RU2133002C1 - Air condensing plant - Google Patents

Abstract

FIELD: steam condensers in steam turbines, cooling ejectors and in technological processes of food-processing, chemical and other industries. SUBSTANCE: device includes steam supply manifolds 1, condensate discharge manifold 4 and steam-and-gas mixture manifold 3 and tubular heat-exchanger surface 2. Member 5 made in form of rubber tube and compressible under action of pressure is mounted inside tubes. EFFECT: enhanced operational reliability due to compressible member fitted in tubes at negative outside temperature. 1 dwg

Description

 The invention relates to the field of heat exchangers and can be used as condensers for steam and gas mixture in turbines, ejector coolers, in technological processes in the chemical, food and other industries.

 Air-condensation units with steam condensation inside the pipes are known (see the Guide to heat exchangers, T.G., edited by Martynenko O.G., Mikhalevich A.A., Shikov V.K. M., Energoatomizdat, 1987, p. . 89 - 96).

 The main drawback of these devices is the danger of ice falling out and pipe destruction at a negative air temperature in three parts of the surface where the partial pressure of steam is low.

There are known designs of air-condensing units, in which, to prevent condensate freezing inside the heat exchanger pipe, another pipe is introduced that facilitates the supply of steam to the zone of possible freezing (see German Patent No. 345700, MKL ³ F 28 B 1/06, 1967).

 The above design has the disadvantage that it is difficult to organize the steam ducts, does not provide unconditional protection against freezing, and in the latter case does not save the tube of the heat exchange surface from destruction.

 The purpose of the invention is to increase the reliability of the air-condensing unit at negative outside temperature.

 The essence of the invention lies in the fact that a flexible element (an element compressible under pressure), for example a rubber tube, which can be compressed under the pressure of water inside an ice plug, is introduced into the heat transfer pipe along its entire length or part where it can freeze.

 As a result of the implementation of this essential feature, during the formation of an ice plug, the water pressure inside it compresses the compliant element, but does not destroy the heat-exchange requirement, ensuring its integrity at a negative outside temperature.

 The device diagram is shown in the drawing. The air-condensation installation contains: a collector for supplying steam 1, a tubular heat exchange surface 2, a sludge for the vapor-gas mixture 3 and for collecting condensate 4, malleable elements are installed inside the pipes along the entire length or part thereof. 5.

 The device operates as follows. Steam flows through collector 1 into the pipes 2 and condenses in them, air-cooled condensate flows down into the condensate collection pipe, the vapor-gas mixture is removed through pipe 3. In the event of the formation of an ice plug inside which there is water, as the amount and volume of ice increases, the water compresses malleable element, and pressure is not transmitted to the tubular surface.

 Thanks to the use of the above-mentioned design, the integrity of the tubular surface of the heat exchange is maintained and the reliability of the condenser is increased at a negative temperature of the cooling air.

Claims (1)

 Air-condensation installation, consisting of manifolds for supplying steam, condensate and steam-gas mixture, a tubular heat exchange surface with steam condensation inside pipes equipped with an element installed inside, characterized in that said element is made compressible under pressure, for example, in the form of a rubber tube.