The Solubilities and Physicochemical Properties of NaH₂PO₂–NaCl–H₂O, NaH₂PO₂–Zn(H₂PO₂)₂–H₂O, and NaCl–Zn(H₂PO₂)₂–H₂O Ternary Systems and in NaH₂PO₂–NaCl–Zn(H₂PO₂)₂–H₂O Quaternary System at 298.15 K

The physicochemical properties and solubilities of NaH₂PO₂–Zn­(H₂PO₂)₂–H₂O, NaH₂PO₂–NaCl–H₂O, and NaCl–Zn­(H₂PO₂)₂–H₂O ternary systems and in NaH₂PO₂–NaCl–Zn­(H₂PO₂)₂–H₂O quaternary system at 298.15 K were investigated via the isothermal method. Invariant point compositions represent the quaternary system were characterized as the following: 10.65% mass NaCl, 32.51% mass NaH₂PO₂, 6.50% mass Zn­(H₂PO₂)₂, and 50.34% mass H₂O. In solid phases, the salts of Zn­(H₂PO₂)₂.H₂O, NaCl and NaH₂PO₂·H₂O were recognized. The crystallization area of the salts were obtained as (i) 79.04% Zn­(H₂PO₂)₂, (ii) 18.62% NaCl and (iii) 2.34% NaH₂PO₂. Being the least soluble salt, Zn­(H₂PO₂)₂ has the largest crystallization area when compared with other salts present in the medium. According to the results, the crystallization area of was the largest in comparison with those of other salts and at the same time it was the least soluble salt.