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The currently used technologies for the production of boron isotopes for nuclear power and nuclear medicine are based on the application of toxic boron halides (1, 2). The report is devoted to alternative processes for concentrating of 10B and 11B by chemical exchange in extraction systems using boric acid, that is, without of boron halides. The results of studying phase and isotopic equilibrium in two liquid-liquid systems are considered: an aqueous solution of boric acid an organic phase in the form of tributyl phosphate TBF) or a solution of trioctylamine TOA in o-xylene. The obtained values of the separation factor for boron isotopes characterize the predominantly phase isotope effect in the first system, and in the second system the effect of chemical isotopic exchange. Accordingly, the values of the single stage separation factor are 1.0067 ± 0.0035 and 1.025 ± 0.005 and are close to similar values for rectification of boron trifluoride and chemical exchange in the anisole process of boron isotope separation. The practical use of the studied extraction systems may allow the separation of boron isotopes in the horizontal cascades of centrifugal extractors in the absence of an environmental hazard. /1/ I.B. Amirkhanova, P.Ya. Asotiani, A.B. Borisov, I.G. Gverdtciteli et al. Investigation of the influence of pressure on the separation of isotopes B11 and B10 by the distillation of BF3 //Atomnaya Energiya, 1967, Vol. 23, No. 4. P. 336-339 in Russian. /2/ S.G. Katalnikov Physico-chemical and engineering principles of boron isotopes separation by using BF3 –Anisole∙BF3 System //Separation Science and Technology, 2001, Vol. 36, No. 8&9. P. 1737-1768.