CS240279B1 - Gas and combustion products moisture measuring device - Google Patents

Abstract

The invention relates to a device for measuring the humidity of gases and waste gases according to the aspiration principle, which device comprises a liquid-filled vessel, with a feed line of the medium to be measured debouching towards the free liquid level of said vessel. Arranged at the bottom of the vessel is a heat flow sensor whose upper measuring surface is in heat contact with the liquid and whose lower measuring surface is in heat contact with the bottom of the vessel, means being provided in the bottom for stabilising the temperature of the vessel.

Description

The invention relates to a moisture measuring device; gases and. flue gas - on the aspiration principle, comprising a container with a liquid against whose free level the inlet flows. measured medium.

Measurement of humidity of gases is. an important task of industrial practice, especially in the last. at a time when the price of energy is constantly rising. Optimization. drying processes, in particular by increasing the humidity of the exhaust air, can reduce the consumption of drying air and thus reduce energy consumption. driers up to half.

This implies the need to measure the humidity of gases, especially air, with great accuracy.

The simplest device. For measuring the humidity of gases there is a so-called psychrometer or aspiration hygrometer, in which the gas at temperature t _s , the so-called dry temperature thermometer, bypasses the conventional instrument. next . a thermometer, so-called wet, provided on its surface with a porous mass, for example a ceramic or a textile, which is permanently wetted by the liquid whose content in the gas to be measured is to be measured. Permanent wetting can be achieved, for example, by the capillary action of said porous mass, for example according to GDR Patent No. 128,952. Evaporated amount. the more liquid is, the drier the bypass gas is. By dissipating the heat required to evaporate the liquid, the thermometer cools. From the known psychrometric equation, the temperature of the porous mass stabilizes after a short time to a value that is indirectly dependent on the bypass gas humidity and the overall energy balance of the wet thermometer.

It measures the aspiration hygrometer most accurately. if all the heat is up. thermometer transmitted by convection from the measured gas, ie when the thermometer - does not bring or dissipate any heat by conduction from the holders, - radiation from the surroundings or radiation -. into the surroundings - or by inlet or outlet. heat contained in the vaporized liquid. In this case, the temperature of the wet thermometer is equal to the so-called. adiabatic limiting saturation temperature, which. . Yippee . - tabulated in wet gas tables.

Aspiration hygrometer. then it is not necessary to 'calibrate', it is enough to measure the dry and wet thermometer temperatures and install them in the appropriate wet gas table.

The actual aspiration hygrometers used in practice do not fulfill the condition. minimal heat exchange with the environment except heat exchange with flowing measured gas. It is therefore necessary to correct the hygrometer, especially with respect to the heat brought in and removed by the holder and the design of the wet thermometer. To improve the overall energy balance, the wet thermometer must be blown off with a gas of min. 1 m / s. and max. approx. 3 '- m / s, depending on the hygrometer design. The surrounding surfaces of the hygrometer are reflective in order to minimize radiation heat exchange. ; ,

The above - deficiencies are eliminated by the measuring device. A gas flow sensor according to the invention, characterized in that a heat flow sensor is placed on the bottom of the vessel, the upper measuring surface of which is in thermal contact with the liquid and the lower measuring surface. Yippee . in Jepelny - contact with the bottom _{of the} container,. wherein means are provided for stabilizing the temperature of the tank.

The essence of the invention is. Further, it can be seen from the drawing that shows an exemplary embodiment of the device according to the invention in schematic cross-section. Copper.,. the brass or aluminum block is here in the form of an open container with a horizontally spaced edge which contains liquid. whose free 'level' is blown by the measured gas.

Apparatus for measuring the humidity of gases and flue gases. The principle of determining the temperature of the dry thermometer and the temperature of the wet thermometer is formed by an open metal container 1 with a horizontally placed upper edge. The container 1 is preferably made of copper, aluminum or brass, i.e. a metal material with a thermal conductivity greater than 50 W / m ° K.

The vessel 1 is filled with a liquid 2, preferably distilled - water or condensate, above whose free level 3 there is a metering gas inlet 4, in which there is still in the metering gas stream 4. a thermometer 5 is placed in front of its 'contact with the surface' 3, indicating the so-called dry thermometer temperature. In container 1, u. of an embodiment in the bottom thereof, there are provided temperature stabilizing means formed by heating or cooling means 6 which are connected to a temperature controller 7. .

