SU1062473A2 - Device for protecting recuperators of industrial furnaces at failure of air - Google Patents

Abstract

DEVICE FOR PROTECTION OF RECOVERATORS FURNISHED BY FURNACES UNDER AN EMERGENCY STOPPING OF AIR SUPPLY BY aut. St. No. 1038796, characterized in that, in order to increase reliability and efficiency, the receiving chamber of the ejector is connected to the atmosphere with an additional pipeline with a non-return valve connected with its line of control with a pressure sensor. (L

Description

The invention of kits — installations for the protection of recuperators of industrial furnaces and can be used in various industries of the national economy, where recuperators are used for heating.

A device is known for protecting the heat exchangers of industrial furnaces in case of an emergency shutdown of air supply containing a pressure sensor and a non-return valve installed in the duct to the heat exchanger, respectively, and a coolant pipe connected to the duct electrically connected to the pressure sensor Cl.

A disadvantage of this device is the high flow rate of the cooling medium and the stoppage of the combustion in the furnace with an emergency air supply.

According to the main author. St. 1038796, a device is known for protecting the heat exchangers of industrial furnaces in case of emergency supply of air, which contains a pressure sensor and a check valve installed in the duct to the heat exchanger downstream, respectively, and a coolant pipe connected to the duct with a regulating member connected. This control line with the pressure sensor and the injector, the working nozzle of which is connected to the coolant pipeline, and the receiving chamber and the diffuser to the air duct, respectively, before and after the non-return valve 1: 2 downstream.

However, the determination of the hydraulic resistance in case of an emergency shutdown of the air supply requires an additional flow of cooling medium, which reduces the reliability of the device and its efficiency.

The purpose of the invention is to increase reliability and efficiency.

The goal is achieved by the fact that in the device containing installed in the duct to the heat exchanger downstream, respectively, pressure sensors and non-return valve and connected to the duct cooling medium with a regulating body connected by a control line with the said sensor pressure and injector torus working nozzle of which connected to the coolant pipeline, and the receiving chamber and the diffuser to the duct, respectively, before and after the check valve along the flow path, the receiving chamber of the ejector under lyuchena to the atmosphere by means of a conduit dopol1Y1telnogo rbratnym valve, its associated control line from the pressure sensor.

The drawing shows a diagram of the described device.

The device comprises a pressure sensor 3 and a check valve 4 installed in duct 1 to the heat exchanger 2, respectively, and a pipe 5 connected to the duct 1 by cooling the medium with a regulator 6 connected by a control line about pressure sensor 3. A device with an injector 7 holder, the working nozzle 8 of which is connected to the cooling medium pipeline S, a diffuser of 10 g to the duct 1 in the zone between the check valve 4 and the recuperator 2, and the receiving chamber 9 to the same duct 1 in the zone between the check valve 4 and sensor 3 pressure not. The receiving chamber 9 of the ejector 7 is connected to the atmosphere by means of an additional pipeline 11 with a check valve 12 connected by its control line with the sensor 3 of pressure.

The device works as follows. .

When the air supply to the duct 1 is abnormal, the pressure drops and the signal from the pressure sensor 3 opens the regulator b in the pipe 5. The cooling medium, such as water vapor, enters the working nozzles 8 of the injector 7 through the pipe 5, in the receiving chamber 9 of which underpressure. Under its action, the check valve 12 is opened and through the additional pipe 11, and also partially through the duct 1, air from the atmosphere enters the injector 7, which is displaced with steam, and this mixture under pressure enters the recuperator 2, cools it, and then goes to the burners furnaces where it is used to burn fuel. Since pressure is created in the duct 1 after the non-return valve 4, the valve 4 is automatically closed.

When the air supply is restored, the blower device in the duct 1 in front of the valve 4 creates pressure and, according to a signal from the pressure sensor 3, the regulator 6 stops the flow of cooling through the pipeline 5. In this case, the pressure in the duct 1 to the check valve 4 becomes greater than the pressure after it, and the check valve 4 opens, providing air to the heat exchanger 2. Under the action of overpressure in the duct 1, the check valve 12 on the additional pipe 11 closes, thereby preventing air from leaking into the atmosphere.

As check valves 4 and 12, cut-off valves can be used) 10624734

In case of emergency stop of control with sensor 3 of pressure of air supply both to the automatics, the panes that must be connected to the heat exchangers are controlled and the manual protection mode is increased in the described device.

Claims (1)

A DEVICE FOR PROTECTING RECOVERERS OF INDUSTRIAL FURNACES DURING AN EMERGENCY TERMINATION OF AIR SUPPLY by ed. St. No. 1038796, characterized in that, in order to increase reliability and economy, the receiving chamber of the ejector is connected to the atmosphere by means of an additional pipe with a check valve connected ’by its control line to the pressure sensor. SU t. 1062473