SU890350A1 - Device for calibrating and testing gygrometers - Google Patents

Description

(54) DEVICE FOR CALIBRATION AND TESTING

one

The invention relates to a measurement technique, in particular to hygrometry, and can be used in all sectors of the national economy for calibrating and checking hygrometers.

Devices for calibrating and calibrating hygrometers are known, which implement the two-pressure method for producing gas with known humidity. Such devices, which are wet gas generators, contain a liquid thermostat, a gas preparation unit, temperature and pressure meters, a humidity transducer chamber, as well as a satcher made, for example, as a set of vessels connected in series with water filled to a certain level. ,

However, such generators are characterized by low efficiency and insufficient accuracy. The low efficiency of the moistening of the gas stream is due to the small specific surface of the water in the volume of the vessels. The need for HYGROMETERS

radiation of saturated gas leads to an increase in the number of vessels, on. the existence of which, in turn, necessitates the use of a large thermostat and leads to the comparative difficulty of providing small temperature gradients in the cavities of the generator components and, as a result, to a decrease in its accuracy,

A device for calibrating and calibrating hygrometers is known, which contain the same constructive prizak as the above-described device, but the filling device uses a bubble type, made in the form of two coaxial cylinders tl,

Claims (3)

A disadvantage of generators of this type (with a bubbling type saturator) is the restriction of its use at low temperatures for the carrier thermostatting due to the impossibility of sparging gas through an ice layer. - This limits the range of absolute absolute humidity and the range of 3S operating temperatures for obtaining relative humidity. Closest to the invention, there is a generator containing a liquid thermostat, in which a gas preparation unit is placed, temperature and auxiliary meters, a chamber for humidity converters, and a satcher in the form of a vertical set of communicating trays that are filled with water, which leads to the partial elimination of one of the above disadvantages associated with large sizes of saturate and thermostat 2. However, at the same time, low efficiency is characteristic of dp of these generators. It is connected with the fact that the gas flow in a separate plate (as in a separate vessel), most significantly passes along the line of the shortest connection of the gas inlet and outlet points, i.e. in general, ha. practically does not wash the peripheral areas of the water (ice) surface in the plate (vessel). The aim of the invention is to increase both the efficiency and accuracy of the wet gas generator operating at positive and negative temperatures of saturation of the saturation. This goal is achieved in that the device for calibration and calibration of hygrometers containing a liquid thermostat containing a gas preparation unit, temperature and pressure meters, a chamber for humidity converters and a satcher made in the form of a vertical set of communicating plates The plate-like guides are arranged perpendicularly to them, forming a hermetic channel for passing a stream of a gas to be moistened, the channel walls being covered with a layer of water-holding material but . In the particular case, the guide in each plate is arranged in a spiral. The width of the sealed channel and its height Vi are related to each other. The proposed design makes it possible to direct a stream of moistened gas successively along the entire surface of the water in each individual plate and, in addition, to substantially increase (4 times) the surface of water (ice) in the cavity of the saturation due to covering the walls of the channel with a layer of water-holding material filled with water from the bottom of the tray by means of wettability. 0 An increase in the specific surface of the water allows, under other equal conditions (gas flow rate, degree of gas humidification, etc.), to significantly reduce the overall dimensions of the saturation (8 times) and, accordingly, TepviocTat, which causes a decrease in temperature gradients and, as a result, an increase in accuracy generator. FIG. 1 shows schematically the device, a general view; in fig. 2 - a satcher, a general view. The device contains a filter 1 for gas cleaning, a heat exchanger 2, a saturator 3, pressure meters 4 and 5, a temperature meter 6, a working chamber 7 for humidity measuring transducers, a liquid thermostat 8 and fittings 9 and 10 for supplying and discharging gas. The feeder consists of a vertical set of plates 11, gaskets 12 for sealing the plates, flanges 13, and studs 14 for tightening them. The plate 11 contains lamellar guides 15 arranged concentrically relative to the axis of the plate or along an Archimedean spiral, a layer 16 of water-holding material and cyclic transitions 17 for the passage of gas from one plate to another. Before operation, the carrier 3 is filled with distilled water. Water is poured through the outlet 18, fills the upper plate to the side slice level in the cylindrical junction 17 and then flows through this junction to the lower plate and so on until the excess water merges through the junction of the lowermost plate. In this case, a layer of water-retaining material is filled with water by means of wettability. The device works as follows. Gas at elevated pressure is fed through filter 1 and heat exchanger 2 to a saturator. 3. In the saturator, the gas flow passes sequentially through the channels formed by the walls, bottom of the plates and guides, and is saturated with moisture. Next, the gas-vapor mixture passes a pressure regulator, which lowers the pressure of the mixture, enters the working chamber 7 with humidity measuring transducers and then into the atmosphere through fitting 19. When gas flows in the saturator through a channel with a ratio of width (5) to height (Vi) the limits of 0.5–2 create the most favorable conditions for uniform diffusion moistening of all layers of the gas flow both from the surface of the water (ice) 20 and from the side of the water-retaining material, which ensures the maximum possible effective nosti moistening. This device has smaller overall dimensions in comparison with the known ones, greater efficiency of moistening, and thus, provides higher accuracy while saving scarce stainless steel. Claims 1. A device for calibrating and checking hygrometers containing a stiff thermostat in which a gas preparation unit is placed, temperature and pressure meters, a chamber for humidity converters and a saturation device made in the form of a vertical set of communicating 8 No. 0 plates, distinguished by the fact that, in order to increase accuracy and efficiency, lamellar guides are arranged perpendicular to them between the saturating plates, forming a hermetic channel for passing a stream of moistened gas, with the walls of the channel being covered with a layer of water-retaining material. 2. A device according to claim 1, characterized in that the width of the hermetic channel d and its height are related by the ratio 3. p; 9 0.5. 2 3. The device according to claim 1.2, about tl and often so that the guides in the plates are arranged in a spiral. Sources of information taken into account during the examination 1. USSR author's certificate No. 534724, cl. 3 C 01W 1/11, 1973. 2.Berliner M. A. Measuring humidity, M., Energie, 1973, p. 364-367 (prototype)