SU1636758A1 - Method of testing efficiency of salt deposition inhibitors - Google Patents

Abstract

The invention relates to water treatment and can be used to determine the effectiveness of reagent water treatment in the energy sector, recycling water supply of chemical, metallurgical and other industries. The aim of the invention is to increase the reproducibility of the method and reduce the complexity of the choice of reagent and determine the conditions of its use. To do this, determine the mass of scaling on a rotating disk electrode made of the same material as the equipment of the water system, after exposure for 30-60 minutes at a current density of 2-3 mA / cm with an electrode rotation speed of 800-2000 rev / / min in water containing a reagent. 1 tab. (/ WITH

Description

The invention relates to the field of water treatment and can be used to determine the effectiveness of reagent water treatment in the energy sector, recycling water supply of chemical, metallurgical and other industries.

The aim of the invention is to increase the reproducibility of the method and reduce the complexity of the choice of reagent.

Example 1. In a cooling water system characterized by the following chemical composition: pri 8.4; Sch 0.1 / 2.8 mEq / l; , 2 mEq / l

, 7 mEq / L, salinity I150 mg / L (sediment intensity in this system is 1.5-2 mm per year), a rotating disk electrode made of Art. 3 and the owner of the cathode. The electrode area is 8 cm. Electrodes of an inert graphite material of the same area were used as the anode. The rotation speed is 1000 rpm, the current density is 2.5 mA / cm, the exposure time is 40 minutes. As a reagent in this system, an inhibitor of deposits of mineral salts (IOMS) was used at a concentration of 2 mg / l.

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At the end of the exposure, the amount of sediments was determined by the complexometric method,

For example, in order to determine the possibility of using the method for selecting a reagent and its optimal concentration, the tests were carried out on water of the same composition as in Example 1, at a current density of 2.5 mA / cm, an exposure time of 60 minutes, rotational speed 1400 rpm Electrode material - Х18Н9Т.

Experienced reagents belonging to the class of organic aminophosphonates, similar in their effectiveness; nitrilotrimethylenephosphonic acid (NTF), 2-hydroxypropanol diaminoethet romethylenephosphonic acid (DFT), IOMS.

A method for determining the effectiveness of scale inhibitors, including the exposure of a rotating rotary electrode in the medium to be analyzed, followed by determining the mass of scaling on a rotating rotary electrode, characterized in that. In order to increase the reproducibility of the method and reduce the labor intensity from the material of the water system equipment rotating

The data are given in the table.

As can be seen from the table, the use of this technical solution allows you to reliably select the reagent and its 25 at a speed of 800-2000 rpm at a density optimum concentration for a current processing of 2-3 mA / cm during the time the water is exposed to specific conditions. h.zition 30-60 min.

The proposed method for determining the effectiveness of scale inhibitors improves the reproducibility of the results of determining the effectiveness of reagent water treatment and reduces the laboriousness of choosing a reagent and determining their optimal concentrations.

Claims (1)

Invention Formula A method for determining the effectiveness of scale inhibitors, including the exposure of a rotating rotary electrode in the medium being analyzed, followed by determining the mass of scaling on a rotating rotary electrode, characterized in that. In order to increase the reproducibility of the method and reduce the labor intensity the material of the equipment of the water system rotating at a speed of 800-2000 rpm at a current density of 2-3 mA / cm during an exposure time of 30-60 minutes.