A. Oszczak scite author profile

The paper reports the adsorption of strontium(II) and americium(III) from aqueous solutions onto calcium alginate (CaA), barium alginate (BaA) and strontium alginate (SrA) beads. Adsorption process was studied in batch experiments as a function of the initial pH of the solution and the contact time. All sorbents were examined by the termogravimetric analysis (TG). Laboratory obtained spherical beads of CaA, BaA and SrA seem to be good metal sorbents from liquid radioactive wastes. A contact time of about 4 h and neutral pH of the initial aqueous solution have been proposed to be optimum conditions for Sr-85 and Am-241 removal from the contaminated solutions using alginate sorbents. Laboratory obtained beads of CaA, BaA and SrA are characterized by the decontamination factor (DF) equal to 85% for Sr(II) and 90% for Am(III).

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Labelling of peptides with 99mTc complexes through the modified C-terminal group

Koźmiński

Gniazdowska

Fuks

et al. 2011

J Radioanal Nucl Chem

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Removal of the radionuclides from aqueous solutions by biosorption on the roots of the dandelion (Taraxacum officinale)

Fuks

Oszczak

Dudek

et al. 2016

Int. J. Environ. Sci. Technol.

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A novel biosorbent-dandelion root (DRB)-was investigated as adsorbent for removal of Sr(II) and Am(III) from aqueous solutions. Batch equilibrium experiments were carried out to study the effect of contact time, initial concentration of the metal and pH of the media as well as of the sorbent amount. The equilibrium time was found to be 90 min for adsorption of both radionuclides. The kinetic model can be described by the pseudo-secondorder model well, and the isotherm model is fitted to Freundlich model the best. The maximum adsorption capacity of the DRB at pH about 6.0 was calculated to be 63.7 and 80.6 g kg -1 for Sr(II) and Eu(III), respectively. About 90 % of Am(III) and 80 % of Sr(II) were removed when 30 mg of the biosorbent was used in 1 mL of the solution. Use of the sequential portions of the fresh sorbent is expected to increase efficiency of the process. Complexation of Sr(II) and Am(III) by strong chelating agents, e.g., citrate, oxalate and EDTA, did not diminish significantly the sorption efficiency of the sorbent. Once sorbed, \1 % of each radionuclide was desorbed by water.Graphical Abstract Low-cost biomass obtained from the dandelions' roots (DRB) was investigated as adsorbent for removal of strontium and americium from aqueous solutions.

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A. Oszczak

Calcium alginate and chitosan as potential sorbents for strontium radionuclide

Novel procedure for removal of the radioactive metals from aqueous wastes by the magnetic calcium alginate

Sorption of Sr-85 and Am-241 from liquid radioactive wastes by alginate beads

Labelling of peptides with 99mTc complexes through the modified C-terminal group

Removal of the radionuclides from aqueous solutions by biosorption on the roots of the dandelion (Taraxacum officinale)

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