RU2174495C1 - Method of sewage purification from phenol - Google Patents

Abstract

FIELD: purification of natural and circulating water, and sewage. SUBSTANCE: sewage is treated with hydrogen peroxide in the presence of Fe-montmoryllonite catalyst at hydrogen peroxide to phenol ratio of 7.5:1 which is 55% of desired stoichiometric amount. Ferric ions found on montmoryllonite surface by ionic exchange followed by calcination cause catalytic decomposition of hydrogen peroxide to form hydroxyl radicals which are potent oxidizers capable of destructing organic compounds, more particularly, phenols. Method makes purification process less durable, reduces specific consumption of oxidizer and retains high degree of purification of water from phenol. EFFECT: higher efficiency. 2 cl, 3 ex

Description

 The invention relates to methods for wastewater treatment from phenol and can be used for the treatment of natural, circulating and wastewater.

 A known method of treating wastewater from phenols with atmospheric oxygen and hydrogen peroxide using coals having catalytically active metal ions Fe (II), Fe (III) bound to surface complexes [The use of coal catalysts for oxidatively destructive wastewater treatment. / Tarkovskaya I.A., Stavitskaya S.S., Lukyanchuk V.M., Tarkovskaya G.B. // Chemistry and water technology, 1993,15, N 7-8, p. 578-583]. The degree of purification according to phenol reaches 88% at an initial concentration of 10-50 mg / l and a contact time of more than 60 minutes.

 The disadvantages of the method are the insufficient degree of purification according to phenol and the duration of the process.

The closest to the proposed in essence and the achieved result is a method of wastewater treatment from organic impurities, in particular from phenol, treatment with hydrogen peroxide in the presence of iron-containing siderite catalyst [A. S. 138 6585 USSR, MKI ⁴ C 02 F 1/72. The method of wastewater treatment / And. I. Vasilenko, A.N. Fedosova, N.M. Shawel. Publ. 07.07.88, bull. thirteen]. After 1 hour, the degree of wastewater treatment from phenol reaches 99.8% with an initial phenol concentration of 0.05 mol / L and a specific consumption of hydrogen peroxide of 30 mol / mol phenol, which is 214.3% of the stoichiometrically necessary.

 The disadvantages of this method are the increased consumption of oxidizing agent and the duration of the cleaning process.

 The purpose of the invention is to reduce the duration of the cleaning process, reducing the specific consumption of the oxidizing agent while maintaining a high degree of purification of water from phenol.

 The object of the invention is achieved in that the wastewater is treated with hydrogen peroxide in the presence of a Fe-montmorillonite catalyst with a molar ratio of hydrogen peroxide: phenol equal to 7.5: 1, which is 55% of the stoichiometrically necessary. Iron (III) ions, fixed on the surface of montmorillonite by ion exchange and subsequent calcination, cause the catalytic decomposition of hydrogen peroxide with the formation of hydroxyl radicals, which are strong oxidizing agents capable of destroying organic compounds, in particular phenols.

 The method is confirmed by the following examples.

Example 1. To 50 ml of a model solution containing 1 • 10 ^-3 mol / l (94 mg / l) phenol, add hydrogen peroxide in an amount of 7.5 • 10 ^-3 mol / l (which is 53.6% of the stoichiometrically necessary) and 0.3 g Fe-montmorillonite. The reaction mixture is stirred for 7 minutes. The degree of purification from phenol is 99.9%.

Example 2. To 50 ml of a model solution containing 2 • 10 ^-3 mol / l (188 mg / l) phenol, add 1.48 • 10 ^-2 mol / l hydrogen peroxide (which is 53.0% of the stoichiometrically required amount) and 0.3 g Fe montmorillonite. The reaction mixture is stirred for 10 minutes, the degree of purification from phenol is 99.8%.

Example 3. To 50 ml of a model solution containing 3.2 • 10 ^-3 mol / L (300 mg / L) phenol, add hydrogen peroxide in an amount of 2.38 • 10 ^-2 mol / L (53.2% of the stoichiometric amount) and 0.3 g Fe montmorillonite. The reaction mixture is stirred for 20 minutes. The degree of purification of the solution from phenol is 99.8%.

 From examples 1-3 it follows that the use of Fe-montmorillonite as a catalyst for the purification of wastewater from phenol with hydrogen peroxide makes it possible to reduce the oxidizer consumption by 4 times compared to using siderite while reducing the process time by 3 times and maintaining a high degree of purification.

 Fields of practical application: purification of natural, circulating and wastewater containing phenols.

Claims (2)

 1. The method of purification of wastewater from phenol with hydrogen peroxide in the presence of an iron-containing catalyst, characterized in that Fe-montmorillonite is used as a catalyst.  2. The method according to claim 1, characterized in that for the oxidation of phenol, hydrogen peroxide is taken in an amount of 55% of the stoichiometrically necessary.