Thermodynamic study of (m1Na2SeO4+m2NiSeO4)(aq) wheremdenotes molality at the temperature 298.15 K

The isopiestic method has been used to determine the osmotic coefficients of the binary solutions Cs 2 SeO 4 (aq) at T = 298.15 K from (1.090 to 4.591) mol • kg -1 . The molalities m of (m 1 Cs 2 SeO 4 + m 2 NiSeO 4 )(aq) have been investigated by physicochemical analysis. The crystallization of a n

A new double salt, RbBr NiBr 6H O, crystallizing as the only possible double salt at 2 2 Ts298.15 K from aqueous rubidium᎐nickel bromide solutions was predicted using Pauling Ž rules and the ''hard'' and ''soft'' Lewis acids and bases concept. The system m RbBr q 1 .Ž . m NiBr aq , where m denotes

Available online at http:rrwww.idealibrary.com on ( ) ( ) Study of m KCl H m MeCl aq and 1 2 2 ( ) ( ) m K SO H m MeSO aq where m 1 2 4 2 4

The molalities m of (m 1 LiBr + m 2 CaBr 2 )(aq) have been investigated in saturated solutions at the temperature T = 298.15 K by the physico-chemical analysis methods. The crystallization of a new double salt LiBr • CaBr 2 • 5H 2 O has been established. The solutions (m 1 LiCl + m 2 CaCl 2 )(aq), a

The molalities b of (b1LiBr+b2MgBr2)(aq) have been investigated in saturated solutions at the temperature T=348.15 K by the physicochemical-analysis method and crystallization of the crystalline hydrates LiBr•H2O and MgBr2•6H2O alone has been established. A thermodynamic approach based on the Pitzer

The water activities and osmotic coefficients of aqueous solutions of {(NH 4 ) 2 SO 4 + Li 2 SO 4 } and {(NH 4 ) 2 SO 4 + Na 2 SO 4 } have been determined at a temperature of 298.15 K with a hygrometric method, at molalities in the region 0.2 mol • kg -1 to saturation of the solutes for different fr