SU1679167A1 - Condenser horizontal pipe - Google Patents

Abstract

The invention relates to heat engineering and can be used in steam turbine condensers. The purpose of the invention is to intensify heat transfer. The horizontal pipe 1 of the condenser contains transverse ribs 2 with cuts in the lower part having straight sections 3 at an angle to the vertical axis of the pipe. In the lower part of the tube 1 in the plane of the ribs 2 are placed flow-organizing protrusions 5 of a triangular shape. Intensification of heat transfer is achieved by eliminating the flooding of the bottom of the pipe with condensate and reducing the thickness of the film of condensate on the surface of the pipe. 1 il.

Description

The invention relates to heat engineering and can be used in steam turbine condensers in power plants.

The purpose of the invention is to intensify heat transfer.

The drawing shows the proposed pipe.

The horizontal pipe 1 is made with transverse annular ribs 2 having cuts in the lower part, which are made in the form of straight sections 3, located at an acute angle to the vertical axis of the pipe and above the conditional horizontal plane 4 tangent to the lower generator of pipe 1 at an angle to the last preferably at an angle of p not less than 5 °. In the lower part of the pipe 1 in the plane of at least every second edge 2, the sections are additionally arranged with flow-organizing protrusions 5 of a triangular shape, the height of which is equal to the height of the edge 2.

The device works as follows. Condensate formed on pipe 1

flows down the intercostal grooves into the bottom of pipe 1 to the flow-organizing protrusions 5 and is ejected under the action of gravity and accumulated kinematic energy. At the same time, due to the surface tension forces, the condensate film from the smooth bottom surface of the pipe 1 between the ribs 2 is drained from the surface by a flowing stream, thereby preventing flooding of the lower part. pipe 1, the thickness of the flowing stream in the intercostal groove decreases by increasing the rate of condensate discharge in the lower part of the pipe, and thus the heat exchange at the lower part of the pipe is intensified, and the heat transfer coefficient from steam to the outer surface of the pipe increases.

The highest efficiency of the heat-exchange tube is achieved in the case when the sections 3 of the cuts of the fins 2 coincide with the planes that are tangent to

about VI th

V4

at the same time inclined to the horizontal plane at an angle of 5 ° with a slope towards the lower generating pipe 1. In this case, the finning surface is maximal and condensate does not flow along the surface of the rib 2 towards the top of the latter, those. there is no separation of the stream into two streams and turbulence at the location of the separation of the stream, therefore there is no inhibitory effect due to the action of forces in the viscous friction of the flowing stream of condensate and the minimum thickness of the stream in the intercostal space and the minimum thickness of the condensate film at the bottom of the pipe 1 is reached, The latter is provided at the specified angle due to the presence of a smooth surface between the projections 5 in the bottom of the pipe 1 in the case where the projections are located through one edge. At a smaller inclination angle above, cases of condensate leakage along the surface of the rib 2 in the direction of the top of the latter are possible, and the process of condensate condensation from the intercostal space of the bottom part of the pipe 1 worsens, as a result of which the bottom layer of the condensate increases and the heat transfer coefficient of the external surface of the pipe decreases. . With a larger angle of inclination, the surface of the fins decreases, and consequently, the heat transfer coefficient of the outer surface of the pipe 1 decreases,

The use of the invention allows to intensify the heat exchange and increase the coefficient of heat transfer to the outer surface of the pipe.

Claims (1)

Claims of the invention A horizontal condenser tube with transverse annular ribs formed in the lower part with sections that have straight lines arranged symmetrically with the vertical axis of the pipe, characterized in that, in order to intensify heat exchange, at least every second edge in the vertical zone The pipe axes are made with stream-organizing triangular protrusions adjacent to straight linear sections of sections, which are located relative to the mentioned vertical axis at an angle less than 90 °. g