SU1354070A1 - Method of estimating quality of water - Google Patents

Abstract

This invention relates to analytical chemistry, namely to the control of the quality of drinking water. The purpose of the invention is to simplify and speed up the monitoring of water quality. Drinking water obtained from demineralized is investigated by a spectral method at a wavelength of 234-240 nm. According to the index of 0.08 units. optical density judges benign drinking water, and at lowering this indicator - its toxicity. 1 dw., 2 tab. from the joint venture

Description

one

The invention relates to analytical chemistry, namely to the control of water quality, designed to meet the needs of the body.

The purpose of the invention is to simplify and speed up the assessment of water quality.

In two quartz rectangular cells, 1 cm thick, the working layer is poured into one distilled water into the other — water to be monitored. The cuvettes are placed in the cuvette chamber of the spectrophotometer, for example, an SF-4A. A working wavelength of 230-240 nm is established. Instrument indices are recorded in units of optical density, according to which water quality or toxicity is judged.

The drawing shows a graph of the correlation relationship between the wavelength of ultraviolet light (L) and the unit of optical density (E) to determine the quality control of the proposed method.

Five water samples (Tables 1 and 2) were experimentally tested, having different extinction values on a spectrophotometer. The curves of characteristics 1, 2 and 5 depict in the drawing a benign drinking water having extinction indexes of 0.08 and higher optical density units. Curves 3 and 4 characterize toxic water having an extinction index of 0.07 and 0.06 units. optical density, respectively, at the use of which death is noted.

In tab. 1 and 2, experimental data are given on the work of the heart of the heartbills when five water samples are used.

F.iO, 05.

20

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It can be seen from the tables, there is a change in the work (function) of the heart of the heartb at the use of water samples 1,2, 3,4 and 5.

Thus, the proposed method can be successfully used for; mass determination of water quality, while reducing the duration of monitoring the soil by three times. The obtained information allows timely correction of technological processes of enrichment or purification of water at different stages of mineralization or regeneration 15.

The change in the duration of the R-R interval of an isolated heart of a l heart when perfused with various samples of drinking water obtained from demineralized water (M-sh;) is shown in Table. one.

The change of the R wave of the isolated heart of the heart after perfusion with various 25 drinking water samples obtained from demineralized water (Mt;) is shown in Table. 2

thirty

35

Claims (1)

Invention Formula A method for assessing water quality, including the determination of toxicity in a test sample, characterized in that, in order to simplify and speed up the control, the sample is irradiated and the optical density is recorded at a wavelength of 230-240 nm, and the water quality is judged by extinction index, moreover, with an extinction index of 0.8, water is considered benign to drink. Table ZJ "235 236 237 23ff 250 260 270280290300310 0 ZUO Editor I. Gorna Compiled by O. Badtieva Tehred I. Popovich Order 5686/38 Circulation 776 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 475 Production and printing company, Uzhgorod, st. Project, 4 table 2 Proofreader V. Booth ha