SU1679111A1 - Safety valve for reservoirs with oil and oil products - Google Patents

Abstract

The invention can be used to equip tanks with low excess pressure during storage or transportation of petroleum and petroleum products. The purpose of the invention is to increase the reliability of the safety valve by reducing the hydraulic resistance at the first moment of its operation. An annular chamber 2 is formed around the outlet nozzle, filled with liquid medium 4, into which the crown is immersed. The crown is made in the form of a stop valve body that covers the outlet nozzle. The rod 5 is rigidly connected to the bottom of the glass; aerodynamic blades 2 are mounted on the free end. turbines Rod 5 is passed along the axis of the pipe 3 sludge (L C

Description

The invention relates to a valve and can be used to equip tanks with a small excess pressure used in oil production and oil refining brooks during storage or transportation of oil and oil products.

The aim of the invention is to increase the reliability of operation by reducing the hydraulic resistance at the first moment of valve actuation.

FIG. 1 schematically shows a safety valve; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a section BB in FIG. one.

The device consists of a cover 1, which acts as a locking member, made in the form of an inverted glass, the crown of which is made in the form of rotational blades 2 (such as a gas turbine), and immersed in an annular chamber 3 filled around the outlet pipe and filled with liquid 4 on the rod 5 passed through the centering sleeve 6 along the axis of the inlet nozzle.

In the lower part of the rod 5, aerodynamic blades 7 are mounted, which play the role of an aerodynamic lift.

A safety valve is mounted on the flange of the light hatch 8 of the tank 9. In the lower part of the light hatch on the nozzle 10 a flame arrester is mounted 11

The safety valve operates as follows.

When the pressure in tank 10 is exceeded above a predetermined limit as a result of the breakthrough of large volumes of associated gas, cap 1 rises and its lower part leaves the annular chamber 3 behind vj

ABOUT

full liquid medium 4 by an amount equal to half of the specified differential. At this point, the effective area of the cover 1 has a static force equal to the product of the pressure in the tank by the effective area of the bottom of the cover 1.

At the moment the rotational vanes 2 emerge from the liquid medium 4, the gas entering the reservoir bursts through them. At the same time, the following forces begin to act on the cover 1: the force of rotation formed during the passage of gas through the rotation blades 2, the lifting force formed when the cover 1 rotates, the gas flows around the aerodynamic blades 7, and the frontal resistance that acts on the aerodynamic blade, and the kinematic energy of the gas flow.

Under the action of a pulse of aerodynamic lifting force, the valve cap flies up to the stop and, rubbing the rotational speed, slowly goes down. As a result of this force, the valve cap floats at a high altitude, providing significantly less hydraulic resistance to the passage of large volumes of bursting gas bubbles, and especially at the first moment of valve actuation. After the pressure has been relieved, the rod 5 slides along the centering sleeve b and the side of the cover is lowered into the annular chamber 3, sealing the gas space of the tank.

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For locking elements of greater mass on the pressure in the reservoir of 1200–1600 Pa, aerodynamic blades made in the form of helical blades can be installed in the throat of the skylight, and their interaction with the lid can be carried out through the axis according to the lead screw (not shown).

When an emergency vacuum is created in the gas space of the reservoir (rupture of the pipeline), the liquid medium 4 is thrown into the annular chamber 3 not occupied by the rotation blades 2. It should be noted that an emergency vacuum occurs extremely rarely and the self-repair of the valve in this case is not necessary.

Claims (1)

Invention Formula A safety valve for tanks with oil and oil products, around the outlet pipe of which a spear chamber is formed, filled with a liquid medium in which a crown of a closure member designed as a cup covering the outlet pipe is immersed, in order to increase the reliability of the valve rigidly connected to the bottom of the glass by a rod, on the free end of which aerodynamic blades are installed, and the crown of the glass is made in the form of a gas turbine, with the said rod being omitted on the axis of the inlet. 1k