SU976335A1 - Device for producing vapor-gas mixtures - Google Patents

Description

(5) DEVICE FOR PREPARATIONS OF FINGER-GAS MIXTURES

Claims (2)

The invention relates to a measurement technique and can be used for calibration and calibration of gas analyzers. A device for preparing gas-vapor mixtures is known, which includes a diffusion liquid vapor metering device and a mixing chamber located in a thermostat, a meter, a flow meter, and a pump 1 3. A disadvantage of this device is the high error due to the low degree of accuracy of the temperature of the diffusion liquid vapor metering device the fact that the flow of carrier gas, the passage through the mixing chamber, introduces a disturbance in the operation of the thermostat. The closest to the invention to the technical essence is a device for the preparation of vapor-gas mixtures, which contains a pneumatic power unit and a flow meter connected in series, a heat exchanger and a mixing chamber placed in a thermostat with a diffusion liquid vapor metering device 2. A disadvantage of the known device is low accuracy and efficiency due to limited range of concentrations and nomenclature of the prepared mixtures, as it does not allow the use of liquid for the preparation of mixtures. ture Cpd boiling below ambient temperature. The aim of the invention is to improve the accuracy and efficiency of the device by expanding the concentration ranges and the nomenclature of the prepared mixtures. This goal is achieved in that the device further comprises a carrier gas flow stabilizer,. connected to the power supply unit and the output to the flow meter, the bypass; a line with an adjustable choke installed on it and connected to the output of the mixing chamber and to the heat exchanger inlet, and a blend selection unit with outlet nozzles, with a Reset connection, consisting of adjustable unregulated chokes connected in parallel to the output of the mixing chamber, and a switch whose inputs are connected to the outputs of the chokes, and the outputs to the output connections, while the output of one of the chokes is connected to the reset connection. In addition, the flow stabilizer is made in the form of a throttle, a reference element, a setpoint adjuster and a pneumatic amplifier, one input of which is connected to the power supply unit and the other to the output of a comparison element connected to the output inputs of the setting adjuster, a throttle and a power amplifier, while the setting input is connected with the power supply unit, and the outlet of the pneumatic amplifier through the choke is connected to the inlet of the flow meter, and the thermostat and the heat exchanger are made in the form of thermoelectric coolers-coolers. The drawing shows a block diagram of a device for preparing gas-vapor mixtures. The device consists of a pneumatic power supply unit 1, a flow rate stabilizer 2, a carrier gas consisting of a pressure transmitter 3, connected in series pneumatic amplifier k, throttles 5 and a comparison element 6, a flow meter 7, a mixing chamber 8, a bypass line 9 with an adjustable throttle valve 10, a heat exchanger 11, a diffusion metering device 12 placed in a thermostat 13 together with a mixing chamber 8, the output of which is connected to a blend AND selection unit containing adjustable and non-adjustable chokes 15 and switch 16, outputs connected to you odnymi nozzles 17Blok selection 1 mixture comprises dump conduit 18 connected to the output of one of the throttles 15Ustroystvo operates as follows. The carrier gas, the passage through the stabilizer 2 flow rate, the flow meter is divided into two streams 7 times, we understand most of it passes through the bypass line 9 and the throttle 10. The second significantly smaller part of the stream enters the heat exchanger 11, in which it is heated to the temperature maintained in the mixing chamber 8 by a thermostat 13 The vapor of the liquid located 97 54 s in the dispenser 12 is diffused into the mixing chamber B and mixed with the flow of carrier gas. At the outlet of the mixing chamber 8, two previously separated gas streams are mixed and fed into the blend selection unit H, in which the gas-vapor mixture is distributed between the consumers (gas analyzers) using chokes 15 and switch 16. When the load changes at the output of the device, the flow rate of the carrier gas changes. This leads to a change in the pressure drop at the throttle S, whereby the comparison element 6 generates an error signal, which is fed to the input of the pneumatic amplifier k, and the latter compensates for the change in flow. When calibrating gas analyzers, the gas-vapor mixture does not require such significant costs, which are provided by the source of calibration gas-vapor mixtures. In addition, at high flow rates, a significant load resistance occurs, which, in turn, impairs the operation of flow rate stabilizer 2. Mixture selection unit k helps to ease the operation of flow rate stabilizer 2. At the same time, the required flow rate of the vapor-gas mixture in the load is established with the help of throttles 15. The concentration of the vapor-gas mixture C is determined by the formula g - L where m is the metering capacity; V is the flow rate of the resulting mixture, at microconcentrations, almost equal to the flow rate of the carrier gas, which is measured by the flow meter. The thermostat 13 and the heat exchanger 11, made in the form of thermoelectric heaters-refrigerators, allow the operating temperature of the device to be set over a wide range, both above and below the ambient temperature. To maintain the thermostat and heat exchanger at a predetermined temperature and eliminate the influence of the changing carrier gas flow on the operation of the diffusion liquid vapor metering device, the throttle 10 is adjusted so that the flow rate of the carrier gas in the mixing chamber 18 is constant as the main flow rate changes. 5. 9 The application of the proposed invention will eliminate the influence of the load resistance on the flow rate of the carrier gas, which will increase the accuracy of the gas-aerator of the lubricators designed for technological processes and environmental pollution control by 3 times, and the range of the obtained concentrations will be 0.1-0.001 mg. Claim 1. Device for preparation of vapor-gas mixtures, containing a pneumatic power unit, connected in series a flow meter, a heat exchanger and a mixing chamber placed in a thermostat with a diffusion metering unit for liquid, in order to increase the accuracy and efficiency of the device by expanding the ranges concentrations and nomenclature of the prepared mixtures, it additionally contains a carrier gas stabilizer, connected to the power supply unit, and the output - to the flow rate a bypass line with an adjustable choke installed on it and connected to the output of the mixing chamber and to the heat exchanger inlet, and a blend selection unit with outlet nozzles, a discharge nozzle consisting of adjustable and 5 non-adjustable chokes connected in parallel to the output of the mixing chamber, and switch, the inputs of which are connected to the outputs of the chokes, and the outputs - with the output nozzles, while the output of one of the chokes is connected to the reset nozzle. 2, The apparatus according to claim 1, wherein the flow rate stabilizer is designed as a throttle, a comparison element, a dial and an air booster, one input of which is connected to the power supply and the other to the output of the comparison element connected respectively. the corresponding inputs to the outputs of the setpoint, the throttle and the pneumatic amplifier, while the input of the setting device is connected to the power supply unit, and the output of the pneumatic amplifier is connected to the input of the flow meter via the choke. 3. The device according to claim 1, which is based on the fact that the thermostat and heat sinks are made in the form of thermoelectric heaters - refrigerators. Sources of information taken into account in the examination. 1. Daylidov N.A. and others. Diffusion method of preparing air-vapor mixtures. Severodonetsk, 2. Dodi I. I. et al. Diffusion Dispenser for Liquid Vapors .- Measuring Equipment, 1977i N 7. p. 76-78.