RU2597535C2 - Spark trap, flame arrester, capacitor (icf 1.0) - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to equipment intended to prevent propagation of a fire in industrial communications, in technological processes, trapping solvent vapors in ventilation systems, catching solid aerosol particles in ventilation systems in paint workshops of metallurgical, refractory, construction, machine building, wood processing, oil production, oil refining and other industries, as well as in ecological processes of cleaning ventilation emissions. Device for catching sparks, solvent vapors, solid aerosol particles and localisation of flame in ventilation systems includes a metal housing with lateral inlet and outlet pipes for gas-air flow, alternating sections of vertical and helical-coil metal tubes filled with coolant, tube attached to sections for feeding the coolant, metal vessel in the upper part of the apparatus with a tube for removal of waste coolant, horizontally mounted small-sized meshed grid in the lower part of the housing to catch solid particles and tube to remove condensate discharge of solvent vapors.

EFFECT: use of the disclosed device enables a combined protection from possible sources of ignition and combustion products, higher reliability, reduction of aerodynamic resistance of the device, lower power consumption, higher efficiency of spark trapping, higher efficiency of flame arresting, more efficient catching of aerosol particles, condensing and catching solvent vapors.

1 cl, 3 dwg

Description

The invention relates to equipment designed to prevent the spread of fire in industrial communications, in technological processes, capture of solvent vapors in ventilation systems, capture of solid aerosol particles in ventilation systems of paint and varnish workshops of the metallurgical, refractory, construction, engineering, woodworking, oil producing, oil refining and other industries industry, as well as in environmental processes for cleaning ventilation emissions.

The closest in technical essence and the achieved effect is a fire arrester with a vertical or horizontal metal mesh [Fire safety of industrial enterprises and the agro-industrial complex: Textbook. for fire school B.C. Kuban, A.P. Petrov, B.C. Ryabikov. - M .: Stroyizdat., 1987], which is a metal casing enlarged with respect to the diameter of the pipeline being protected, connected by flange connections to the pipeline, with metal grilles installed inside the casing.

The disadvantage of this design of the device is the low ability of the flame arrester to localize the flame, the short operating time of the flame arrester, high aerodynamic resistance to flow.

The technical task of the invention is the development of a spark arrester, a flame arrester for ventilation systems, which allows to reduce the hydraulic resistance of the flame arrester due to the streamlined shape of the piping of the lattice, to catch and condense solvent vapors, to increase the service life of the flame arrester.

The technical task of the invention is achieved by the fact that in the fire arrester, which includes a metal casing with side nozzles for the inlet and outlet of the air flow, alternating sections of vertical and coil metal tubes filled with refrigerant, a tube connected to the sections for supplying refrigerant, a metal tank in the upper part of the apparatus with a tube for removing spent refrigerant horizontally mounted with a fine mesh grate in the lower part of the housing for collecting particulate matter and a tube for the removal of condensate from solvent vapors, it is new that eight alternating sections of vertical and coil metal tubes filled with refrigerant are installed in the body of the flame arrester, a tube connected to sections for supplying refrigerant, a metal container in the upper part of the apparatus with a tube for removing spent refrigerant, a fine mesh grill in the lower part for capture of solid particles and a pipe for removal of condensate of solvent vapors.

The technical result of the invention is to increase the efficiency and quality of cleaning of the vapors removed from the place of painting, protection against sparks and flame propagation, ensuring a long service life due to the strength and integrity of the device, the duration of the fire arrester, low aerodynamic resistance to flow, the duration of the fire arrester, the compactness of the apparatus, simplicity in operation.

In FIG. 1 is a diagram of the IPC 1.0; FIG. 2 is a cross section of the apparatus AA, in FIG. 3 is a cross section BB of the tube systems from the input side of the gas flow.

IPK 1.0 consists of a rectangular housing 1, an inlet pipe 2, a system of sections of vertical tubes 3, coil tubes 4, tubes for supplying refrigerant 5, a fine mesh wire 6, a condensate drain tube 7, a refrigerant discharge tube 8, a tank connection capacity 9, refrigerant 10 sealed seals 11, the outlet pipe 12.

IPK 1.0 works as follows.

The gas stream through the inlet pipe 2 enters the system of sections of vertical and coil tubes 3-4, where the solvent vapor is cooled by the refrigerant 10, condenses and flows through the fine-mesh metal mesh 6 into the condensate drain pipe 7. The cleaned gas-air stream passes through the outlet pipe 12 from the device and continues to move through the ventilation system.

Cooling is provided by the refrigerant circulating in the tubes 3, 4 10. Sparks and flame, together with the gas flow through the inlet 2, enter the system of sections of the vertical 3 and coil 4 tubes, are quenched and fall down due to cooling and collision with the tubes, lingering on a fine mesh metal mesh 6. The solvent condensate passes through the metal mesh 6 and is removed through the pipe 7.

Cooling is provided by means of the refrigerant 10 circulating in the tubes 3-4, which is fed into the tube 5 and the waste spent through the tube 8 is removed.

Using the proposed IPC 1.0 allows you to:

- carry out combined protection against possible sources of ignition and combustion products;

- increase the reliability of the work;

- reduce the aerodynamic drag of the device;

- reduce energy costs;

- increase the efficiency of spark capture;

- increase the efficiency of flame arresters;

- increase the capture of aerosol particles;

- Condensate and drain solvent from the system.

Claims (1)

A device for capturing sparks, solvent vapors, solid aerosol particles and flame localization in ventilation systems, including a metal casing with lateral air inlet and outlet nozzles, alternating sections of vertical and serpentine metal tubes filled with refrigerant, a tube connected to sections for supplying refrigerant, a metal container in the upper part of the device with a tube for removing spent refrigerant, a horizontally installed fine mesh grill in the lower part of the body and for trapping solid particles and a pipe for removing condensate from solvent vapors.

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