UA63503A - Appliance for waist gas heat utilization - Google Patents

Abstract

Appliance for waist gas heat utilization has combustion chamber with connected to it smoke flue, this is connected in sequence to the channels of heating heat carrier of gas and air heaters, the outlet branch pipes of fuel and air supply of those are connected to the combustion chamber; reactor for fuel conversion, this is connected at the outlet to the branch pipe of fuel supply of the gas-heater, and the circuit of the heating heat carrier of the air heater is connected to the smoke flue directly behind the combustion chamber. The inlet branch pipe of the smoke gas of the fuel reactor conversion supply is connected to the outlet branch pipe of the smoke gas of the additional air heater supply; the circuit of the heating heat carrier of this one is at the outlet connected to the smoke flue.

Description

Description of the invention

The invention relates to the field of heat engineering and can be used in various fuel-using 2 installations.

A known device for heat utilization of exhaust gases, which has a combustion chamber equipped with a chimney, which is connected to the path of the air heater |1). The disadvantage of this device is the incomplete utilization of the heat of exhaust gases and the low reliability of the gas heater.

The closest in terms of technical essence and the result that can be achieved is a device for utilizing the heat of exhaust 70 gases, which has a combustion chamber to which a chimney is connected, which is connected in series with the tracts of the heating coolant of gas and air heaters, the fuel and air supply outlets of which are connected to the combustion chamber and the fuel conversion reactor, which is connected at the inlet to the chimney, and at the outlet to the gas heater fuel supply pipe (2). However, provided that the temperature of the flue gases at the outlet of the gas heater does not exceed 1507C, its heating surface and metal capacity increase significantly. Limiting the size of the heating surface leads to an increase in the temperature of flue gases and, as a result, to a decrease in the reliability of the thrust devices.

The invention is based on the task of improving the heat recovery device by connecting the inlet pipe of the flue gas supply of the fuel conversion reactor with the outlet pipe of the flue gas supply of the additional air heater, and connecting the path of the heating coolant of the additional air heater at the entrance to the chimney.

The problem is solved by the fact that in the device for the utilization of the heat of exhaust gases, which has a combustion chamber with a chimney connected to it, which is connected in series with the heating medium paths of gas and air heaters, the fuel and air supply outlets of which are connected to the chamber combustion, the fuel conversion reactor, which is connected at the outlet to the fuel supply nozzle of the gas heater, and the heating medium path 29 of the air heater is connected to the chimney directly behind the combustion chamber, according to the invention "the inlet nozzle for the supply of flue gases of the fuel conversion reactor is connected to the outlet nozzle for the supply of flue gases of the additional an air heater, the heating coolant path of which is connected to the chimney at the entrance.

The connection of the flue gas inlet of the fuel conversion reactor with the flue gas outlet of the additional air heater and the connection of the heating medium path of the additional air heater at the entrance to the chimney increases the efficiency of the device and the reliability of its operation, increases the service life ("From heavy-duty devices and gas heaters (in 5- 7 times), allows to reduce its metal content.

In fig. the proposed device is presented. It has a combustion chamber 1, which is used for the heat treatment of materials, to the chimney of which an air heater 3 is connected. The tract of the heating coolant of the air heater is connected to the chimney 2 in series with the similar tract of the gas heater 4. The chimney 2 325 is connected to the tract of the heating coolant of the additional air heater 7, which is the outlet the flue gas supply pipe is connected to the draft device 5. At the same time, the draft device 5 is connected to the inlet pipe of the flue gas supply of the fuel conversion reactor 6. The latter is connected to the fuel supply pipe of the gas heater 4. The outlet pipes of the fuel and air supply of the air heater Z and the gas heater 4 " are connected to the combustion chamber 1. From 50 The device works as follows. Combustion products leaving the heating furnace give part of the heat to the air heater Z, and then heat the converted fuel in the gas heater 4. After the gas heater 4, part of the combustion products is directed to the additional air heater 7, from which it is pumped by the thrust device 5 into the fuel conversion reactor b, where it enters into endothermic reactions with organic fuel, as a result of which a new gaseous fuel is created. The latter, after heating in the gas heater 4, enters the combustion chamber 1 for burning, where it is burned in the air, which was first heated in the additional air heater 7, and then reheated in the air heater 3. Since the temperature of the flue gases at the exit from the additional air heater is 50-150 "C, the service life of thrust devices (by 5-7 times) and the gas heater is significantly increased. At the same time, pipelines and other equipment for pumping flue gases can be made of ordinary steel. av! 20 Sources of information 1. Copyright certificate of the USSR Mo205039, class E23I 15/00, 1966. p» 2. Author's certificate of the USSR Mo775593, class E23I 15/00, 1980.

Claims (1)

The formula of the invention » A device for the utilization of the heat of exhaust gases, which contains a combustion chamber with a chimney connected to it, which is connected in series with the tracts of the heating coolant of gas and air heaters, the fuel and air supply outlets of which are connected to the combustion chamber, the conversion reactor fuel, which is combined 60 at the outlet with the fuel supply nozzle of the gas heater, and the path of the heating coolant of the air heater is connected to the chimney directly behind the combustion chamber, which differs in that the inlet nozzle for the supply of flue gases of the fuel conversion reactor is connected to the outlet nozzle for the supply of flue gases of the additional air heater, the path of the heating coolant on the inlet is connected to the chimney. b5