Ozone solubility in concentrated aqueous solutions of salts

“…On the other hand, the values of ozone solubility found by Briner and Perrottet 12 and Panich et al 17 in solutions of pure NaCl without any additives (neutral medium, pH ∼ 6−7) appear too low (see Figure 1), and the corresponding Setschenow coefficients (K S ∼ 0.5 L/mol; 12 0.4 L/mol 17 ) turn out to be anomalously high. The source of discrepancy is not quite clear, although we may hypothesize that it arises from the increase in ozone decomposition rate, when pH of the solution is shifted toward alkaline medium.…”

“…The main reasons for such significant discrepancies are due, first, to ozone self-decomposition and its interaction with other components of the solution and, second, to the errors in the analytical techniques of dissolved ozone determination. The data − on ozone solubility in chloride solutions are critically discussed in Section , in comparison with the results of this study.…”

“…A comparison of the literature values of ozone Henry’s law constant, K H , mol L –1 bar –1 , at room temperature, directly reported in refs − or calculated on the basis of the other solubility parameters given in these works, is shown in Figure . While the apparent Henry’s law constants or equivalent quantities are given in refs , , and − , the values of the true constant were obtained in works and . The apparent Henry’s law constant K H is defined by the relation K H = [O 3 ]/ P (O 3 ), where [O 3 ] is ozone concentration in the reaction solution, mol/L, and P (O 3 ) is ozone partial pressure in the gas phase in contact with it, bar, under steady regime of reactor operation.…”

“…In the literature, data on the solubility of ozone in aqueous chloride solutions are given in original works. − There are recent comprehensive and detailed reviews on ozone solubility in liquids, , where the results on ozone in chloride solutions can be found. A comparison of the literature values of ozone Henry’s law constant, K H , mol L –1 bar –1 , at room temperature, directly reported in refs − or calculated on the basis of the other solubility parameters given in these works, is shown in Figure . While the apparent Henry’s law constants or equivalent quantities are given in refs , , and − , the values of the true constant were obtained in works and .…”

“…Dependence of ozone Henry’s law constant in aqueous chloride solutions on the concentration of electrolyte at temperature 20–25 °C. Points are the literature data for solutions of NaCl, − ,− and NaCl or KCl . Solid line is the recommendation of this work for solutions of NaCl and NaCl + HCl at 20 °C (calculated from eq ).…”

Solubility of Ozone and Kinetics of Its Decomposition in Aqueous Chloride Solutions

“…On the other hand, the values of ozone solubility found by Briner and Perrottet 12 and Panich et al 17 in solutions of pure NaCl without any additives (neutral medium, pH ∼ 6−7) appear too low (see Figure 1), and the corresponding Setschenow coefficients (K S ∼ 0.5 L/mol; 12 0.4 L/mol 17 ) turn out to be anomalously high. The source of discrepancy is not quite clear, although we may hypothesize that it arises from the increase in ozone decomposition rate, when pH of the solution is shifted toward alkaline medium.…”

“…The main reasons for such significant discrepancies are due, first, to ozone self-decomposition and its interaction with other components of the solution and, second, to the errors in the analytical techniques of dissolved ozone determination. The data − on ozone solubility in chloride solutions are critically discussed in Section , in comparison with the results of this study.…”

“…A comparison of the literature values of ozone Henry’s law constant, K H , mol L –1 bar –1 , at room temperature, directly reported in refs − or calculated on the basis of the other solubility parameters given in these works, is shown in Figure . While the apparent Henry’s law constants or equivalent quantities are given in refs , , and − , the values of the true constant were obtained in works and . The apparent Henry’s law constant K H is defined by the relation K H = [O 3 ]/ P (O 3 ), where [O 3 ] is ozone concentration in the reaction solution, mol/L, and P (O 3 ) is ozone partial pressure in the gas phase in contact with it, bar, under steady regime of reactor operation.…”

“…In the literature, data on the solubility of ozone in aqueous chloride solutions are given in original works. − There are recent comprehensive and detailed reviews on ozone solubility in liquids, , where the results on ozone in chloride solutions can be found. A comparison of the literature values of ozone Henry’s law constant, K H , mol L –1 bar –1 , at room temperature, directly reported in refs − or calculated on the basis of the other solubility parameters given in these works, is shown in Figure . While the apparent Henry’s law constants or equivalent quantities are given in refs , , and − , the values of the true constant were obtained in works and .…”

“…Dependence of ozone Henry’s law constant in aqueous chloride solutions on the concentration of electrolyte at temperature 20–25 °C. Points are the literature data for solutions of NaCl, − ,− and NaCl or KCl . Solid line is the recommendation of this work for solutions of NaCl and NaCl + HCl at 20 °C (calculated from eq ).…”

Solubility of Ozone and Kinetics of Its Decomposition in Aqueous Chloride Solutions

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