SU1558795A1 - Device for condensing hydrocarbon vapours in reservoir for light-evaporable liquids - Google Patents

Abstract

The invention relates to a technique of reducing the loss of organic products from evaporation through the vapor pipes of tanks and containers and reducing the atmosphere pollution with harmful substances during storage and transportation of petroleum products and can be used in the oil industry and refining industry, as well as on vehicles intended for the transport of petroleum products. The purpose of the invention is to increase reliability in operation by eliminating the entrainment of significant amounts of hydrocarbon vapors into the atmosphere during the process of filling the tank while reducing energy consumption. New is the fact that the device is equipped with a casing with air flow swirlers and a mesh basket with absorbent nozzles. In this case, the pipe for the inlet of the vapor-gas medium is placed tangentially in the upper part of the casing, and the bottom of the body is made in the form of a funnel with an offset opening for draining condensate. 4 il.

Description

The invention relates to a technique for reducing the loss of organic products from evaporation through the vapor pipes of tanks and containers and reducing atmospheric pollution with harmful substances during storage and transportation of petroleum products and can be used in the oil industry in the petroleum industry, as well as on vehicles intended for the transport of petroleum products.

The purpose of the invention is to increase reliability in operation by eliminating the entrainment of significant amounts of hydrocarbon vapors into the atmosphere during the process of filling the tank while reducing energy consumption.

Constructive implementation of the elements of the proposed device not only allows you to create conditions during operation, eliminating the costs associated with

coolant supply, but also improve the reliability of the device.

FIG. 1 shows the installation of the device on the tank, a general view; in fig. 2 - a device for condensation of hydrocarbon vapors; in fig. 3 shows section A-A in FIG. 2; in fig. 4 shows a section BB in FIG. 2

A device for condensation of hydrocarbon vapors in a tank for easily evaporating liquids includes a housing 1 with a lid 2, a casing 3 with swirlers 4 air flows, a mesh basket 5 with absorbent nozzles 6 (for example, Rashig rings), a nipple 7 for the inlet of the vapor-gas mixture, located in the upper part of the housing 1 tangentially to it, a pipe 8 for the output of the gas-vapor mixture, a drain pipe 9 connected to the bottom of the housing 1. The casing 3 is concentrically mounted on the housing 1, the mesh basket 5 is placed inside the housing 1, the pipe 8 for the steam output SL

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the gas mixture is placed so that its lower end section is located under the mesh basket 5, while the bottom of the case I is designed as a funnel with an outlet, the axis of which is offset relative to the axis of symmetry of the case 1. The device is installed on the tank 10 equipped with a breathing valve 11 .

The device works as follows.

When filling the tank 10, a pair of hydrocarbons with air through the inlet pipe 7 enters the device. Since the inlet is set tangentially, the flow entering the device is twisted, and a centrifugal force field arises in which hydrocarbons, as a heavier phase, are thrown towards the periphery, i.e. the inner walls of the body the sides due to the casing 3 with the swirlers 4 are cooled by the air flow. This process contributes to the condensation of the heaviest hydrocarbons, which, under the action of two forces - the force of gravity and the force created from swirling flow, having a downward direction, flow down the walls of the body to the absorbing nozzles 6. The hydrocarbons condensed in this way fall onto the nozzles 6 and wetted their surface.

The hydrocarbons, which are not condensed in the upper part of the device, pass through the layer of wetted nozzles, condense and flow as a liquid into the bottom of the funnel, and return through the drain pipe 9 into the tank 10. Air cleared of hydrocarbons, having passed a layer of absorbing nozzles, enters the outlet nozzle 8 and forced out into the atmosphere. The condensation process takes place in the device even when the hydrocarbon vapors, when the ambient temperature rises, leave the vessel filled with liquid. In this case, the flow of hydrocarbon vapors into the device occurs slowly, the flow is not swirled, but even in this case hydrocarbon vapors rush down.

. and, meeting on its way a layer of absorbing nozzles, condense and return to the reservoir.

When emptying the tank, if the layer

absorbing nozzles creates resistance to the free flow of atmospheric air, the breathing valve P activates. The breathing valve also works when the pressure in the container increases significantly. It testifies

on increasing the hydraulic resistance in the layer of moistened absorbing nozzles. In this case, the nozzle needs to be changed. To do this, remove the cover 2 from the housing 1 and remove the mesh

baskets 5 together with nozzles 6. The nozzles are removed from the basket, which is washed and filled with new or cleaned nozzles. The assembly is reversed.

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Claims (1)

Invention Formula A device for condensing hydrocarbon vapors in a tank for easily evaporating liquids, comprising a housing with nozzles for inlet and outlet of the vapor-gas mixture and a drain pipe connected to the bottom of the housing, characterized in that, in order to improve operational reliability by eliminating the entrainment of significant quantities of hydrocarbon vapors the atmosphere in the process of filling the container while reducing energy consumption, the device is equipped with a casing with air flow swirlers concentrically mounted on the housing, and the mesh with a basket with absorbing nozzles placed inside the body; a pipe for the inlet of the gas-vapor mixture is located in the upper part of the body tangentially to it; a pipe for the gas and gas-outlet mixture is placed so that its lower end section located under the net basket, with the bottom of the case made in the form of a funnel with an outlet, the axis of which is offset relative to the axis of symmetry of the case. Fi.Z i H s Fiel