SU1652191A1 - Shipъs system of inert gases - Google Patents

Abstract

This invention relates to shipbuilding, in particular, to the inert gas systems of oil tankers. The purpose of the invention is to increase efficiency and reduce the cost of the system. The inert gas system consists of a receiving pipe 1. connecting the flue 2 of the boiler with chamber 3, gas cleaning and cooling unit 4, gas ducts 5, cooling water pump 6 with discharge pipe 7, non-return device 8, water discharge pipe 9. The chamber 3 is equipped with an acoustic nozzle 10 connected to the steam pipe 11 by means of an electromagnetic 12 and a shut-off valve 13 with pipeline 7 through a shut-off valve 14, as well as a steam injection device 15 connected to the steam pipe 11 by valves 12 and 16. 2 c.p. . f-ly, 1 ill.

Description

The invention relates to shipbuilding, and more particularly to inert gas systems of oil vessels.

The purpose of the invention is to increase the efficiency and reduce the cost of the system.

The drawing shows a diagram of a system of inert gases.

The inert gas system consists of a receiving pipe 1 connecting the chimney 2 of the boiler with a chamber 3, a gas purification and cooling apparatus 4, a gas blower 5, a cooling water pump 6 with a discharge pipe 7, a non-return device 8, and a water discharge pipe 9. The chamber 3 is equipped with an acoustic nozzle 10 connected to the steam line 11 through the solenoid valve 12 and the shutoff valve 13, and to the discharge pipe 7 of the cooling water pump 6 through the shut-off valve 14, and is also equipped with a steam input device 15 connected to the steam line 11 through the electromagnetic valve valve 12 and shutoff valve 16.

The inert gas system operates as follows.

When the inert gas pressure in the tanks decreases to the lower limit, the cooling water pump 6 starts up, which provides water supply to the gas purification and cooling apparatus 4 and its filling through the discharge pipe 7, as well as water supply to the acoustic nozzle 10 through the previously opened shut-off valve 14 After that, one of the two gas blowers 5 starts up. Simultaneously with the start of the gas blowers 5, the electromagnetic valve 12 opens, providing steam from the steam line 11 through the previously opened the flaps 13 and 16 into the acoustic nozzle 10 and the steam input device 15, respectively. In this case, steam is supplied from the steam input device 15 to inert gases previously cooled with the aid of the acoustic nozzle 10, followed by supersaturation of the gases with steam and steam condensation. Steam condensation occurs on the soot particles present in the inert gas stream with the formation of a water film on them. During the movement of the gas-vapor flow through the inert gas pipeline from the chamber 3 to the gas purification and cooling apparatus 4, soot particles are deposited on the condensate droplets due to the adhesion forces acting between them. When a combined-gas stream of inert gases passes through the gas purification and cooling apparatus 4, soot particles coated with a film of water and condensate droplets with soot particles deposited on them are in contact with water supplied to the apparatus by a cooling water pump 6 and, as a result, are removed from the apparatus together with water pipeline 9 draining water. '

After exiting the apparatus 4, inert gases enter one of the gas blowers 5, the non-return device 8, followed by distribution through the deck highway to the tanks.

After the gas blower 5 stops working, the cooling water pump 6 is turned off and the electromagnetic valve 12 is closed.

Similarly, the inert gas system works during unloading, washing of tanks, inertization of empty tanks when changing the atmosphere from air to inert.

Claims (3)

Claim 1. A ship system of inert gases, comprising an apparatus for cleaning and cooling the gases of ship's boilers, a chamber with a liquid atomizer and inlet and outlet nozzles, installed in front of the apparatus for cleaning and cooling of inert gases, a gas blower, a non-return device, a cooling water pump interconnected by pipelines, characterized in order to increase the efficiency and reduce the cost of the system, the camera is equipped with a device for introducing steam into the inert gas stream located in it between the liquid atomizer and the outlet pipe lump of the chamber and made with the possibility of connecting with the steam line of humanity, and the liquid atomizer is made in the form of an acoustic nozzle having the ability to connect with the steam pipe of humanity and the cooling water pipeline. 2. The system according to claim 1, characterized in that the steam input device is located in the chamber along its longitudinal axis. 3. The system according to claims 1 and 2, characterized by the fact that the acoustic nozzle is located in the chamber along its longitudinal axis.