SU1559271A1 - Method of determining formaldehyde in air - Google Patents

Abstract

The invention relates to catalytic chemistry, in particular the determination of formaldehyde in air, for example, industrial plants. The goal is to increase the selectivity and sensitivity of the analysis. The latter is carried out by passing the sample through an ammonia solution of the complex compound of iron (II) with 2,2-cyclohexanedinedioxine monoallyl ether at a concentration of 0.5-1.0 g / l, followed by photometry of the resulting solution. These conditions increase the sensitivity of the analysis by a factor of 1.5 and the possibility of selective determination of formaldehyde in the presence of high concentrations of benzaldehyde and phenol, which significantly interfere with the known method. 2 tab.

Description

i

(21) 4317375 / 23-04

(22) 16.YU.87

(46) 23.04.90, Bul “N 15 (7 O Ukrazygy Taek Polytechnic Institute named after IZ Sokolov (72) A.N., G.T. Golovienko, B.P.Sakharov, I., V.Tsikhanovsk , E. YuoZakharova, And A. Borova, L.S. Fedorova and G.N.Bel vska

(53) 543.432 (088.8)

(56) USSR Author's Certificate N 1144039, class „G 01 N 21/78, 1985,

Lurie Yu.Yu. Analytical chemical industrial wastewater. I .: Himi s 1984, p.387-389,

(54) METHOD FOR DETERMINING FORMALDEHYDE IN AIR

(57) This invention relates to catalytic

chemical chemistry, in particular the determination of formaldehyde in air, for example; industrial enterprises. The goal is to increase the selectivity and sensitivity of the analysis. The latter is carried out by passing the sample through an ammonia solution of the complex compound of iron (II) with mono-methyl ether 2.2-cyclohexanedione dioxin at a concentration of 0.5-1.0 g / l with w following photometry of the solution obtained. These conditions increase the sensitivity of the analysis by 1S5 times and the possibility of selective determination of formaldehyde in the presence of high concentrations of benzaldehyde and phenol, which significantly interfere with the known method. 2 tab.

(Ls

The invention relates to analytical chemistry, in particular to methods for determining formaldehyde in air, for example, industrial plants.

The purpose of the invention is to increase the sensitivity and selectivity of the determination.

Example 1. Analyzed air containing formaldehyde at a rate of about 1 l / min is sucked through an absorption vessel containing 15 ml of an ammonium solution of the iron (II) complex compound with mono-acrylic ester 1,2-cyclohexanedione dioxime (HREC) (0.4 g / l) The volume of air sampled is selected so that the concentration of formaldehyde in the absorption solution reaches 0, 2 µg / ml. Then, the optical density of the solution is measured at 520 nm and the formaldehyde content in the absorption solution is determined according to a calibration curve constructed using solutions with a known formaldehyde content. By knowing the volume of the solution and the volume of air sampled, the formaldehyde concentration in the source air is calculated.

The results of the comparative determination of formaldehyde in solutions according to the proposed and known methods are given in Table 1.

The sensitivity of the proposed method is 1.5 times higher than the known. The method is more selective as opresl

SP

with to

Only acetaldehyde at high concentrations interferes with fission, whereas, by a known method, high concentrations of benzenedepde and phenol also interfere.

Claims (1)

The results of determination of various concentrations of formaldehyde at various concentrations of HPEC are presented in Table 2. Method for determining formaldehyde in air by passing an assay. All mixtures contained acetaldehyde additive in the amount of 0.5 µg / ml Table sample through a reagent followed by photometry of the solution obtained, characterized in that, in order to increase the sensitivity and selectivity of the method, an ammonia solution of the iron (II) complex compound with 2,2-cyclohexanedione dioxin at a concentration of 0.5-1 is used as a reagent , 0 g / l. J T a l and c a 1