ADSORPTION OF METHYLENE BLUE FROM AQUEOUS SOLUTION USING FREE AND IMMOBILIZED ALGAE CELLS

Authors

  • Raghad N. M
  • Abeer I. A

DOI:

https://doi.org/10.36103/ijas.v54i5.1839

Keywords:

methylene blue; mixed algae; adsorption; isotherm; kinetic; algae characteristics

Abstract

This study was aimed to investigate the potential adsorptive behavior of mixed algae for decolorization of methylene blue dye from aqueous solution in the form of free and immobilized. Effects of initial pH value (3-9), biosorbent dosage (0.02-0.5)g/L, and initial concentration (10-50) mg/L for different contact time (0-180) min at 200 rpm shaking speed were investigated. In addition, experimental data were analyzed using adsorption (Langmuir and Freundlich) isotherms as well as kinetic models. The results demonstrated that the maximum decolorization percentage was 93% and 91% by free and immobilized algae, respectively for pH 6, 10 initial concentration, 0.3g/100mL algae dosage, and 90 min contact time. The results revealed that the Langmuir isotherm model was adequate for describing the dye removal process (R2= 0.99) for both forms. Results of pseudo-second order kinetic model revealed best fitting with the sorption data indicating that chemisorption process is the dominant mechanism controlling the dye removal. Furthermore, the characterization study performed using FT-IR and scanning electron micrograph techniques, revealed that the used algal biomass has good biosorption capabilities associated to active groups and surface structure and confirming that the immobilization was successful.

References

Abd, I. N. and M.J. Mohammed- Ridha 2021, Simultaneous adsorption of tetracycline and amoxicillin by cladophora and spirulina algae biomass, Iraqi Journal of Agricultural Sciences, 52(5):1290-1303. https://doi.org/10.36103/ijas.v52i5.1467

Abdulkareem, H. N. and A. I. Alwared 2019 Immobilization dried mix of algae for copper removal, Iraqi Journal of Agricultural Sciences ,50(3):800- 808. https://doi.org/10.36103/ijas.v50i3.697

Abdullah, S. A., A. H. J. Abdullah and M. A. Ankush 2019. Assessment of water quality in the Euphrates River, southern Iraq, Iraqi Journal of Agricultural Sciences, 50(1):312-319. https://doi.org/10.36103/ijas.v50i1.297

Ahluwalia, S. S. and D.Goyal 2007 Microbial and plant derived biomass for removal of heavy metals from wastewater, Bioresour. Technol., 98(12): 2243-2257

Akbari, M., A. Hallajisani, A.R. Keshtkar, H. Shahbeig, and S.A. Ghorbanian 2015 Equilibrium and kinetic study and modeling of Cu (II) and Co (II) synergistic biosorption from Cu (II)-Co (II) single and binary mixtures on brown algae C. Indica. Journal of Environmental Chemical Engineering, 1: 140-149

Aksu, Z. 2002 Determination of the equilibrium, kinetic and thermodynamic parameters of the batch biosorption of nickel (II) ions onto chlorella Vulgaris. Process Biochemistry, 38(1): 89-99

Al-Rub, F. A. A., El-Naas, M. H., Benyahia, F., I. Ashour 2004. Biosorption of nickel on blank alginate beads, free and immobilized algal cells. Process Biochem 39:1767–1773

Alwared, A. I., T. J. Al-musawi, L. F. Muhaisn, and A.A. Mohammed 2021 The biosorption of reactive Red dye onto orange peel waste: A Study on the isotherm and kinetic processes and sensitivity analysis using the artificial neural network approach, Environmental Science and pollution research, 28:2848–2859

Daemi, H. and M. Barikani, 2012, Synthesis and characterization of calcium alginate nanoparticles, sodium homopolymannuronate salt and its calcium nanoparticles. Scientia Iranica, 19(6): 2023–2028

Dahlan, I. and N. W. Ling 2021 Adsorption of acid violet 7 (AV7) dye using RHA-CFA adsorbent: modeling, process analysis, and optimization, Separation Science and Technology,56(1):54-67

De-Bashan, L. E. and Y. Bashan 2010 Immobilized microalgae for removing pollutants: review of practical aspects, Bioresource Technology, 101: 1611–1627

Du, Y., S. Zhang, R. Guo, and J. Chen, 2014, Understanding the algal contribution in combined UV-algae treatment to remove antibiotic cefradine RSC Advances, 274: 50-56

Gautam, R. K., A. Mudhoo, and M. C. Chattopadhyaya 2013 Kinetic, equilibrium, thermodynamic studies and spectroscopic analysis of alizarin red S removal by mustard husk, Journal of Environmental Chemical Engineering, 1(4):1283-1291

Giese, E. C., D.D. V. Silva, A. F. M. Costa, S. G.C. Almeida, and K. J. Dussán 2020 Immobilized microbial nanoparticles for biosorption, Critical Reviews in Biotechnology, 40(5):653-666

Hamdaoui, O. and E. Naffrechoux 2007 Modeling of adsorption isotherms of phenol and chlorophenols onto Two-parameter models and equations allowing determination of thermodynamic parameters, Journal of Hazardous Materials, 147(1–2): 401-411

