CS251273B1 - Hand analyzer of carbon dioxide content in flue gases - Google Patents

Abstract

The handheld analyzer is designed for determination carbon dioxide content in the smoke gases. It consists of transparent container in which the measuring tube is located and counter. Transparent container is with the device cover it passes through two-way valve control button and valve. The length of the scale is the height of the liquid compartment that is determined by the distance of the bottom of the transparent container from the bulkhead and the height of the smoke compartment gas that is determined by the distance of the bulkhead from the lid.

Description

BACKGROUND OF THE INVENTION The present invention relates to a hand-held analyzer for the content of carbon dioxide in the flue gases by means of an absorption method.

In the prior art absorption apparatus, the gas to be analyzed is sucked into the apparatus by means of a probe introduced into the flue gas flow through a filter using a rubber balloon with non-return valves.

Here, carbon dioxide is absorbed in the potassium hydroxide solution.

The loss of carbon dioxide absorbed will result in a vacuum in the device. The vacuum in the device is equalized to the atmospheric pressure by means of a flexible diaphragm. The actual carbon dioxide content of the flue gas is then subtracted as the height of the liquid column in the transparent tube of the apparatus, which is fitted with a carbon dioxide percentage scale on its side.

The disadvantage of the device is a relatively densified scale, which complicates the reading. When reading, it is necessary to wait for some time for the foam to disintegrate around the meniscus of the liquid column. The carbon dioxide reading scale has a relatively dense division, making the reading more difficult. The vacuum in the instrument is equalized with atmospheric pressure by pressing the valve before reading. The liquid column is lifted in the measuring tube.

Since the measuring tube is located inside the instrument and the scale outside the instrument, a parallax error may occur when reading. If two measurements were taken in succession, the untreated potassium hydroxide from the two-way valve is sprayed in the form of small droplets into the surroundings and thus onto the hands of the operator. Older devices exhibit non-linearity due to membrane fatigue.

These disadvantages are solved by a handheld carbon dioxide analyzer of the flue gases according to the invention, characterized in that a transparent vessel is provided with a baffle to limit the volume of the flue gas, which at the same time separates the flue gas from the surface of the sorbent liquid. provided with a device cover through which the two-way valve control buttons and the valve connecting the measuring tube to the atmosphere pass.

The length of the measuring scale consists of the height of the liquid compartment determined by the distance of the bulkhead from the bottom of the instrument and 2 height of the flue gas space determined by the distance of the bulkhead from the lid.

The measuring tube is located close to the transparent wall of the device or forms a common part with the wall.

The advantage of the solution according to the invention is the extension of the length of the measuring scale, which facilitates the reading of the level or the carbon dioxide content and does not cause a parallax error. The housing of the instrument prevents splashes of potassium hydroxide from spilling the measurement worker.

An exemplary embodiment of the apparatus according to the invention is shown in the drawing, where an axial section of the apparatus in its basic position is shown.

The body of the apparatus comprises a transparent container 7 in which the partition 2, the lid 2 / screw 8 and the housing 4 of the apparatus are suitably fastened. 2_ partition passes the measuring tube 5 which is sealingly connected with the cover 2 ^{in the} lid 2 · ³ and located way valve 2 · cover 2 passes through the valve into the measuring tube T_ 2 ·

The function of the device according to the invention is as follows: after the screw 2 ^has been turned, the device ^is filled with an absorption liquid which is 20% potassium hydroxide. The level of the absorption liquid reaches when the measuring tube 2 is completely filled into the cut-out in the partition 2 in the device itself.

The basic instrument position is the vertical position with the instrument cover 2 up. Before starting the measurement, the instrument is tilted about 100-120 degrees along the axis so that after the instrument is tilted, the measuring tube 5 is oriented in such a way that the gas phase is completely emptied into the instrument space.

Then, the device is folded back to its basic vertical position. The instrument is thus ready for measurement. A non-drawn rubber suction balloon provided with non-return valves is connected to the two-way valve 6, further connected to a filter and a tube which is inserted as a probe into the flow of measured flue gas.

The two-way valve 6 is pressed, then the rubber suction balloon is pressed 20 times in succession to feed the flue gas into the apparatus. When the balloon is pressed 20 times, the two-way valve <5 is released and the instrument is disconnected from the balloon. Shake the device briefly to the sides 10 times. In the steam space, a spill is formed consisting of a solution of potassium hydroxide and carbon dioxide from the flue gas.

Next, the valve 2 which connects the measuring tube 5 with the ambient atmosphere is pressed.

The valve 7 is released after the level has stabilized in the measuring tube 5. The carbon dioxide content of the flue gas to be measured is read on the scale. If the shaking of the device is repeated repeatedly and the pressure in the measuring tube 5 changes when the valve 8 is pressed, this means that the absorption liquid is approaching its exhaustion and needs to be replaced.

To change the absorbing liquid, unscrew the screw 8 from the instrument, tilt the instrument so that liquid from the measuring tube flows into the instrument, press valve 2 and hold the instrument at an inclined angle so that the liquid flows out smoothly without bubbling into the sink. .

The device can be used to control the combustion processes of solid, liquid and gaseous fuels where no combustion control has yet been performed. These are especially small boiler rooms, ceramic and glass furnaces, dryers, etc.

Claims (1)

SUBJECT OF THE INVENTION A flue gas carbon dioxide analyzer consisting of a transparent vessel, a measuring tube cap, a two-way valve, a valve and a screw, characterized in that there is a baffle (2) in the transparent vessel (1) defining the flue gas volume and a measuring tube (5). the length of the specific scale is formed by the height of the liquid space determined by the distance of the partition (2) from the bottom (9) of the transparent vessel (1) and the height of the flue gas space determined by the distance of the partition (2) from the lid (3); is provided with a device cover (4) through which the two-way valve control button (6) and the valve control button (7) pass.