SU645069A1 - Dew point determining device - Google Patents

Description

- (pg,

M M „

where D is the measurement error, numerically equal to the total temperature gradient between the outer surface of the condensate layer and the center of the temperature-sensitive element; - the maximum possible value

temperature gradient; / - current, nitayush, iy refrigerator; max - current of maximum cold performance of the refrigerator; ty is the temperature of the radiator of the refrigerator;

ta is the temperature of the mirror measured by a temperature-sensitive element;

/ С is the relative coefficient of thermal conductivity, determined by the design of the hygrometer refrigerator and a given thickness, a different layer of condensate.

The drawing schematically shows a condensation hygrometer for the implementation of the proposed method.

On the mirror 1 of the hygrometer, cooled by the refrigerator 2, a flow of the test gas is supplied, from which moisture is condensed on the mirror 1. Mirror 1 is illuminated with a light bulb 3. Light reflected by mirror 1 and partially absorbed by a layer of condensate 4 falls on the photosensitive element 5 connected to the regulator torus 6. Regulator 6 maintains a constant layer of condensate on the surface of the mirror 1 by adjusting the current of refrigerator 2. In the mode of automatic maintenance of a constant layer of condensate, an ammeter 7 is measured by the ammeter 7 A cooler 2, a thermocouple 8, and a millivoltmeter 9 — the temperature of the radiator 10 and a resistance thermometer 11 and the secondary device 12 — the temperature of the cooled mirror 1.

Using the obtained measurement results, the true value of the dew point is taken into account with a correction equal to the total temperature gradient between the outer surface of the condensate layer on the mirror and the center of the temperature-sensitive element.

Experimental studies have shown that with a useful power developed by a refrigerator equal to 1 W, gradients affecting the measurement of the dew point can reach 1.2 ° C.

The measurement error is especially great when determining dew points in the low temperature region (below -10 ° C). The proposed method, by taking into account the full temperature gradient, makes it possible to reduce the measurement error of the dew point to C, 2 ° C, which, in turn, will improve the quality of products, for example, when they are heat treated in furnaces with controlled atmosphere, and also increase the shelf life various products.

The proposed method can be used for any thermal conditions, including the maximum possible, the maximum temperature difference and the maximum for the cooler of the heat flux hygrometer.

Claims (2)

Invention Formula The method of determining the dew point, which consists in measuring the surface temperature of the cooled mirror, characterized in that, in order to increase accuracy and expansion of the detection range; the current that feeds the refrigerator is additionally measured; and the temperature of the radiator of the refrigerator while automatically maintaining a constant layer thickness taking into account the temperature of the mirror, a correction is made to the measured temperature, equal to the full temperature gradient between the injected surface of the condensate layer on the mirror and the center of the temperature-sensitive element and determined from the ratio; D D4ak l - f 1 - V-) 1 - (p - 4), L max / J where L is the measurement error, is equal to the full gradient of the temperature between the outer surface of the condensate layer and the center of the temperature-sensitive element; - the maximum possible value temperature gradient; / - current feeding refrigerator; haha - current of maximum cold performance of the refrigerator; / p is the temperature of the radiator of the refrigerator; and is the temperature of the mirror measured by the temperature-sensitive element; K is the relative thermal conductivity coefficient determined by the costruc- tion of the hygrometer cooler and the given thickness of the condensate layer. Information sources, taken into account in the examination 1. M. Berlaner. Electric methods and devices for measuring and regulating affection, M.-L., 1960, p. 241. 2. USSR author's certificate No. 169832, cl. G 01N 25/66, 1969.