SU1079992A1 - Shell-and-tube heat exchanger - Google Patents

Description

The invention relates to heat exchange equipment and can be used in the energy industry.

Known heat exchanger · containing a bundle of heat exchanger tubes with spacing flexible elements that intertwine tubes in the transverse direction [1].

The disadvantage of this heat exchanger is that during the flow of vapors in the annular space on the spacer elements, condensate film accumulates, which impairs heat transfer.

Closest to the proposed one is a shell-and-tube heat exchanger containing a vertical bundle of heat-exchange tubes fixed in tube sheets and spaced by means of flexible profiled tapes equipped with extrusions in the contact zones with the pipes [U].

However, the shape of the extrusions of the profiled tapes contributes to the continuous drainage of the formed condensate, which reduces the heat transfer coefficient and increases the overall dimensions of the heat exchanger.

The purpose of the invention is the intensification of heat transfer.

This goal is achieved by the fact that in a shell-and-tube heat exchanger containing a vertical bundle of heat-exchange tubes fixed in tube sheets and spaced using flexible profiled tapes provided with extrusions in the contact zones with the tubes, the extrusions are conical and their bases are located in the lower part of the tapes having a width of (1.1 ~ 1.2) d, and the bases of the extrusions are made with a diameter equal to (1., 2-l, 3) d, where d is the outer diameter of the pipes.

In FIG. 1 schematically shows the described heat exchanger; in FIG. 2 ~ spacing unit for heat exchange tubes.

The heat exchanger contains a casing 1, a vertical bundle of heat transfer tubes! 2 fixed in tube sheets 3 and spaced using flexible profiled strips 4, equipped in the contact zones with pipes · 1θ with 2 extrusions 5. The extrusions 5 are made conical and their bases are located in the lower part of the ribbons 4.

During operation of the heat exchanger, steam is supplied into the inter-15 tube space. A heated coolant, for example water, flows inside the pipes 2. The steam, washing the pipes 2, condenses and the formed condensate is discharged from 20 ^t ₽Ub conical extrusions 5 into the annulus. The vibration of the pipes 2 is compensated by flexible tapes 4. The optimum width of the tapes 4 is (1.1-1.2) d, where d is the outside diameter of the pipes 2. With a smaller width of the tapes, the vibration of the pipes 2 is not eliminated, and with a larger width the degree of compensation pipe vibration is kept constant.

The optimal diameter based pads 5 is (l, 2-l, 3) d ₅ since smaller diameter base condensate is not reset with pipes, and flows _g pads 5. Increasing the diameter of ³³ bases 5 pads for optimum range leads to condensation to transfer to the adjacent heat transfer pipes.

The proposed shell-and-tube heat exchanger contributes to the discharge of condensate from the heat exchange pipes and intensifies the heat transfer as a whole.

ВНИИПИ Order 1320/41 Circulation 631 Subscription

Branch of the PPP Patent, Uzhgorod, Project 4,

Claims (1)

A CASED-TUBE HEAT EXCHANGER containing a vertical bundle of heat-exchange tubes fixed in tube sheets and spaced with flexible profiled strips provided with extrusions in the contact zones with the tubes, characterized in that, in order to intensify heat transfer, the extrusions are conical and their bases are located in the lower part of the tapes having a width component (1,1- 1.2) a, with the bases of the extrusions made with a diameter equal to (1.2- 1.3) cL, where d is the outer diameter of the pipes Al 7