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An optimization study for bio-removal of lead from aqueous environments by alkali modified Polyporus Squamosus

Yıl 2021, Cilt: 9 Sayı: Special 1, 1 - 9, 30.04.2021
https://doi.org/10.51354/mjen.804338

Öz

Rapidly increasing industrialization and urbanization cause serious environmental pollution. Discharge of polluting material from various industries such as smelting, mining, ore processing, and metal plating into the environment without treatment causes serious pollution and can have dangerous effects on the environmental balance. The utilization of low-cost adsorbents from biological materials as a replacement for costly traditional methods for adsorption of heavy metal pollutants from wastewater was reviewed. This study aimed to investigate the biosorption of Pb(II) ions from aqueous solutions with NaOH-modified Polyporus squamosus biosorbent and optimize the biosorption conditions. Firstly, the parameters most influencing the response of the biosorption for Pb(II) (initial Pb(II) concentration (Co), pH, temperature and biomass dose) were determined using Central Composite Design (CCD). The optimum conditions were evaluated as 60.76 mg/L, 6.3, 25 °C, and 0.23 g for Co, initial pH, temperature and biomass dose, respectively. From the optimum conditions, the adsorption yield and the adsorption capacity were obtained as 93.8% and 23.63 mg/g, respectively.

Teşekkür

We would like to thank Prof. Dr. Yusuf Uzun (Van Yuzuncu Yil University) for providing the biosorbent used in this study.

