Competitive adsorption of Cu(II) and Pb(II) cations onto synthetic fibrous and granular ion-exchange materials
Keywords:
competitive adsorption, heavy metals, ion-exchange fibers.
Abstract
Theoretical and experimental data about competitive adsorption of heavy metal ions Cu2+, Pb2+ onto
commercially available and synthesized ion exchange materials in fiber and granular form were examined.
Downloads
Download data is not yet available.
References
1. Питьевая вода. Гигиенические требования к качеству воды централизованных
систем питьевого водоснабжения. // СанПиН 2.1.4.1074. 2001. С.3-6.
2. Lin L-C., Juang R-S. Ion-exchange kinetics of Cu(II) and Zn(II) from aqueous
solutions with two chelating resins // Chem. Eng. J. 2007. V.132 P. 205-210.
3. Yehua Zh., Jun Hua, Jianlong Wang Competitive adsorption of Pb(II), Cu(II) and
Zn(II) onto xanthate-modified magnetic chitosan // J. Hazard. Mater. 2012. V.221. P.155-
162.
4. Kang S-Y., Lee J-U., Moon S-H., Kim K-W. Competitive adsorption characteristics
of Co2+, Ni2+ and Cr3+ by IRN-77 cation exchange resin in synthesized wastewater //
Chemosphere. 2004. V.56. P.141-150.
5. Bagheri B., Abdouss M., Aslzadeh M.M., Shoushtari A.M. Efficient removal of
Cr(III), Pb(II) and Hg(II) ions from industrial effluents by hydrolyzed/thioaminated
polyacrylonitrile fibres // Iranian Polym. J. 2010. V.19. P.911-915.
6. Xue-song Wang, Yong Q. Equilibrium sorption isotherms for of Cu2+ on rice bran
// Proc. Biochem. 2005. V.40 P.677-680.
7. Ho Y.S., Mckay G. Competitive Sorption of Copper and Nickel Ions from Aqueous
Solution Using Peat // Adsorption. 1999. V.5. P.409-417.
8. Rengaraj S., Moon S.-H. Kinetics of adsorption of Co(II) removal from water and
wastewater by ion exchange resins // Water Res. 2002. V.36. P. 1783-1795.
9. Srivastava V.C., Mall I.D., Mishra I.M. Competitive adsorption of cadmium(II) and
nickel(II) metal ions from aqueous solution onto rice husk ash // Chem. Ing. Process. 2009.
V.48. P.370-381.
10.Толмачев А.М. Описание адсорбционных равновесий // Сорбционные и
хроматографические процессы. 2009. Т.9. Вып.1 C.5-32.
11.Андреева И.Ю., Минько И.Л., Казакевич Ю.Е.Применение волокнистых
сорбентов для очистки вод от ионов тяжелых металлов // ЖПХ. 1991. Т.6. 1276-1279.
12.Стандартный метод определения гидразина в воде // ASTM D1385. 2007.
13. Soldatov V.S. Potentiometric titration of ion exchangers // React. Func. Polym.
1998. V.38. P.73-91.
14.Lanjuan Li, Fuqiang Liu, Xiaosheng Jing, Panpan Ling, Aimin Li Displacement
mechanism of binary competitive adsorption for aqueous divalent metal ions onto a novel
IDA-chelating resin: Isotherm and kinetic modeling // Water research. 2011. V.45. P.1177-1188.
15.Choy K.H., Porter J.F., McKay G. Langmuir Isotherm Models Applied to the
Multicomponent Sorption of Acid Dyes from Effluent onto Activated Carbon //
J.Chem.Eng. 2000, V.45, P.575-584.
систем питьевого водоснабжения. // СанПиН 2.1.4.1074. 2001. С.3-6.
2. Lin L-C., Juang R-S. Ion-exchange kinetics of Cu(II) and Zn(II) from aqueous
solutions with two chelating resins // Chem. Eng. J. 2007. V.132 P. 205-210.
3. Yehua Zh., Jun Hua, Jianlong Wang Competitive adsorption of Pb(II), Cu(II) and
Zn(II) onto xanthate-modified magnetic chitosan // J. Hazard. Mater. 2012. V.221. P.155-
162.
4. Kang S-Y., Lee J-U., Moon S-H., Kim K-W. Competitive adsorption characteristics
of Co2+, Ni2+ and Cr3+ by IRN-77 cation exchange resin in synthesized wastewater //
Chemosphere. 2004. V.56. P.141-150.
5. Bagheri B., Abdouss M., Aslzadeh M.M., Shoushtari A.M. Efficient removal of
Cr(III), Pb(II) and Hg(II) ions from industrial effluents by hydrolyzed/thioaminated
polyacrylonitrile fibres // Iranian Polym. J. 2010. V.19. P.911-915.
6. Xue-song Wang, Yong Q. Equilibrium sorption isotherms for of Cu2+ on rice bran
// Proc. Biochem. 2005. V.40 P.677-680.
7. Ho Y.S., Mckay G. Competitive Sorption of Copper and Nickel Ions from Aqueous
Solution Using Peat // Adsorption. 1999. V.5. P.409-417.
8. Rengaraj S., Moon S.-H. Kinetics of adsorption of Co(II) removal from water and
wastewater by ion exchange resins // Water Res. 2002. V.36. P. 1783-1795.
9. Srivastava V.C., Mall I.D., Mishra I.M. Competitive adsorption of cadmium(II) and
nickel(II) metal ions from aqueous solution onto rice husk ash // Chem. Ing. Process. 2009.
V.48. P.370-381.
10.Толмачев А.М. Описание адсорбционных равновесий // Сорбционные и
хроматографические процессы. 2009. Т.9. Вып.1 C.5-32.
11.Андреева И.Ю., Минько И.Л., Казакевич Ю.Е.Применение волокнистых
сорбентов для очистки вод от ионов тяжелых металлов // ЖПХ. 1991. Т.6. 1276-1279.
12.Стандартный метод определения гидразина в воде // ASTM D1385. 2007.
13. Soldatov V.S. Potentiometric titration of ion exchangers // React. Func. Polym.
1998. V.38. P.73-91.
14.Lanjuan Li, Fuqiang Liu, Xiaosheng Jing, Panpan Ling, Aimin Li Displacement
mechanism of binary competitive adsorption for aqueous divalent metal ions onto a novel
IDA-chelating resin: Isotherm and kinetic modeling // Water research. 2011. V.45. P.1177-1188.
15.Choy K.H., Porter J.F., McKay G. Langmuir Isotherm Models Applied to the
Multicomponent Sorption of Acid Dyes from Effluent onto Activated Carbon //
J.Chem.Eng. 2000, V.45, P.575-584.
Published
2019-11-19
How to Cite
Baigozin, D. V., Kalinkina, L. M., Mitilineos, A. G., & Kynin, A. T. (2019). Competitive adsorption of Cu(II) and Pb(II) cations onto synthetic fibrous and granular ion-exchange materials. Sorbtsionnye I Khromatograficheskie Protsessy, 14(3). Retrieved from https://journals.vsu.ru/sorpchrom/article/view/1486
Section
Статьи
