SU741916A1 - Gas purification apparatus - Google Patents

Description

The invention relates to the technique of wet gas cleaning and relates to adjustable devices for the wet cleaning of process gases of various types of steelmaking, blast furnace and other types of production, which allow maintaining a constant dust collection efficiency when the flow rate of the gases being cleaned changes. A device for cleaning gas of the venturi type is known. scrubber 1. It is also known a device for purifying a gas in the form of a Venturi tube comprising a diffuser and a confuser, within which an axis is installed to have a core for regulating the flow area, a piston connected to the lower part of the core And a spool-type distributor installed in the diffuser vessel hydrolines. However, in such a device, the load on the core as it moves downwards is greater than when it moves upward, due to the pressure drop of the gas, as well as due to the intrinsic mass of the core. The purpose of the invention is to increase the reliability of a gas purification device and enhance its functionality. This is achieved due to the fact that the device is equipped with a throttle and a check valve connected in parallel, mounted on a hydraulic line connecting the lower cavity of the vessel to the spool distributor. The inlet of the check valve is connected to the spool distributor, and a spool located on the hydrolines between the spool distributor and the vessel with zhiokost.

The drawing is a diagram of the proposed device.

The device is made in the form of a Venturi tube with a confueor 1 and a diffuser 2, a core 3 is installed in the confuser, to the bottom of which is attached a piston 4 located in a vessel 5 filled with hydraulic transmission fluid. A fairing 6 is installed in front of the confuser. Hydrolines 7 and 8 are connected to the upper and lower cavities of vessel 5, supplying the working fluid to the vessel for moving the piston and the core connected to it. On hydrolines 7 and 8, a controlled proportional spool-type distributor 9 is installed that distributes the working fluid to the upper or lower cavities of the vessel 5 with automatic control of the core movement.

On the hydroline 8, which connects the lower cavity of the vessel 5 with the controlled proportional spool distributor 9, are installed in parallel, interconnected check valve 1O and throttle 11, ensuring equal speeds of movement of the core 3 when it moves up and down. the inlet of the check valve 10 is connected to a controlled proportional spool-type distributor 9, and the outlet to the cavity of the vessel 5. On the hydrolines

7 and 8, a locking spool 12 is installed between the controlled proportional spool-type distributor 9 and the vessel 5, which cuts off the cavities of the vessel 5 from the output channels of the controlled proportional spool-type distributor 9, and the locking core 3 is in a certain position. On the sleeves 13 and 14, in parallel with the controlled proportional spool-type switchgear 9, a spool 15 of manual remote control is installed.

The device for gas cleaning works as follows.

Exhaust gases enter the annular gap formed by the confuser 1 and the core 3. An irrigating fluid is fed into the gap, which is sprayed with passing gases acquiring a velocity of up to 100 m / s in the gap. There is a cleaning and cooling of gases. The optimal degree of gas purification

significant fluctuations in their consumption are maintained by moving the core. With increasing gas flow in accordance with the external control signal. From the automatic regulation system 16, the controlled proportional spool-type distributor 9 directs the working fluid along the hydraulic line 8 through the check valve 10 into the lower cavity of the vessel 5. The piston 4 with the core 3 moves upwards, increasing the annular cross-section for the passage of gases. At the same time, the cavity of the vessel 5 through the hydroline 7 and the controlled proportional spool valve distributor is connected with the drain of the power supply system.

When gas consumption decreases in accordance with the external control signal from the automatic control system 16, the controlled proportional spool valve 9 directs the working fluid through the hydraulic line to the upper cavity of the vessel 5, the piston 4 with the core 3 moves down, reducing the annular section for the passage of gases. In this case, the lower cavity of the vessel 5 along the hydroline 8 through the throttle 11 and the controlled proportional spool distributor is connected to the drain of the power supply system.

The throttle 11 throttles the flow of the working fluid, compensating for the increase in the speed of movement of the piston 4 with the core 3 down, caused by the increased load on the core 3 due to the differential pressure and the core's own mass.

When the automatic regulation of the movement of the core 3 stops abruptly, the locking slide valve cuts off the cavities of the vessel 5 from the output channels of the controlled proportional spool distributor 9 and fixes the core 3 in a certain position.

The spool 15 of the manual remote control 1fi feed on it. A connected control signal connects the cavities of the vessel 5 through hydrolines 13 and 14, respectively, with a head or drain of the power supply system.

Thus, the proposed device makes it possible to increase the reliability of the automatic regulation of the movement of the regulatory body, which increases

Claims (1)

Claim A device for gas purification in the form of a Venturi pipe, including a diffuser and a confuser, inside of which an axis is installed for regulating the flow area, a piston connected to the lower part of the core and located in a vessel with liquid, a spool-type distributor installed in the diffuser, connected to the vessel by hydraulic lines , characterized in that, in order to increase reliability and expand functionality, the device is equipped with a drossel and a check valve connected in parallel, installed on the hydraulic line connecting the lower 5th cavity of the vessel with the spool distributor, the inlet of the non-return valve is connected to the spool distributor, and the outlet with the cavity of the vessel and the blocking spool10 located on the hydraulic lines between the spool distributor and the vessel with liquid.