Kaynakça

  • Garg U., Kaur M.P., Jawa G.K., Sud D., Garg V.K., "Removal of cadmium (II) from aqueous solutions by adsorption on agricultural waste biomass", Journal of Hazardous Materials, 154, (2008), 1149-1157.
  • Liao S.-W., Lin C.-I., Wang L.-H., "Kinetic study on lead (II) ion removal by adsorption onto peanut hull ash", Journal of the Taiwan Institute of Chemical Engineers, 42, (2011), 166-172.
  • Gupta V.K., Ali I., "Removal of lead and chromium from wastewater using bagasse fly ash—a sugar industry waste", Journal of Colloid and Interface Science, 271, (2004), 321-328.
  • Muhamad H., Doan H., Lohi A., "Batch and continuous fixed-bed column biosorption of Cd2+ and Cu2+", Chemical Engineering Journal, 158, (2010), 369-377.
  • [5] Yang X., Zhao Z., Yu Y., Shimizu K., Zhang Z., Lei Z., Lee D.-J., "Enhanced biosorption of Cr(VI) from synthetic wastewater using algal-bacterial aerobic granular sludge: Batch experiments, kinetics and mechanisms", Separation and Purification Technology, 251, (2020), 117323.
  • Coday B.D., Xu P., Beaudry E.G., Herron J., Lampi K., Hancock N.T., Cath T.Y., "The sweet spot of forward osmosis: Treatment of produced water, drilling wastewater, and other complex and difficult liquid streams", Desalination, 333, (2014), 23-35.
  • Ecer U., Şahan T., "A response surface approach for optimization of Pb (II) biosorption conditions from aqueous environment with Polyporus squamosus fungi as a new biosorbent and kinetic, equilibrium and thermodynamic studies", (2018).
  • Li X., Xu H., Gao B., Shi X., Sun Y., Wu J., "Efficient biosorption of Pb(II) from aqueous solutions by a PAH-degrading strain Herbaspirillum chlorophenolicum FA1", Journal of Industrial and Engineering Chemistry, 57, (2018), 64-71.
  • Bano A., Hussain J., Akbar A., Mehmood K., Anwar M., Hasni M.S., Ullah S., Sajid S., Ali I., "Biosorption of heavy metals by obligate halophilic fungi", Chemosphere, 199, (2018), 218-222.
  • Shi L., Deng X., Yang Y., Jia Q., Wang C., Shen Z., Chen Y., "A Cr (VI)-tolerant strain, Pisolithus sp1, with a high accumulation capacity of Cr in mycelium and highly efficient assisting Pinus thunbergii for phytoremediation", Chemosphere, 224, (2019), 862-872.
  • Şahan T., Ceylan H., Şahiner N., Aktaş N., "Optimization of removal conditions of copper ions from aqueous solutions by Trametes versicolor", Bioresource Technology, 101, (2010), 4520-4526.
  • Jaafari J., Yaghmaeian K., "Optimization of heavy metal biosorption onto freshwater algae (Chlorella coloniales) using response surface methodology (RSM)", Chemosphere, 217, (2019), 447-455.
  • Ecer Ü., Yılmaz Ş., Şahan T., "Highly efficient Cd(II) adsorption using mercapto-modified bentonite as a novel adsorbent: an experimental design application based on response surface methodology for optimization", Water science and technology : a journal of the International Association on Water Pollution Research, 78, (2018), 1348-1360.
  • Mona S., Kaushik A., Kaushik C.P., "Biosorption of reactive dye by waste biomass of Nostoc linckia", Ecological Engineering, 37, (2011), 1589-1594.
  • Hasan S.H., Srivastava P., Talat M., "Biosorption of Pb(II) from water using biomass of Aeromonas hydrophila: Central composite design for optimization of process variables", Journal of Hazardous Materials, 168, (2009), 1155-1162.
  • Kubilay Ş., Gürkan R., Savran A., Şahan T., "Removal of Cu(II), Zn(II) and Co(II) ions from aqueous solutions by adsorption onto natural bentonite", Adsorption, 13, (2007), 41-51.
  • Ahmed Z., Wu P., Jiang L., Liu J., Ye Q., Yang Q., Zhu N., "Enhanced simultaneous adsorption of Cd(II) and Pb(II) on octylamine functionalized vermiculite", Colloids and Surfaces A: Physicochemical and Engineering Aspects, 604, (2020), 125285.
  • Menezes J.M.C., da Silva Bento A.M., da Silva J.H., de Paula Filho F.J., da Costa J.G.M., Coutinho H.D.M., Pereira Teixeira R.N., "Equilibrium, kinetics and thermodynamics of lead (II) adsorption in bioadsorvent composed by Caryocar coriaceum Wittm barks", Chemosphere, 261, (2020), 128144.
  • Forghani M., Azizi A., Livani M.J., Kafshgari L.A., "Adsorption of lead(II) and chromium(VI) from aqueous environment onto metal-organic framework MIL-100(Fe): Synthesis, kinetics, equilibrium and thermodynamics", Journal of Solid State Chemistry, 291, (2020), 121636.
  • Idris M.N., Ahmad Z.A., Ahmad M.A., "Adsorption equilibrium of malachite green dye onto rubber seed coat based activated carbon", Int J Basic Appl Sci, 11, (2011), 38-43.
  • Mousavi H., Hosseynifar A., Jahed V., Dehghani S., "Removal of lead from aqueous solution using waste tire rubber ash as an adsorbent", Brazilian Journal of Chemical Engineering, 27, (2010), 79-87.
  • Gapusan R.B., Balela M.D.L., "Adsorption of anionic methyl orange dye and lead(II) heavy metal ion by polyaniline-kapok fiber nanocomposite", Materials Chemistry and Physics, 243, (2020), 122682.
  • Bhatti H.N., Khalid R., Hanif M.A., "Dynamic biosorption of Zn(II) and Cu(II) using pretreated Rosa gruss an teplitz (red rose) distillation sludge", Chemical Engineering Journal, 148, (2009), 434-443.
  • Albalasmeh A., Gharaibeh M.A., Mohawesh O., Alajlouni M., Quzaih M., Masad M., El Hanandeh A., "Characterization and Artificial Neural Networks Modelling of methylene blue adsorption of biochar derived from agricultural residues: Effect of biomass type, pyrolysis temperature, particle size", Journal of Saudi Chemical Society, (2020).
  • Sekar M., Sakthi V., Rengaraj S., "Kinetics and equilibrium adsorption study of lead(II) onto activated carbon prepared from coconut shell", Journal of Colloid and Interface Science, 279, (2004), 307-313.
  • Anwar J., Shafique U., Waheed uz Z., Salman M., Dar A., Anwar S., "Removal of Pb(II) and Cd(II) from water by adsorption on peels of banana", Bioresource Technology, 101, (2010), 1752-1755.
  • Şahan T., Öztürk D., "Investigation of Pb(II) adsorption onto pumice samples: application of optimization method based on fractional factorial design and response surface methodology", Clean Technologies and Environmental Policy, 16, (2014), 819-831.
  • Zulkali M.M.D., Ahmad A.L., Norulakmal N.H., "Oryza sativa L. husk as heavy metal adsorbent: Optimization with lead as model solution", Bioresource Technology, 97, (2006), 21-25.
Yıl 2021, Cilt: 9 Sayı: Special 1, 1 - 9, 30.04.2021
https://doi.org/10.51354/mjen.804338

