SU1081603A1 - Method of producing vapor-air mixture having preset humidity - Google Patents

Abstract

A method for producing an air-steam mixture with a predetermined moisture content, which consists in periodically, at a signal from the regulator, a working mixture with a humidity which differs from the set one, differs in that is supplied to the working chamber of the hygrostat. and LV} ZNL11 iGKNG

Description

The invention relates to a measurement technique, in particular, to a technique for producing air-vapor mixtures with a given humidity value, and can be used in the calibration and calibration of various types of hygrometers operated in agriculture (greenhouses, warehouses, farms), milk processing industry (incubators, defrosting chambers). mA), power engineering (nuclear power plants), as well as when testing materials and products that require maintaining with high accuracy the specified values of air humidity.

A known method of producing an air-vapor mixture with a given humidity is caused by the fact that periodically, according to a signal from the regulator, an air-vapor mixture with a humidity different from the one specified is fed into the working chamber of the hygrostat.

A significant disadvantage of the method is the considerable instability of maintaining the specified humidity value.

The closest to the technical essence of the invention is a method for producing a vapor-air mixture with a given humidity, which periodically, according to a signal from the regulator, a mixture with a humidity that differs from the specified one is fed into the working chamber of the hygrostat. The method is implemented in climate chambers (hygrostats), in which a dew point controller with a heating type primary converter is used to stabilize humidity.

In chambers of this type, a given range of humidity with a stability of ± 0.5 ° C of the dew point is guaranteed over a wide range, which corresponds, for example, at a given relative humidity of 50% and a temperature of 20 ° C, relative humidity of ± 1.7% 2 .

However, the stability of maintaining the desired humidity in these chambers is also insufficient, especially when calibrating the hygrometer QBB, since stability is achieved commensurate with the absolute error of most modern hygrometers.

The noticeable instability of humidity in the chambers is a consequence of the insufficiently high speed of the primary humidity converter, the inevitable lag in the channels of the actuating element, and the large inertia of the processes of humidification and drying of air. A further increase in the stability of maintaining humidity in the chambers by improving the automatic humidity control system requires the elimination of the listed disadvantages.

The purpose of the invention is to increase the stability of maintaining the desired humidity in the hygrostat.

The goal is achieved by the fact that according to the method of obtaining the vapor-air mixture with a predetermined humidity level, the conclusion is that periodically

the regulator is fed into the working chamber of the hygrostat, a working mixture with humidity different from the specified one, the vapor-air mixture is circulated between two cavities into which the hygrostat chamber is divided, and after reaching the specified humidity level, the flow rate of the circulating mixture is maintained by the formula

I,

, KC.VI + (f -f)

where K is the stabilization factor equal to the ratio of the amplitudes of humidity fluctuations in cavities x; V is the volume of the cavity in which the tests are performed; F-flow rate of the circulating mixture through the cavity in which the tests are performed; 0T is the period of humidity fluctuations.

The introduction of new operations in the known method makes it possible to significantly increase the stability of maintaining humidity in hygrostats.

In this method, the stability of maintaining humidity in the test cavity at a certain volume is a function of the flow rate E passing through the vapor-air mixture through the test cavity.

Taking into account that the form of humidity fluctuations in the working chamber of the hygrostat is close to harmonic, an assessment of the increase in stability can be made using the equation

K „/ 1 + (- f)

From the obtained data of experimental verification and calculations it follows that this method makes it possible to increase the stability of maintaining humidity in hygrostats more than

than 40 times.

The drawing shows a device that implements the proposed method.

The device contains a thermostatically controlled working chamber 1 with a door 2 and a partition 3 dividing the working chamber 1 into a test cavity 4 and a cavity 5 with adjustable humidity). The mixing of the vapor-air mixture in the test cavity 4, designed to accommodate the objects under study, is carried out

0 (using an axial fan 6. Air duct 7 provides directional flow of the vapor-air mixture in the test plane 4. The centrifugal fan 8 and air duct 9 serve to stir the vapor-air mixture in the cavity 5.

5 An axial fan 6 and a centrifugal fan 8 are driven by an electric motor 10. Maintaining the desired humidity value in the cavity 5 is carried out by periodically, at the signal of the humidity controller 11 with the sensor 12, feeding the vapor-air mixture with a humidity different from the specified one. Circulation of the vapor-air mixture between the cavities 4 and 5 is created by the fan 8. The required stability of humidity in the test cavity 4 is established after reaching the specified humidity level by setting the flow rate F of the circulating air-vapor mixture by changing the position of the flap 13. The flow rate F is calculated by the ratio. The period of humidity fluctuation T included in this ratio can be easily determined by the signal of the humidity controller 11 or by the output signal of the humidity sensor 12. The implementation of this method does not require a change in the concept or design of the hygrostat and can practically be carried out by simple technical means. Using the proposed method of obtaining an air-vapor mixture with a given humidity allows, in comparison with the known method, to increase many times the stability of maintaining a given humidity in a hygrostat and makes it possible to set the required stability by changing the flow rate of the air-vapor mixture passed through the test cavity. In addition, it is possible to accurately stabilize the humidity in large volumes of working chambers of industrial models of hygrostats without noticeable complication, as well as improve the accuracy and ensure the uniformity of air and gas humidity measurements.

Claims (1)

A METHOD FOR PRODUCING A VAPOR-AIR MIXTURE WITH A PRESETED HUMIDITY, which consists in periodically supplying a working mixture with humidity that differs from the set one to the hygrostat's working chamber, which differs in that, in order to increase the stability of maintaining a given humidity, the air-vapor mixture is circulated between two cavities into which the hygrostat chamber is divided, and after reaching a predetermined humidity level, the flow rate of the circulating mixture is maintained according to the formula k = VI + (^. ² , where K _st * is the coefficient t stabilization equal to the ratio of the amplitudes of the fluctuations of humidity in the cavities; V is the volume of the cavity in which the tests are performed; F is the flow rate of the circulating mixture, _λ through the cavity in which the tests are carried out; T is the period of humidity fluctuations. ft