SU926511A1 - Method of chemical cleaning of heat and power generating equipment - Google Patents

Description

(54) METHOD OF CHEMICAL CLEANING OF HEAT AND ENERGY ENVIRONMENT

The invention relates to the cleaning of metal surfaces and can be used to clean the surfaces of heat and power equipment from iron oxide deposits. A known method of chemical purification of heat and power equipment, which involves the treatment with aqueous solutions of organic acids based on three bones B 1. The disadvantage of this method is the relative high cost of Trilon B and the high corrosion rate of carbon steels, commensurate with the rate of dissolution of iron oxide deposits. A known method of chemical cleaning of heat and power equipment, which is used in the treatment of it with aqueous solutions of oxalic acid. when heated 2, Use of this method is limited to precipitation of soluble oxalate of divalent iron FeCaOi. The formation of oxapate bivalent zhepeza (even at low concentrations of oxalic acid) on exposed metal surfaces and oxide films containing iron (II), makes it difficult to further chemical cleaning. In addition, the disadvantage of this method is the incomplete consumption of acid due to the formation of complexes of meager strength, which makes cleaning more expensive. The purpose of the invention is to increase the cleaning efficiency by eliminating the suspension. The delivered chain is achieved by additionally adding phthalic anhydride or cystic acid as a complex of bivalent iron to the oxalic acid solution, and captax for the following content of components in solution (g / l) as a corrosion inhibitor: anhydride 1; 5-5, O, or lactic acid Kadtax O, 15-0.2 O, the treatment is carried out at pH 3.84, 0 and a temperature of 90-1OO ° C for 2-3 hours. Introduction to the solution based on oxalic acid selective complex formative iron (IF) ft evogo anhydride or lactic acid can eliminate the precipitation of ferrous oxalate by binding iron ions (11) in the water-soluble komplersy. In order to suppress the corrosion of carbon steels, as a result, iron (I) ions, which are sources of the formation of FeCzPn, are mainly formed, a corrosion inhibitor, captax, is introduced into the solution. Example, Chemical treatment of samples made from 92 14 carbon etapey was carried out. The ratio of the volume of the solution to the surface area of the sample was 12.5 l / m. Treatment at 98 ° C for 3 hours. The evaluation of the corrosive effect and the specific capacity of the solutions is welded in the table. The use of the proposed method of chemical cleaning of heat and power equipment provides, in comparison with the known, methods, an increased dissolving ability of the solution in relation to iron oxides and industrial scale, reliable inhibition of the steel surface being cleaned, an increased ability of the solution to convert iron oxides to a truly dissolved state suspension, lower costs through the use of lower cost reagents, which will significantly increase the efficiency c, Coy clean heat and power equip ment.

Claims (1)

Formula isob A method of chemical cleaning of heat power equipment, which consists in> treating it with an aqueous Lava acid solution when heated, characterized in that, with a chain to increase the cleaning efficiency by eliminating the loss of suspended matter, phthalic anhydride or milk is additionally introduced into the solution as a complexing agent of ferrous iron acid, and as a corrosion inhibitor - captax, in the following ratio of components in solution, g / l: The total iron content in the solution, g / p Number of deleted OKISlov, g / m The dissolution rate of oxides, _g g / m h Corrosion rate, g / m ^ h Note 2.0 * 0.1 36 * - 2 12 10.7 1.1 1 0.1 Transparent solutions without suspension 1.9 * 0.1 3411 11,310,3 1,010,08 rethen and I Oxalic acid phthalic anhydride 15-30 1,5-5,0 0.15-0.20 Else or lactic acid Kaptax Water Moreover, the treatment is carried out at a pH of 3.8-4.0 and a temperature of 90-100 C for 2-3 hours.