The temperature controller 7 is connected to a temperature sensor 8 which is. - located in the bottom of the container 1 - the regulator 7 can be connected. i. with a heat flow sensor 9 disposed at the bottom of the vessel 1. If the heat sensor 9. flow 'is not. connected. The temperature controller is connected to the evaluation device 12, as in the embodiment shown.

The lower measuring surface 10 of the heat flow sensor 9 is in good thermal contact with the bottom of the container 1 and the upper measuring surface 11 is in good thermal contact with the liquid 2.

A cavity is formed in the container body. 13, connected in a known manner to the liquid space 2 and the liquid dispensing device 14. The cavity 13 serves to preheat the liquid. 2 for temperature - container 1.

The heat flux sensor 9 is preferably formed of a differential multi-thermocouple whose measuring ends are disposed on both sides of a thin non-metallic body, such as a wafer. The upper measuring surface 11 of the heat flow sensor 9 may be provided with a reflective coating or foil to limit the effect of radiation on the heat balance of the liquid layer 2.

The container 1 is either filled with liquid 2 to the brim, or the level 3 of the liquid 2 is lower. The upper part of the container 1 can in this case be partially covered and waste openings (not shown) are formed in the peripheral shell of the container.

The temperature of the vessel 1 is stabilized at the temperature of adiabatic saturation of the respective moisture of the measured gas by means of the thermal - or cooling - means 6, the regulator 7 and the temperature sensor 8.

The liquid is supplied from the dispensing device 14 to the cavity 13 where it is preheated to the temperature of the vessel 1. By heating the vessel 1 and the liquid 2 to a temperature close to the measured, the heat transfer between the evaporating liquid 2 and the vessel 1 is minimized.

In the described exemplary embodiment of the device, the horizontal level of the liquid is blown off by the flow of the measured medium, the so-called surface of the wetted liquid is directly its level. The advantage of this device is that if the measured gas is contaminated, the dirt settles at this level 3, from where it is periodically washed away by overflow over the edge of the container 1 whenever the liquid dosing device 14 replenishes the programmed liquid dose 2 in an exemplary distilled water or condensate. , to eliminate scale formation.

A further advantage of an exemplary embodiment of the device according to the invention is that by adjusting the temperature of the stabilization of the vessel -1. - to a value that corresponds to the required humidity, eg in the drain pipe. the drying machine becomes an aspiration - hygrometer at the same time as a control element. For example, if the exhaust air has a lower humidity than the desired humidity, then it is. the limit temperature of adiabatic saturation is higher than the temperature of vessel 1 and the heat flow sensor 9 shows a positive signal. If, on the contrary, the extract air is damper than necessary, then a signal of opposite polarity is received.

Thus, the signal from the heat flow sensor 9 can, after amplification, be used directly to actuate the actuators, for example the amount of exhaust air. In this arrangement, it is desirable that the measured moisture reading does not depend on the temperature of the gas being measured, i.e. the temperature of the dry thermometer.

This dependency is eliminated by passing the measured gas - before it is fed to the vessel - 1 - through a heat exchanger in which it is heated or heated. cooled to a preselected temperature in the range of 60 to 95 ° C.

A further advantage of this arrangement is that part of the - volatile - impurities contained in the - measured - gas during the passage of the exchanger condenses, and thus. reduces contamination of the wetted surface.

In summary, the described method of measuring moisture in the gases of the present invention is the most accurate method of measuring moisture on the aspiration principle so far.

Claims (5)

Apparatus for measuring the humidity of gases and flue gases on the aspiration principle, comprising a vessel with a liquid against which its free level is discharged - a supply of the medium to be measured, - characterized in that a sensor (9) - - the upper measuring surface (11) being in thermal contact with the liquid (2) and the lower measuring surface (10) being in thermal contact with the bottom of the vessel (1) in which the means for stabilizing the temperature of the vessel (1) are stored . Device according to claim 1, characterized in that a cavity (13) is formed in the body of the container (1), connected - on the one hand, to the metering device (14) of the liquid (2), and 11) heat flow sensors (9). 3. The equipment referred to in points 1. and 2, characterized in that the heat flow sensor (9) is a differential multi-thermocouple whose measuring ends are located on both sides of the non-metallic body. Device according to one of Claims 1 to 3, characterized in that the upper measuring surface (11) of the heat flow sensor (9) is covered by a reflective coating or a reflective foil. Device according to one of Claims 1 to 4, characterized in that the vessel (1) is of - a metallic material - having a thermal conductivity greater than 50 W per meter ° K.