Öz

Kaynakça

  • Garg U., Kaur M.P., Jawa G.K., Sud D., Garg V.K., "Removal of cadmium (II) from aqueous solutions by adsorption on agricultural waste biomass", Journal of Hazardous Materials, 154, (2008), 1149-1157.
  • Liao S.-W., Lin C.-I., Wang L.-H., "Kinetic study on lead (II) ion removal by adsorption onto peanut hull ash", Journal of the Taiwan Institute of Chemical Engineers, 42, (2011), 166-172.
  • Gupta V.K., Ali I., "Removal of lead and chromium from wastewater using bagasse fly ash—a sugar industry waste", Journal of Colloid and Interface Science, 271, (2004), 321-328.
  • Muhamad H., Doan H., Lohi A., "Batch and continuous fixed-bed column biosorption of Cd2+ and Cu2+", Chemical Engineering Journal, 158, (2010), 369-377.
  • [5] Yang X., Zhao Z., Yu Y., Shimizu K., Zhang Z., Lei Z., Lee D.-J., "Enhanced biosorption of Cr(VI) from synthetic wastewater using algal-bacterial aerobic granular sludge: Batch experiments, kinetics and mechanisms", Separation and Purification Technology, 251, (2020), 117323.
  • Coday B.D., Xu P., Beaudry E.G., Herron J., Lampi K., Hancock N.T., Cath T.Y., "The sweet spot of forward osmosis: Treatment of produced water, drilling wastewater, and other complex and difficult liquid streams", Desalination, 333, (2014), 23-35.
  • Ecer U., Şahan T., "A response surface approach for optimization of Pb (II) biosorption conditions from aqueous environment with Polyporus squamosus fungi as a new biosorbent and kinetic, equilibrium and thermodynamic studies", (2018).
  • Li X., Xu H., Gao B., Shi X., Sun Y., Wu J., "Efficient biosorption of Pb(II) from aqueous solutions by a PAH-degrading strain Herbaspirillum chlorophenolicum FA1", Journal of Industrial and Engineering Chemistry, 57, (2018), 64-71.
  • Bano A., Hussain J., Akbar A., Mehmood K., Anwar M., Hasni M.S., Ullah S., Sajid S., Ali I., "Biosorption of heavy metals by obligate halophilic fungi", Chemosphere, 199, (2018), 218-222.
  • Shi L., Deng X., Yang Y., Jia Q., Wang C., Shen Z., Chen Y., "A Cr (VI)-tolerant strain, Pisolithus sp1, with a high accumulation capacity of Cr in mycelium and highly efficient assisting Pinus thunbergii for phytoremediation", Chemosphere, 224, (2019), 862-872.
  • Şahan T., Ceylan H., Şahiner N., Aktaş N., "Optimization of removal conditions of copper ions from aqueous solutions by Trametes versicolor", Bioresource Technology, 101, (2010), 4520-4526.
  • Jaafari J., Yaghmaeian K., "Optimization of heavy metal biosorption onto freshwater algae (Chlorella coloniales) using response surface methodology (RSM)", Chemosphere, 217, (2019), 447-455.
  • Ecer Ü., Yılmaz Ş., Şahan T., "Highly efficient Cd(II) adsorption using mercapto-modified bentonite as a novel adsorbent: an experimental design application based on response surface methodology for optimization", Water science and technology : a journal of the International Association on Water Pollution Research, 78, (2018), 1348-1360.
  • Mona S., Kaushik A., Kaushik C.P., "Biosorption of reactive dye by waste biomass of Nostoc linckia", Ecological Engineering, 37, (2011), 1589-1594.
  • Hasan S.H., Srivastava P., Talat M., "Biosorption of Pb(II) from water using biomass of Aeromonas hydrophila: Central composite design for optimization of process variables", Journal of Hazardous Materials, 168, (2009), 1155-1162.
  • Kubilay Ş., Gürkan R., Savran A., Şahan T., "Removal of Cu(II), Zn(II) and Co(II) ions from aqueous solutions by adsorption onto natural bentonite", Adsorption, 13, (2007), 41-51.
  • Ahmed Z., Wu P., Jiang L., Liu J., Ye Q., Yang Q., Zhu N., "Enhanced simultaneous adsorption of Cd(II) and Pb(II) on octylamine functionalized vermiculite", Colloids and Surfaces A: Physicochemical and Engineering Aspects, 604, (2020), 125285.
  • Menezes J.M.C., da Silva Bento A.M., da Silva J.H., de Paula Filho F.J., da Costa J.G.M., Coutinho H.D.M., Pereira Teixeira R.N., "Equilibrium, kinetics and thermodynamics of lead (II) adsorption in bioadsorvent composed by Caryocar coriaceum Wittm barks", Chemosphere, 261, (2020), 128144.
  • Forghani M., Azizi A., Livani M.J., Kafshgari L.A., "Adsorption of lead(II) and chromium(VI) from aqueous environment onto metal-organic framework MIL-100(Fe): Synthesis, kinetics, equilibrium and thermodynamics", Journal of Solid State Chemistry, 291, (2020), 121636.
  • Idris M.N., Ahmad Z.A., Ahmad M.A., "Adsorption equilibrium of malachite green dye onto rubber seed coat based activated carbon", Int J Basic Appl Sci, 11, (2011), 38-43.
  • Mousavi H., Hosseynifar A., Jahed V., Dehghani S., "Removal of lead from aqueous solution using waste tire rubber ash as an adsorbent", Brazilian Journal of Chemical Engineering, 27, (2010), 79-87.
  • Gapusan R.B., Balela M.D.L., "Adsorption of anionic methyl orange dye and lead(II) heavy metal ion by polyaniline-kapok fiber nanocomposite", Materials Chemistry and Physics, 243, (2020), 122682.
  • Bhatti H.N., Khalid R., Hanif M.A., "Dynamic biosorption of Zn(II) and Cu(II) using pretreated Rosa gruss an teplitz (red rose) distillation sludge", Chemical Engineering Journal, 148, (2009), 434-443.
  • Albalasmeh A., Gharaibeh M.A., Mohawesh O., Alajlouni M., Quzaih M., Masad M., El Hanandeh A., "Characterization and Artificial Neural Networks Modelling of methylene blue adsorption of biochar derived from agricultural residues: Effect of biomass type, pyrolysis temperature, particle size", Journal of Saudi Chemical Society, (2020).
  • Sekar M., Sakthi V., Rengaraj S., "Kinetics and equilibrium adsorption study of lead(II) onto activated carbon prepared from coconut shell", Journal of Colloid and Interface Science, 279, (2004), 307-313.
  • Anwar J., Shafique U., Waheed uz Z., Salman M., Dar A., Anwar S., "Removal of Pb(II) and Cd(II) from water by adsorption on peels of banana", Bioresource Technology, 101, (2010), 1752-1755.
  • Şahan T., Öztürk D., "Investigation of Pb(II) adsorption onto pumice samples: application of optimization method based on fractional factorial design and response surface methodology", Clean Technologies and Environmental Policy, 16, (2014), 819-831.
  • Zulkali M.M.D., Ahmad A.L., Norulakmal N.H., "Oryza sativa L. husk as heavy metal adsorbent: Optimization with lead as model solution", Bioresource Technology, 97, (2006), 21-25.
Toplam 28 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Şakir Yılmaz 0000-0001-9797-0959

