SU1109640A1 - Method of determination of aceton vapors in air - Google Patents

Abstract

A METHOD FOR DETERMINING ACETONE PAIRS IN AIR by Passing an air sample through silica gel impregnated with a solution of hydroxylamine hydrochloride and an indicator, followed by measuring the length of the colored layer, characterized in that, in order to increase the sensitivity of the method, as an indicator. pa used methanyl yellow.

Description

The invention relates to analytical chemistry, and specifically to methods for determining acetone vapors in air. A method is known for determining acetone vapor in air by passing an air sample through a tissue tape impregnated with hydroxylamine hydrochloride and indicator - bromophenol blue, followed by photocolorimeting of the colored reaction product. the invention to the technical essence and the achieved results is a method for determining acetone vapors in the air by passing an air sample over of silica gel impregnated with a solution of hydroxylamine hydrochloride and indicator - .bromfenolovogo blue, followed by measuring the length of okra shennogo layer 2. A disadvantage of the known methods is low sensitivity (at an acetone concentration in air of 5 mg / m, the length of the colored layer is 0.5 mm). The aim of the invention is to increase the sensitivity of the method. The goal is achieved. According to the method, acetone vapors in the air are determined by passing an air sample through silica gel impregnated with hydroxylamine hydrochloride and an indicator, followed by measuring the length of the colored layer. Methanyl yellow is used as an indicator. The KSKG silica gel was used in fractions of 0.25-0.315, washed with acids and calcined with a solution impregnated with a 1% alcoholic solution of hydroxylamine hydrochloric acid and O, with a 1% aqueous solution of methanestomers yellow. The impregnation is carried out as follows: to 10 g of silica gel, add 8 ml of a 1% alcoholic solution of hydroxylamine hydrochloride, stir until a friable state, and then add 1 ml of O, 1% aqueous solution of an indicator — methanyl yellow. Then the silica gel is dried to an air-dry state at room temperature and poured into glupny tubes with a diameter of 2.3 ± 0.1 mm. The position of the silica gel in the tube is fixed with breathable tampons (for example, cotton wool). Dp of air purification from acid vapors use an absorption cartridge, which is a silica gel (KSKG of 0.4-0.6 fraction), impregnated with a solution of sodium carbonate and methyl orange. The silica gel impregnation solution is prepared as follows. Take 80 MP of 3% sodium carbonate solution, add 20 mp of 0.5% methyl orange solution. At 10 MP silica gel use 10 MP of the working solution. After drying at room temperature, the filler is closed into a tube with a diameter of 2.3 ± 0.1 mm. The position of the filler and cartridge is also fixed using air-permeable tampons. The measurements are carried out as follows: using a UG-2 gas analyzer, 280 cm of the analyzed air is passed through the tube and the length of the column of silica gel that changes color is measured. The test results are summarized in table. As can be seen from the table, the sensitivity of the proposed method B is three times Bbmie than the known one, which makes it possible to control acetone vapor concentrations less than 2 mg / m. i

2 3 4

3

5 7

5 10

Table continuation

0.5

8 16 1.0

Claims (1)

METHOD FOR DETERMINING ACETONE VAPORS IN AIR by Passing an air sample through silica gel impregnated with a solution of hydroxylamine hydrochloric acid and an indicator, followed by measuring the length of the colored layer, which differs in that, in order to increase the sensitivity of the method, as an indicator. Methenyl yellow is used. (10