SU377604A1 - TUBULAR HEATER - Google Patents

Description

one

This invention relates to preheaters with an intermediate heat transfer fluid, for example, in a de-melt nitrate nitrate salts of hydrogen. and potassium and can be used in gas fields in gas drying installations, as well as in the oil processing and chemical industries :.

Tubular preheaters for heating liquid or gaseous media are known, comprising a housing filled with a liquid intermediate heat carrier, a heat pipe located inside the housing and a tubular coil to pass the heated medium between the housing and the flame tube.

Dryness, a specific feature of the heaters of this type, is that the heating process AND: the cooling of the intermediate coolant occurs under conditions of free convection, with no boiling mode, which is especially important in field conditions of gas fields, where the use of pumping devices for creating a forced circulation of the intermediate coolant.

Known heaters of this type have a flame tube and a cylindrical gas duct, which leads to the formation of stagnant zones. In the case volume occupied by the intermediate coolant due to mutual interference, the downhole, their rise and their flow during the circulation of the intermediate coolant.

This leads to heat transfer intensity.

In order to intensify heat exchange between the heat-giving surface of the flame tube and the heat-receiving surface of the tubular coil for the heated medium in the proposed tubular heater, the flame tube is made in the form of a vertical rectangular duct, the ratio of height to width is less than eight, and the coil tubes are located in planes, parallel to the vertical walls of the box. The body of the heater is shaped like a box.

Between the coil and the walls of the box installed thermosiphon partition.

FIG. 1 shows the proposed heater, longitudinal vertical and transverse sections; in fig. 2 - cross section of the upper part of the heater.

The heater includes a housing /, a box 2 coaxially aligned with it, a tubular coil 3 placed between the box and the walls of the case. The case is rigidly mounted on the frame 4. A burner 6 and a smoke pipe are mounted between the coil 3 and the box 2 pipe 7. Housing / top closed with a cover 8.

(The heater works as follows.

The fuel supplied to the burners 6, burns in the box 2, and high-temperature combustion products through the walls of the box 2 transfer their heat to the intermediate heat transfer fluid located in the housing /. In addition, the daily heat transfer fluid, in turn, ne-i radiates its heat through the walls of the pipes of the coil 3, the heated medium.

. Box 2 is made and installed in such a way that its height is not less than eight times its width.

As a result, the extent of the surface along which the upward flows of the intermediate heat transfer medium occur, is important, which is important for the intensification of heat transfer during free convection.

To create a more intensive directional circulation of the intermediate coolant in the entire volume of the housing /, which is able to prevent the formation of stagnant calls, between the walls of the duct 2 and the coil 3, parallel to them a thermosyphon partition 5 attached to the hull l. There are gaps between the BOTTOM and the upper edges of the partition 5 and the bottom surface of the housing / and the lid 8.

During operation of the preheater along the vertical wall of the duct 2 and the plane in which the pipes of the coil 3 are located, two interconnected columns of the intermediate heating medium with different densities are formed, the difference of which determines the circulation rate. The greater the density difference between the intermediate coolant in these tables and the higher their height, the higher the circulation rate and the intensity of heat transfer.

The subject invented

Claims (3)

1. A tubular heater for heating liquid or gaseous media, comprising a housing filled with a liquid intermediate heat carrier, a heat pipe located inside the housing to a tubular coil placed between the housing and the heat pipe to allow the heated medium to pass through, in order to intensify the heat exchange, the heat pipe is made in the form of a vertical rectangular duct whose ratio of height to width is at least eight, and the coil tubes are located in planes parallel to the vertical Tenko box. 2. A heater according to claim 1, characterized in that the housing has a shape similar to a box shape. 3. Heater on PP. 1 and 2, characterized in that a thermosiphon partition is installed between the coil and the walls of the box. X NpodijKma login tb8 3 / i ji-t -ABOUT X Rig 1 Fig 2