SU32776A1 - Gas analyzer for automatic determination of carbon dioxide content in flue gases - Google Patents

Description

To automatically determine the carbon dioxide content in the flue gases, a gas analyzer is offered, in which, for the purpose of automatically sucking certain quantities of gas and recording the analysis result on the tape, a water jet pump and a series of communicating vessels are used, automatically stopping the flow of gas sucked by the water jet pump into the vessel, and guiding it into a vessel with caustic alkali.

In FIG. 1 depicts the general scheme of the gas analyzer; FIG. 2, 3 and 4 details.

The proposed gas analyzer (Fig. 1) consists of a water jet pump A, which serves to suck gas from the chimney through pipes 1, 2, which at their lower ends enter the vessel connected by pipes 3, 4 with GN vessels and 5 25, with vessel E communicating with slit 23 with reservoirs W and 3. The latter communicates with reservoir I, equipped with a box K connected with thread 9, slung over blocks 24, with a counterweight. On yarn 9, feather 6 is fortified, tracing on the moving belt Y a graph of the groove volume after COO absorption.

For starting and stopping the tape, the gas analyzer is equipped with a device

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consisting of a lever 3 connected by a system of gears / 5 to the axis of the roller T of the ribbon and held in motion by the teeth 70, 10 on the flexible rod 8. The latter is connected with the protoweigh Ui with the force C, which serves to set in motion the whole device when it is lifted fluid in the vessel R, connected by pipeline / 7 with the vessel G.

For the purpose of pulling off the tape U, a load F was applied, and for securing the latter on the roller tape 16 (Fig. 3).

The device is equipped with an additional tank X with caustic alkali. A siphon 7 serves to divert water from vessel B. To regulate vessel volumes and liquid levels, there is an equalization center C (Fig. 4) consisting of a rubber circle 26 fixed in the vessel wall by a ring 27 with an arc 28, and an adjusting screw 29.

The water jet pump A (Fig. 1), when water passes through, produces a rarefaction in the tube /, in the tank B and the tube 2 going to the chimney, and sucks out the gases in it so that a continuous flow of gas occurs in the whole system while the water flowing from the pump A through the opening 30 to the vessel B, rising in it, will pass through the opening 31 to the vessel D and press on the air in it. The latter, through the tube 3, presses on the water enclosed in the vessel D; therefore, the liquid will go through tube 4 to vessel B and here will close the openings of tubes 7 and 2. At this time, exactly 100 will be in vessel B. see test gas. The gas will no longer pass through the processes of the tubes I and 2 leading to vessel B, but will go through the water valve, as in the ALOS analyzer, therefore, the gas from the chimney will flow continuously.

. The lifting water displaces through the tube 5 the enclosed in the vessel an L 100 cub. see the gas into the absorbed potassium hydroxide solution, the absorption vessel E, where it enters the solution with small bubbles through the openings 25, and the CO2 in this gas is completely absorbed, leaving the same part of the gas, lifting the vessel up, presses on an absorption liquid, which, passing through the openings 25 into the vessel G by the pressure of air which is enclosed in this vessel, is transmitted through the opening 52 into the vessel 5 and, pressing on the fluid contained in this joint, displaces it into the vessel -Sf, where 100 kg / b get there, cm of gas without CO2, absorbed leg in vessel E.

The -0 vessel has a T-shaped overturned look, with the bottom part having a volume of 80 cubic meters. see When the volume of water in the vessel if reaches 80 nub. cm, then, with a further increase in volume, water will begin to lift the piston K, to which thread 5 is attached, slung over blocks 24, at the other end with a load L, whose weight is slightly less than the weight of piston K. When lifting the float, the load L is not sweat thread 5 down, and the feather mounted on it 6 will draw on the moving paper tape U a line proportional to the length of the gas volume exceeding 80 kg / b, cm in vessel E after absorption of COO.

