Phase Equilibrium System of RbCl−LaCl3−HCl(12.60 Mass %)−H2O at 298.15 K and Standard Molar Enthalpy of Formation of RbLaCl4·4H2O Solubilities of the quaternary system RbCl−LaCl3−HCl−H2O were determined at 298.15 K, and the corresponding equilibrium diagram was constructed in.....
O at 298.15 K and Standard Molar Enthalpy of Formation of RbSmCl4·4H2O]]>doi:10.1021/je800850rSolubility of the quaternary system RbCl−SmCl3−HCl(12.84, 22.66 % by mass)−H2O was determined at 298.15 K, and corresponding equilibrium diagrams were constructed. The quaternary system is ...
Phase equilibrium system of RbCl-LaCl3-HCl(12.60 mass %)-H2O at 298.15 K and standard molar enthalpy of formation of RbLaCl4 center dot 4H(2)OQUATERNARY SYSTEM25-DEGREES-CSolubilities of the quaternary system RbCl-LaCl3-HCl-H2O were determined at 298.15 K, and the corresponding equilibrium ...
Apparent molar volumes V_(phi) and apparent molar heat capacities C_(p, phi) were determined for aqueous solutions of L-proline, L-proline with equimolal HCl, and L-proline with equimolal NaOH at the pressure p = 0.35 MPa. Density measurments obtained with a vibrating-tube densimeter ...
Therefore, the adsorption of alkaloids on the MS surface in one molar acid solution is mixed-kind adsorption with dominant chemisorption [17,49]. 3.2.5. Thermodynamics of Corrosion The transition state Equation (10) was used to determine the enthalpy and entropy of the system. log CR T = ...