[1]
|
(1967) International atomic energy agency, operation and control of ion exchange processes for treatment of radio-active wastes. Technical Reports Series, 78, IAEA, Vi-enna.
|
[2]
|
(1984) International atomic energy agency, treatment of low- and intermediate-level liquid radioactive wastes. Technical Reports Series, 236, IAEA, Vienna.
|
[3]
|
T. Shin’ichi and A. Masayoshi, (2001) Development of database on the distribution coefficient. Preparation of Database, Nippon Genshiryoku Kenkyujo JAERI, Data, Code, 102(2).
|
[4]
|
R. S. Lokhande, P. U. Singare, and A. B. Patil, (2007) Application of radioactive tracer technique on industrial grade ion exchange resins Indion-830 (Type-1) and In-dion-N-IP (Type-2). Radiochim. Acta, 95(1), 111-114.
|
[5]
|
R. S. Lokhande, P. U. Singare, and A. R. Kolte, (2007) Study on kinetics and mechanism of ion-isotopic ex-change reaction using strongly basic anion exchange resins Duolite A-101 D and Duolite A-102 D. Radiochim. Acta, 95(10), 595-600.
|
[6]
|
R. S. Lokhande, P. U. Singare, and P. Karthikeyan, (2007) The kinetics and mechanism of bromide ion isotope ex-change reaction in strongly basic anion-exchange resin Duolite A-162 determined by the radioactive tracer tech-nique. Russ. J. Phys. Chem., A, 81(11), 1768-1773.
|
[7]
|
P. U. Singare, R. S. Lokhande, and A. B. Patil, (2008) Application of radioactive tracer technique for charac-terization of some strongly basic anion exchange resins, Radiochim. Acta, 96(2), 99-104.
|
[8]
|
R. S. Lokhande, P. U. Singare, and T. S. Prabhavalkar, (2008) The application of the radioactive tracer technique to study the kinetics of bromide isotope exchange reac-tion with the participation of strongly basic anion ex-change resin Indion FF-IP. Russ. J. Phys. Chem., A, 82(9), 1589-1595.
|
[9]
|
S. Adachi, T. Mizuno, and R. Matsuno, (1995) Concen-tration dependence of the distribution coefficient of mal-tooligosaccharides on a cation-exchange resin. J. Chro-matography A, 708(2), 177-183.
|
[10]
|
S. Adachi, T. Watanabe, and M. Kohashi (1989) Role of swelling pressure on the distribution coefficient of mal-tooligosaccharide in a cation-exchange resin, Agricul-tural and Biological Chemistry, 53(12), 3203-3208.
|
[11]
|
A. Shuji, M. Takcshi, and M. Ryuichi, (1996) Tempera-ture dependence of the distribution coefficient of maltoo-ligosaccharides on cation-exchange resin in na+ form. Bioscience, Biotechnology, and Biochemistry, 60(2), 338-340.
|
[12]
|
S. Adachi and R. Matsuno, (1999) Apparent distribution coefficients of glucose and fructose to cation-exchange resins in some ionic forms. J Appl Glycosci, 46(1), 9-14.
|
[13]
|
T. N. Van Der Walt and P. P. Coetzee, (1996) Distribution coefficients and ion exchange behaviour of some ele-ments with Purolite S-950 in hydrochloric acid. Anal Bioanal Chem., 356(7), 420-424.
|
[14]
|
F. W. E. Strelow, (1986) The influence of resin loading on cation exchange distribution coefficients of some elements in hydrochloric acid. Solvent Extraction and Ion Exchange, 4(6), 1193-1208.
|
[15]
|
P. R. Sangurdekar, J. S. Melo, and S. F. D. Souza, (2005) Proceedings of Nuclear and Radiochemistry Symposium, Amritsar, India, 361.
|
[16]
|
K. G. Heumann and K. Baier, (1982) Chloride distribu-tion coefficient on strongly basic anion-exchange resin: Dependence on co-ion in alkali fluoride solutions. Chro-matographia, 15(11), 701-703.
|
[17]
|
D. D. Sood, A. V. R. Reddy, S. R. K. Iyer, S. Gangadha-ran, and G. Singh, (1998) Proceedings of international conference on applications of radioisotopes and radiation in industrial development. Ed. Mumbai, India, 47.
|
[18]
|
R. S. Lokhande, P. U. Singare, and M. H. Dole (2006) Comparative study on bromide and iodide ion-isotopic exchange reactions using strongly basic anion exchange resin Duolite A-113. J. Nuclear and Radiochemical Sci-ences, 7(2), 29-32.
|
[19]
|
R. S. Lokhande, P. U. Singare, and M. H. Dole, (2007) Application of radiotracer technique to study the ion iso-tope exchange reactions using a strongly basic anion- exchange resin Duolite A-113. Radiochemistry, 49(5), 519-522.
|
[20]
|
R. S. Lokhande and P. U. Singare, (2007) Comparative study on ion-isotopic exchange reaction kinetics by ap-plication of tracer technique, Radiochim. Acta, 95(3), 173-176.
|
[21]
|
R. S. Lokhande and P. U. Singare, (2008) Comparative study on iodide and bromide ion-isotopic exchange reac-tions by application of radioactive tracer technique. J. Porous Mater, 15(3), 253-258.
|
[22]
|
R. S. Lokhande, P. U. Singare, and V. V. Patil, (2008) Application of radioactive tracer technique to study the kinetics and mechanism of reversible ion-isotopic ex-change reaction using strongly basic anion exchange resin Indion-850. Radiochemistry, 50(6), 638-641.
|
[23]
|
R. S. Lokhande, P. U. Singare, and S. A. Parab, (2008) Application of radioactive tracer technique to study the kinetics of iodide ion- isotopic exchange reaction using strongly basic anion exchange resin Duolite A-116. Ra-diochemistry, 50(6), 642-644.
|
[24]
|
R. S. Lokhande, P. U. Singare, and S. R. D. Tiwari, (2008) Study of bromide ion-isotopic exchange reaction kinetics using a weakly basic macro porous resin Indion-860. Ra-diochemistry, 50(6), 633-637.
|
[25]
|
J. H. Suh and D. S. Kim, (2000) Comparison of different sorbents (inorganic and biological) for the removal of Pb2+ from aqueous solutions. J. Chem. Technol. Bio-technol., 75(4), 279-284.
|
[26]
|
P. R. Sangurdekar, J. S. Melo, S. F. D. Souza, and D. P. Pimputkar, (2003) Proceedings of Nuclear and Radio-chemistry Symposium, BARC, Mumbai, India, 545.
|