This rise in water and air pressure, displacing liquids and gas in vessels B, C, D, D, E, -M, 3 and I, occurs until a siphon 7 begins to act, calculated so that it can empty the vessel B faster than it is filled with water through the opening 30, and that the gas absorption and measurement process is completed, resulting in the gas analyzer being driven

in the original position. At the same time, gas from the vessel exits through valve 55, water from vessel B goes into vessel. D and valve M closes the flow of gas going again through pipes 7 and 2 to vessel B, expelled from there gas coming from vessel E, which is sucked through pipe 7 and is filled with a new portion of gas through pipe 2 from the chimney. Speed of work, i.e. the frequency of analyzes is regulated by a tap H at the water jet pump A and a tap C of the drain P.

The vessel P with porcine C and flexible tension 8, slung through block 34 and having a load H, is the trigger of the recording instrument and operates as follows. When the vessels C and D are filled with water, the latter, via pipeline 77, enters vessel P and begins to lift piston C, equipped with a flexible rod with W, 10, 72 teeth fixedly fixed on it. When raising the pores, teeth C, 10, 10 touch the trigger device 75, which descends one prong of a ratchet 14 at each cycle of the gas analyzer; this movement of the ratchet is transmitted by gears 75, 75 to the roller D of the tape Y, which is not a load F (Fig. 3), which is moved by hand as it lowers and fixed by a clip. The load F, the tapping tape Y, has an F-shaped slot inside, in which the roller is located when the load F is moved up the belt, the roller 16 allows the tape to move freely in the slot; during the reverse movement, the roller, moving toward the narrow end of the slot, presses the tape against the wall and thereby strengthens the load on the tape motionless.

The prong 72, mounted on the rod 6, when lifting the piston C, touches the bolt 77 on the wheel 18 (Fig. 2) fixedly mounted on the axis 19, and rotates it from right to left against clockwise movement; the prong 20 on the thread 9 when raising the piston / Will touch the pin 27 on the wheel 22 and move it clockwise.

Wheel 22 mounted on axle 19 freely. Piston lift C is designed so that it is lifted slightly earlier than piston K, and therefore, while raising pistons C and K, the wheels will move in opposite directions, and any point on the wheel 22 and the arrow connected to it during each cycle gas analyzer operation will take a strictly defined position, proportional to the increase in the amount of gas in the vessel E more than 80 cubic meters. cm.

Vessel X, containing a supply of caustic potassium solution, through tube 55, as needed, pours it into the vessel.

The subject matter of the invention.

Claims (6)

1. Gas analyzer for automatic determination of carbon dioxide content in flue gases, characterized in that for the purpose of automatically sucking certain quantities of gas and recording the result of the analysis on a tape U, they used: a) water jet pump A, which serves to suck gas through pipes I and 2 into vessel 5 and b) interconnected vessels C, D, D, E, G 3, which, thanks to their definite mutual arrangement, when they are sucked into the vessel B 100 cubic meters. see the test gas with a layer of water coming from filling vessels C to D from vessel D to vessel B using pipes 7 and 2, automatically stopping the further flow of gas into vessel B and directing gas through pipe 5 with holes 25 to vessel E filled caustic with an alkali and then with the pressure (air) of the gas coming from the vessel G into the vessel 3 containing water, passing under the pressure of the gas into the vessel Jf and intended to rise through the pressure of the gas in the vessel And the piston. 2. In the device according to claim 1, use a device for starting and stopping a belt Y consisting of a lever 7J connected by a system of gears / 5 to the axis of the roller T of the tape and driven by the teeth W, 70 on the flexible rod 8 connected with a counterweight Y and a piston C, which serves to set in motion the entire device while raising the liquid in the vessel P connected by pipeline 77 to the vessel G. 3. When using the device according to claims 1 and 2, apply a 0 day load of pulling off the tape U and a roller 76 to secure the load on the tape. 4.When using the device according to claims 1, 2 and 3 use a balancing device D to adjust the volumes of the vessels and the fluid levels consisting of a rubber wheel fixed in the vessel wall by a ring 27 with an arc 28 and an adjusting screw 29. 5. When using the device according to claims 1, 2, 3 and 4 use of an additional tank X with caustic alkali. 6.When using the device according to claims 1, 2, 3, 4 and 5 use siphon 7 for draining water from vessel B and adjusting taps I and O. , | 1 | 4PGG. If fre figs  Sh-sh X35