SU129642A1 - Fluid Transfer Apparatus - Google Patents

Description

A known apparatus for pumping liquids, containing a vessel with inlets and valves for the next filling of the pumped liquid and for subsequent pressure or pressure, periolonically created above the liquid mirror.

The described apparatus for pumping liquids, in contrast to the known, is equipped with a remote evaporation device and a spool valve. The remote evaporator has a device for external heating. The spool device is connected to a magnetic gas analyzer for automatically depressing the vapor pressure from the apparatus to the condenser.

The apparatus can be used for transferring, for example, easily evaporating pure liquids, in particular the liquefied gases of the nitrogenous production.

The drawing shows a diagram of the apparatus. The vessel 1 from the lower part has an inlet valve 2, an outlet valve. 3, 4 for supplying fluid and a pipe 5 for withdrawing it. By means of a siphon tube 6, the cavity of the vessel / is connected to the external evaporator 7 with a device for external heating. The upper part of the vessel / is connected by means of a tube 8 with an evaporator 7 and through a tube 9 with the upper cavity of the membrane box 10; the membrane // (the piston can also be used) is connected to the drainage automatic valve 12. The lower cavity of the membrane box is connected to the intermediate tank 13. On the tube 9 there is a spool controlled by a magnetic gas analyzer of continuous action.

When using the apparatus, for example, at the KGPZO oxygen installation, the process of pumping liquid oxygen is carried out in the following way.

After the separator apparatus of the plant is cooled, it is prepared for normal operation (for oxygen extraction) with the

No. 129642-2 -

To valve 14, the liquid kx.orod under the action of static forces (the apparatus is located below the condenser) opens the inlet valve 2 and fills the vessel / up to those until the siphon starts to work. Drain valve 12 during vessel closure / open.

When the siphon is working, a part of the liquid enters the evaporator 7, which has a significant temperature head. Very rapid evaporation occurs, the pressure in the evaporator and vessel increases sharply, the vapor rushes through the open valve 12, the lower cavity of the membrane box 10, the membrane // bends and closes the drain valve 12. Yes, the bottom of the membrane box rapidly impinges, but pressure on the clanan keeps it in a closed state. The pressure from the evaporator 7 and vessel rises — the liquid and some of the vapor from the vessel are removed through the exhaust valve to the main heat exchanger.

In order to create primary conditions for refilling the vessel / liquid, it is necessary to relieve pressure from the vessel.

Through the pipe 9 and the valve of oxygen Lara Pass into the upper half of the membrane box 10 and create pressure in it. The membrane bends and opens the drain valve 12.

The pressure drops. From the top of the membrane box, gaseous oxygen flows back into the vessel / and out through the open drainage valve 12 to the condenser. In order to avoid pulsations in the condenser, the vapors discharged through the membrane box from the vessel / and the evaporator 7 must pass through the intermediate tank 13 or from the tank, cooled with cold nitrogen gas.

After the pressure in the vessel 1 is reduced, it is filled with liquid, and the cycle of the test box is repeated.

Subject and s about b) e te

An apparatus for pumping liquids containing a vessel with inlets and valves in them for the next filling with the pumped liquid and for its subsequent emptying under pressure periodically created above the liquid mirror, characterized in that the device is equipped with a siphon tube to automate the transfer process tubes with a FOOTNESS evaporator with a device for external heating and a spool device connected to an automatic gas analyzer for automatic depressurization of vapor from the apparatus ata to a condenser.