Hasan Y. R. M A. A. Shaban and M A, Ibrahim 2023. Effect of calcination temperature on the adsorption performance of MG/AL layered double hydroxide nanoparticles, Iraqi Journal of Agricultural Sciences –2023:54(1):42-58. https://doi.org/10.36103/ijas.v54i1.1675

He, X., K. B. Male, P.N. Nesterenko, , D. Brabazon, B. Paull, and J. H. T. Luong 2013 Adsorption and desorption of methylene blue on porous carbon monoliths and nanocrystalline cellulose, ACS Applied Materials & Interfaces, 5 (17): 8796-8804

Kandah, M. I., F. A. Abu- Al-Rub, and N. Al-Dabaybeh 2003. The aqueous adsorption of copper and cadmium ions onto sheep manure, Adsorption Science and Technology 21(6):501-509

Kannan, S. 2014. FT-IR and EDS analysis of the seaweeds sargassum wightii (brown algae) and gracilaria corticata (red algae). International journal of current microbiological Applied Science, 3(4): 341-351

Kassim, M. A., N. F.Abdul Latif and N.F. Hashim 2018. Decolorization and total nitrogen removal from batik effluent using alginate immobilized freshwater microalgae chlorella sp. , Journal of Applied Biology & Biotechnology, 6(06): 26-34

Khan, M. A., M. Ngabura, T. S. Choong, H. Masood, and L. A. Chuah 2012 Biosorption and desorption of nickel on oil cake: batch and column studies. Bioresource technology, 103(1): 35-42

Khodadadi, M., T. J. AL-mosawi, M. Kamranifar, M. H. Saghi, and A. H.Panahi 2019. A comparative study of using barberry stem powder and ash as adsorbents for adsorption of humic Aacid. Environ Sci Pollut Res, 26: 26159

Majhi, P. K., R. Kothari, A. Pandey, and V. V. Tyagi 2020. Adsorptive behavior of free and immobilized chlorella pyrenoidosa for decolorization, Biomass Conversion biorefinery,11: 3023–3036

Marungruenga, K. and P. Pavasant 2006. Removal of basic dye (astrazon blue FGRL) using macroalga caulerpa lentillifera, Journal of Environmental Mmanagement,78: 268–274

Mohammed, S. J.and M. J. M-Ridha. 2021. Optimization of levofloxacin removal from aqueous solution using electrocoagulation process by response surface methodology. Iraqi Journal of Agricultural Sciences 52(1): 204–217. https://doi.org/10.36103/ijas.v52i1.1252

Petrovic, A. and M. Simonic. 2016. Removal of heavy metal ions from drinking water by alginate-immobilised Chlorella sorokiniana, International Journal of Environmental Science and Technology, 13:1761–1780

Pratiwi, D., D. J. Prasetyo, and C. D. Poeloengasih 2019. Adsorption of methylene blue dye using marine algae Ulva lactuca, 2nd International Conference on Natural Products and bioresource Sciences: Earth and Environmental Science 251 ,012012

Rosa, A. L. D., E. Carissimi, G. L. Dotto, H. Sander and I. A. Feris 2018.Biosorption of rhodamine B dye from dyeing stones effluents using the green microalgae chlorella pyrenoidosa, Journal of cleaner Production, 101 (2010): 1611–162

Sabah, I. and A. I. Alwared 2019.Adsorption of congo red dye from aqueous solution onto wheat husk in a fluidized bed reactor, Iraqi Journal of Chemical and Petroleum Engineering 20(4) :55 – 6

Samarghandi, M., T. AL-musawi, A. Mohseni-banpi, and M. Zarrabi 2015. Adsorption of cephalexin from aqueous solution using natural zeolite and zeolite coated with manganese oxide nanoparticles. Journal of Molecular Liquids, 211: 431-441

Shu, H., M. Chang, and W. Hsieh 2006.Remedy of dye manufacturing process effluent by UV/H2O2 process, Journal of hazardous materials B128:60–66

Sing, K. S.W. 1982. Reporting physisorption data for gas/solid systems with special reference to the determination of surface area and porosity (provisional). Pure and Applied Chemistry, 54(11) :2201-2218

Zahrim, A. Y. and N. Hilal 2013 Treatment of highly concentrated dye solution by coagulation/flocculation-sand filtration and nanofltration, Water Resources and Industry 3: 23–34

Zou, C.,W. Jiang, J. Liang, X. Sun, and Y. Guan 2019. Removal of Pb(II) from aqueous solutions by adsorption on magnetic bentonite. Environmental Science and Pollution Research, 26:1315–1322.

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Published

2023-10-29

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How to Cite

Raghad N. M, & Abeer I. A. (2023). ADSORPTION OF METHYLENE BLUE FROM AQUEOUS SOLUTION USING FREE AND IMMOBILIZED ALGAE CELLS. IRAQI JOURNAL OF AGRICULTURAL SCIENCES, 54(5), 1387-1397. https://doi.org/10.36103/ijas.v54i5.1839

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