SU928291A2 - Salt type humid air generator - Google Patents

Description

(5) WATER AIR SALT GENERATOR

one

The invention relates to special means and equipment, providing the creation of air-vapor mixtures with predetermined parameters of humidity and temperature, intended for testing and graduation of hygrometers.

According to the main author. St. No. 785831 is known for a salt air moisture generator (AGWH), which provides testing and calibration of immersion hygrometers LI}.

At present, flow hygrometers are also widely used in many areas of the national economy. When a flow hygrometer is in operation, a part of the controlled gas (sample) is supplied through a pipeline to the hygrometer sensor installed outside the controlled environment, which makes it possible to carry out the necessary complex of gas sample preparation operations: purge mechanical impurities, change the temperature go

Claims (1)

the required value, to set a predetermined rate of gas flow, etc. The use of strong hygrometers allows, in particular, to solve the problem of controlling and controlling humidity in objects with a controlled gas temperature much higher than the working temperature range of the hygrometer, such as in blast furnaces and thermal ovens, drying chambers. Due to the fact that in the course of sample preparation, a change in its temperature is unavoidable, flow sensors use precision flow meters in primary hygrometers (it is known that the dew point of the gas to be checked at a constant pressure does not depend on the gas temperature). A prerequisite for the use of GWF as a test equipment for flow hygrometers is the ability to carry out the selection of the vapor-air mixture from the GWF to the hygrometer sensor. 392 However, the selection of vapor-air mixture in the well-known GGBB, both in open and closed circuits, is not possible. When sampling a steam-air mixture from SGBV to the hygrometer sensor in an open circuit (SGBB in this case works, tet as a dynamic generator of moist air), the established hygrothermal equilibrium is disturbed in the SGBH working chamber due to the penetration of ambient air into the SGBH working chamber; caused by a decrease in the pressure of the vapor-air mixture. In addition, the continuous mass transfer process of a saturated salt solution with ambient air entering the working chamber causes the solution to go into an unsaturated state, which is an unacceptable deviation of moisture in the AGBW from the value attributed to the pacfBOpy salt used. When selecting a vapor-air mixture from the AGBV to the hygrometer sensor in a closed circuit, the stability of temperature in the working chamber is disturbed in the AGBV due to the entry of the vapor-air mixture into it with a temperature significantly different from the temperature of the working chamber. The known temperatures of the vapor-air mixture entering the working chamber are due to its heat exchange with the ambient air and the hygrometer sensor. Thus, for example, the equilibrium temperature of the heating type sensors may exceed the temperature of the controlled vapor-air mixture in the SO-S C. This goal is achieved by the fact that the AGBV is equipped with a blower located in the plate. The proposed improvement makes it possible to select the vapor-air mixture from the AGBH to the flow hygrometer sensor in a sealed closed circuit, while the AGBB operates in the mode of a static generator of moist air. In order to compensate for the heat that forms the mixture with the impeller impeller when the air mixture is mixed with the impeller, in the proposed device it is located in plastic that has thermal contact with the cold junction of the thermopile. The mentioned differences provide the possibility of calibration with the help of the AGVV flow hygrometers of the dew point p2) of a distinct type with the preservation of high accuracy. FIG. 1 shows the proposed GWHB, general view; in fig. 2 shows section A-A in FIG. 1. AGWT is a thermostat-controlled working chamber 1, in the useful volume of which a cassette 2 is placed, on the underside of which are longitudinal ribs 3, and the inner side is covered with a thin layer of moistened salt crystals k. The cassette is mounted on guides 5. made of heat insulating material and located inside the usable volume on the walls of the duct 6. A fan 7 driven by an electric motor 8 is used to mix the air in the SGVV working chamber. parts are fixed metal plate 9. with an electric heater 10 installed on it. Thermostating in SGBV is carried out by adjusting the power of the electric heater at a constant cooling capacity of the generator ora cold. A thermopile 11 mounted on the outer side of the plate was used as a cold generator. Forced heat removal from the hot junctions of the thermopile is carried out by the radiator 12 blown by the fan 13. The steam-air mixture is taken from the working chamber to the cell of the sensor k by means of a blower 15 located in the plate 9 and driven in (by the electric motor 0. To the diffuser 1b The blower pipe 17 is connected to the blower. In the inner wall of the working chamber there is a heat exchanger 18, the inlet of which is connected to the suction nozzle 19. And the outlet communicates with the usable volume of the working chamber. The explosive is equipped with a removable door 20. The gas turbine working object is sealed with rubber gasket and screws 21. Terminals 22 are mounted on the door 23 of the submersible hygrometers mounted on the inside of the door. the door is sealed by a cover 2. A window through which the Sez cartridge is removed is replaced.The thermometer 25 is designed to measure the temperature in the working chamber 1, the stability of which espechivaets via circuit-torus temperature regulator 26 connected to the electric heater 10. GBS operates as follows. The cell of the flow hygrometer of the dew point 1 is connected to the SGBV process chamber. At the same time, the cell inlet is connected to the injection nozzle 17 and the output nozzle is connected to the suction nozzle 19. Then, a cartridge 2 with moistened salt crystals k is placed into the useful volume of the working chamber 1, the type of which is determined by the desired dew point value. Next, work volume 1 is sealed with a door, after which the thermostatic circuit, the air mixing device are activated and thereby the impeller of the blower 15 moves. After the blower is turned on, the steam-air mixture from the usable working chamber volume goes through the sensor cell C, then the vapor-air mixture through the suction inlet 19 passes into the heat exchanger 18, where it takes the value of the temperature of the vapor-air mixture circulating in the SGBV working chamber and returns to the useful volume working chamber. After attaining hygrothermal equilibrium, the temperature of the vapor-air mixture circulating in the AGWF working chamber is determined from the thermometer 25. From the measured temperature and the graphs of the dependence of the equilibrium humidity on the temperature for the type of salt used, the relative humidity is determined, from which the dew point temperature is calculated. To obtain a new dew point temperature, a cassette with another salt solution is installed into the working chamber through a window sealed by a lid 24. The hygrostat meets the requirements imposed on products of the highest quality category and, by its technical characteristics and design solutions, surpasses the known devices designed for similar purposes. The application of the invention completely solves the problem of metrological provision of a number of flow hygrometers of the dew point in the process of their development, production and operation, as well as during calibration in laboratories. The positive effect of using the invention is also expressed in increasing the accuracy and ensuring the uniformity of measurements of the humidity of air and gases. Claims of invention Salt generator of moist air according to the author. St. No. 785831, characterized in that, in order to ensure the calibration of the dew point point hygrometers, it is equipped with a blower located in the plate. Sources of information taken into account in the examination 1. USSR author's certificate N 735831, cl. G 01 W 1/11, 1979 (prototype).