RU14638U1 - TUBULAR FURNACE - Google Patents

Description

The utility model relates to tube furnaces for installations of oil refineries.

Known tube furnace containing radiation and convection chambers and vertical flare (see catalog VNIIEFTEMASH, "Tube furnaces TSINTIHIMNEFTEMASH, M. 1990. p. 8).

The closest in technical essence is the tube furnace selected by the applicant for the prototype, containing radiation and convection chambers located in the lower corners of the nozzle (burner) radiation chamber with the direction of the flame at an angle (see av. St. 174308, F23D14 / 00 1965) .

A disadvantage of the known devices is the unreliability of operation at increased productivity when burning combined fuel, since coking of the wall is observed.

The technical problem to which the utility model is directed is to increase the reliability of the tube furnace when burning combined fuel at refineries, improve environmental conditions by reducing carbon monoxide and nitrogen oxides as a result of the merging of the opposite flares in the center of the furnace into one common luminous stream without touching the pipes tube screens of the radiation chamber.

The solution of this problem is caused by the fact that the tubular furnace containing convection and radiation chambers located in the lower corners of the radiation chamber of the nozzle (burner) with the direction of the flame at an angle, coils placed in the chambers, according to the utility model, nozzles (burner) located in the lower the corners of the radiation chamber are installed at an angle of 30-60 relative to the horizontal plane with the formation of a common axial flame torch.

In FIG. 1 shows a section of a tubular furnace with an arrangement in the lower corners of nozzles (burners) at an angle of 30-60 relative to the horizon.

lations located in the lower corners of the radiation chamber 1 of the nozzle 3 (burner), installed at an angle of 30-60 ° relative to the horizontal plane with the formation of a common axial flame torch, coils 4, 5 located in the radiation and convection chambers. The tube furnace works as follows: The oil enters the coil 5 of the convection chamber 2, heating up from the combustion gases, enters the coil 4 of the radiation chamber 1 and is heated by the emission of torches and combustion gases and exits the tube furnace. Fuel burns in inclined torches emanating from nozzles (burners) installed at an angle of 30-60 °, which form a common axial vertical glowing flame torch. The gas stream in the middle of the radiation chamber gives off heat to the tube screen, heating the oil product and the combustion gases enter the convection chamber, where heat is transferred to the pipes of the coil 3 of the convection chamber 2, heating the oil product.

The proposed tube furnace due to the location of nozzles (burners) in the lower corners of the radiation chamber at an angle of 30-60 ° to the horizontal plane increases the reliability of its operation for burning combined fuel at refineries, as a result of the formation of a common axial flame torch leading to favorable environmental conditions (reduction carbon monoxide and nitrogen oxides) and ease of maintenance of the burner unit.

Applicant-patent holder LLC NPK "Cedar-89 General Director. Baklashov

Claims (1)

A tube furnace containing radiation and convection chambers located in the lower corners of the radiation chamber of the nozzle (burner) with an angle of flame, coils placed in the chambers, characterized in that the nozzle (burner) located in the lower corners of the radiation chamber 30-60 ^o relative to the horizontal plane with the formation of a common axial flame torch.