RU2116598C1 - Air-condensing unit - Google Patents

Abstract

FIELD: heat-transfer apparatuses; steam condensers of steam-turbine plants, ejector coolers; chemical, food, and other industries. SUBSTANCE: air-condensing unit has steam outlet pipe 1, heat-transfer surface 2, intermediate header 3, steam-gas mixture discharge pipe 4, and additional steam supply line with valve 5 running to intermediate header. EFFECT: improved operating reliability of unit.

Description

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

 Known air-condensing installation (VKU) with condensation of steam inside the pipes [1].

 The disadvantage of these devices is the irrational scheme of the movement of the gas-vapor mixture (ASG), since as the steam condenses, the ASG speed quickly decreases, the heat transfer rate decreases and there is a danger of ice falling out at a negative temperature of cooling air.

 Known patterns of movement of ASG in the VKU intermediate collector [2]. The use of an intermediate collector allows to increase the speed of ASG movement and to improve the characteristic of the VKU as a whole.

 The main drawback of this scheme is mainly the danger of ice formation in the pipes after the intermediate collector at a negative temperature of cooling air, when most of the vapor has condensed to the collector, its partial pressure after the collector is small, ice falls on the walls, and pipe destruction is possible.

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

 The essence of the invention lies in the fact that at a negative temperature steam is introduced into the intermediate manifold from an external source, which increases the partial pressure and, therefore, the thermal load of the surface after the intermediate manifold, thereby preventing ice formation and damage to the heating surface.

 As a result of the implementation of this essential feature, the VCU acquires a new property: the possibility of reliable trouble-free operation at low outdoor temperatures.

 The drawing shows a diagram of the device.

 It contains a heat exchange surface 2 with a pipe for supplying steam 1, suction of the vapor-gas mixture 4, intermediate manifold 3, and line 5 with a valve for connecting additional steam is connected to the intermediate manifold.

 Air-condensing installation operates as follows.

 At a positive temperature of cooling air, steam from the pipe 1 enters the heat exchange surface 2, partially condenses in the pipes to the intermediate manifold, then non-condensed steam enters the heat exchange surface after the collector 3 through the collector, additionally condenses, and the gas-vapor mixture is sucked out of the pipe 4. Steam on the line 5 is not served.

 At a negative outside temperature, the steam movement and condensation pattern is maintained, but in the intermediate manifold 3, additional steam is supplied via line 5. As a result, the partial pressure and temperature of the vapor in the vapor-gas mixture after the collector increase, which prevents the formation of ice in the pipes.

 Thanks to the use of the above design solution, reliable and trouble-free operation of the air-condensing unit is ensured at a negative temperature of the cooling air.

Claims (1)

 An air-condensing installation containing a heat exchange surface with steam condensation inside the pipes, a steam supply pipe, a gas-vapor mixture suction and an intermediate manifold, characterized in that a line with an additional steam supply valve is connected to the intermediate manifold.