application as an adsorbent. Waste management (New York, N.Y.), 95, 466–475.

Oliveira, F. M., Coelho, L. M. & Melo, E. I. (2018). Avaliação de processo adsortivo utilizando mesocarpo de coco verde para remoção do corante azul de metileno. Revista Matéria, 23(4), e12223.

Razi, M. A., Hishammudin, M. N. & Hamdan, R. (2017). Factor Affecting Textile Dye Removal Using Adsorbent From Activated Carbon: A Review. Matec Web of Conferences 103, 06015.

Salem, I.A., Fayed, T.A. & El-Nahass, M.N. (2018). Mohamed Dawood A Comparative Study for Adsorption of Methylene Blue Dye from Wastewater on to Three Different Types of Rice Ash. Journal of Pharmaceutical and Applied Chemistry, 4(2), 99-107.

Santana, G. M., Trugilho, P. F., Borges, W. M. da S., Bianchi, M. L., Paes, J. B., Nobre, J. R. C., & Morais, R. de M. (2019). Carvão ativado a partir de resíduos de bambu (Bambusa vulgaris) utilizando CO2 como agente ativante para adsorção de azul de metileno e fenol. Ciência Florestal, 29(2), 769–778.

Silva, M. B. & Santos, J. H. P. (2019). Estudo experimental do uso da casca de arroz na adsorção do azul de metileno. Brazilian Journal of Development, 5(10) 19389 – 19394.

Souza, E. F. F. S., SOUZA, E. F. S., Silva, L. D. B., Resende, C. G. F. & Nascentes, A. L. (2019). Avaliação da capacidade adsortiva do sabugo de milho triturado. Brazilian Journal of Animal and Environmental Research. 2(4)1174-1190.

Upendar, G., Biswas, G., Adhikari, K. & Dutta, S. (2017). Adsorptive removal of methylene blue dye from simulated wastewater using shale: Experiment and modelling. J. Indian Chem. Soc., 94, 1-12.

Xavier, C. S. F., Crispiniano, F. F., Nascimento, K. K. R., Almeida, M. M. & Vieira, F. F. (2021). Secagem e avaliação do bagaço de cana de açúcar como adsorvente de corantes têxteis presentes em soluções aquosas. Matéria (Rio de Janeiro) [online], 26(01).

Yilmaz, P., Gunduz, D. & Ozbek, B. (2021). Utilization of low – cost bio – waste adsorbent for methylene blue dye removal from aqueous solutions and optimization of process variables by response surface methodology approach. Desalination and Water Treatment., 224, 367 – 388.

Zhou, Y., Lu, J., Zhou, Y & Liu, Y. (2019). Recent Advances for Dyes Removal Using Novel Adsorbents: A Review. Environ Pollut., 252, 352-365.

Study of the removal of methylene blue dye from aqueous solutions using in natura bamboo (Bambusa Vulgaris) as adsorvent.

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