Ümit Ecer 0000-0002-1824-982X

Tekin Şahan 0000-0001-8776-9338

Yayımlanma Tarihi 30 Nisan 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 9 Sayı: Special 1

Kaynak Göster

APA Yılmaz, Ş., Ecer, Ü., & Şahan, T. (2021). An optimization study for bio-removal of lead from aqueous environments by alkali modified Polyporus Squamosus. MANAS Journal of Engineering, 9(Special 1), 1-9. https://doi.org/10.51354/mjen.804338
AMA Yılmaz Ş, Ecer Ü, Şahan T. An optimization study for bio-removal of lead from aqueous environments by alkali modified Polyporus Squamosus. MJEN. Nisan 2021;9(Special 1):1-9. doi:10.51354/mjen.804338
Chicago Yılmaz, Şakir, Ümit Ecer, ve Tekin Şahan. “An Optimization Study for Bio-Removal of Lead from Aqueous Environments by Alkali Modified Polyporus Squamosus”. MANAS Journal of Engineering 9, sy. Special 1 (Nisan 2021): 1-9. https://doi.org/10.51354/mjen.804338.
EndNote Yılmaz Ş, Ecer Ü, Şahan T (01 Nisan 2021) An optimization study for bio-removal of lead from aqueous environments by alkali modified Polyporus Squamosus. MANAS Journal of Engineering 9 Special 1 1–9.
IEEE Ş. Yılmaz, Ü. Ecer, ve T. Şahan, “An optimization study for bio-removal of lead from aqueous environments by alkali modified Polyporus Squamosus”, MJEN, c. 9, sy. Special 1, ss. 1–9, 2021, doi: 10.51354/mjen.804338.
ISNAD Yılmaz, Şakir vd. “An Optimization Study for Bio-Removal of Lead from Aqueous Environments by Alkali Modified Polyporus Squamosus”. MANAS Journal of Engineering 9/Special 1 (Nisan 2021), 1-9. https://doi.org/10.51354/mjen.804338.
JAMA Yılmaz Ş, Ecer Ü, Şahan T. An optimization study for bio-removal of lead from aqueous environments by alkali modified Polyporus Squamosus. MJEN. 2021;9:1–9.
MLA Yılmaz, Şakir vd. “An Optimization Study for Bio-Removal of Lead from Aqueous Environments by Alkali Modified Polyporus Squamosus”. MANAS Journal of Engineering, c. 9, sy. Special 1, 2021, ss. 1-9, doi:10.51354/mjen.804338.
Vancouver Yılmaz Ş, Ecer Ü, Şahan T. An optimization study for bio-removal of lead from aqueous environments by alkali modified Polyporus Squamosus. MJEN. 2021;9(Special 1):1-9.

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