SU920338A1 - Tubular furnace - Google Patents

Description

(5k) TUBULAR OVEN

The invention relates to petroleum and chemical engineering and can be applied in the oil refining, chemical and related industries for heating liquid and gaseous products. A known furnace is a furnace that includes a radiant chamber, shielded by product tubes, and heat pipes inside the product tubes of the LP,. The disadvantages of the known furnace are associated with increased metal intensity of the radiation heating surface and low intensity of operation of the convective heating surface. A tubular furnace is also known in which the radiant a and convective chambers are separated by an annular partition through which the heat pipes are passed, the lower parts of which are placed in the radiant chamber equipped with burner devices and the upper ones inside the vertically arranged pipes of the convective coil .21. However, due to the low heat intensity of the heat exchange surfaces, this furnace does not work effectively. The purpose of the invention is to increase the efficiency of the furnace. The goal is achieved by the fact that the tubular furnace is equipped with a cylindrical insert installed inside the convective chamber with a twisting socket in the frontal part and spiral guides mounted on the inner side of the walls of the convective chamber and the outer side of the walls of the insert. In addition, the vertical pipes of the product coil and the lower ends of the heat pipes should be provided with external fins, and the burner device with a twisting torch.

Intensification of heat exchange is achieved by increasing the thermal stress of the furnace volume of the radiant chamber by organizing the rotational movement of flue gases in the annular convective chamber with lateral washing of the finned product tubes.

FIG. 1 shows a furnace, a cut-out in FIG. 2 shows section A-A in FIG. $ 1 in FIG. 3 twisting socket.

The furnace is enclosed in a solid sealed enclosure 1 with lining, divided into radiant 2 and convective 3 chambers. In the center of the hearth of the radiant chamber 2 is placed the burner k, giving a swirling torch. On the periphery of the radiant chamber 2 placed the heated ends of the heat pipes 5, equipped with fins. The cooled ends 6 of the heat pipes 5 coaxially enter the food coils 7. Inside the convection chamber 3, there is a cylindrical insert 8 with a twisting socket 9 in the frontal part. On the inner side of the walls of the convection chamber 3 and on the outer side of the walls of the insert 8, spiral guides 10 are placed. When burning fuel, a torch of combustion products is formed in the burner, which, passing through a twisting socket $, enter the annular convective chamber 3 where due to the spiral guides 10 an organized washing of the outer surface of the product coil tubes 7 with gases is provided. The heated product receives additional heat from heat pipes 5

The high efficiency of the proposed furnace is associated with a sharp increase in the thermal voltage of the radiation chamber due to the combustion of gas in a coagulated stream. It is warm to

The products are supplied with a relatively low temperature rianope in the coils of the convection chamber, which completely eliminates the uneven heating and the associated possibility of coke formation during heating.

The reliability and high efficiency of the convective heating surface is due to the pre-cooling of flue gases in the radiation section, their twisting at the entrance to the convection chamber and clearly sustained transverse flow around the finned heating surface of the product tubes.

Claims (1)

1. USSR author's certificate N 93606, cl. F 27 B 5/00, 09.21.73. USSR author's certificate , cl. F 27 5/00, 10/25/73 (prototype.).