RU2064145C1 - Condensing plant - Google Patents

Abstract

FIELD: power engineering; hot water production. SUBSTANCE: plant has heat exchanger with water delivery and drain pipings, steam piping, and condensate discharge piping; outlet end of the latter is connected to condensate header mounted level with heat exchanger. Jet pump is mounted on condensate piping and connected to steam piping and/or to water delivery piping by means of pipelines incorporating respective control valves. EFFECT: improved design. 1 dwg

Description

 The invention relates to condensation units and can be used in the energy industry to produce hot water due to steam condensation.

 A condensing installation is known that contains a heat exchanger with pressure and drain water pipelines, an inlet steam line and a discharge condensate pipe, a condensate collector and a jet pump are connected to its output end, while the condensate collector is installed below the heat exchanger, the jet pump is installed on the inlet steam pipe and connected to the condensate collector with a recirculation steam line. (British Patent N 1263254, class B 1 B 2 H, 1968).

 This installation has low efficiency due to the low degree of utilization of the heat of the supplied steam, in particular it is impossible to use at least partially the heat of the removed condensate.

 Due to the fact that the condensate collector is located below the heat exchanger, the condensate not only does not cool below the condensation temperature, but with it there is a breakthrough of steam (span steam) into the condensate collector, which leads to a low degree of heat utilization of the supplied steam, and low efficiency of the installation as a whole.

 Due to the fact that the jet pump is installed on the inlet steam line and is connected to the condensate collector by a recirculation steam line, it returns the overflow steam and does not contribute in any way to the use of part of the heat in the condensate.

 The closest in technical essence and the achieved effect to the claimed one is a condensation unit containing a heat exchanger with pressure and drain water pipelines, an inlet steam pipe and a discharge condensate pipe, a condensate collector and a jet pump connected to its output end, while the condensate collector is installed below the heat exchanger, the jet pump is installed on the inlet steam line and connected to the condensate collector by a recirculation steam line, and a bypass l is located around the jet pump Iniya with a control valve (A. s. USSR N 681313, class F 28 V 1/00, 1979).

 This installation also has low efficiency due to the low degree of heat utilization of the supplied steam, and also does not provide the possibility of using some of the heat of the condensate.

 Due to the fact that the condensate collector is located below the heat exchanger, the condensate not only does not cool below the condensation temperature, but with it there is a span of passing steam into the condensate collector, which leads to a low degree of heat utilization of the supply steam and low efficiency of the installation as a whole.

 Due to the fact that the jet pump is installed on the inlet steam line and is connected to the condensate collector by a recirculation steam line, it returns the overflow steam and does not contribute in any way to the use of part of the heat in the condensate.

 Due to the fact that a bypass line with a control valve is located around the jet pump, part of the steam flowing around the jet pump is regulated, which also does not contribute to the use of part of the heat in the condensate.

 The objective of the invention is to increase efficiency by increasing the degree of utilization of the heat of the supplied steam, in particular due to the possibility of using part of the heat of the removed condensate.

 To solve the problem, a condensing unit containing a heat exchanger with pressure and drain water pipelines, an inlet steam pipe and a discharge condensate pipe, a condensate collector and a jet pump are connected to its output end, according to the invention, it is equipped with pipelines with control valves, and the condensate collector is installed at the level of the heat exchanger, and the jet the pump is installed on the outlet condensate line and is connected to the inlet steam and / or pressure water supply by means of utyh pipelines.

 Due to the fact that the condensate collector is installed at the heat exchanger level, the condensate level is set in the heat exchanger corresponding to the level in the condensate collector, and it becomes possible to use part of the heat in the condensate.

 Due to the fact that the jet pump is installed on the outlet condensate line and connected to the inlet steam line and / or pressure water line through pipelines with control valves, it is possible to maintain the level of condensate in the heat exchanger at any mode at a value at which there is a complete condensation of steam and cooling the condensate to the required temperatures; this allows you to increase to the maximum possible degree of utilization of the heat contained in the steam.

 The drawing shows a diagram of a condensation installation. The condensation installation includes a heat exchanger 1 with pressure 2 and drain 3 water supply pipes, a supply line 4 and a discharge condensate line 5, to the output end of which a condensate collector 6 is installed, installed at the level of the heat exchanger 1, a jet pump 7 installed on the condensate line 5 and connected to the supply line 4 and / or pressure pipe 2 through pipelines 8 and 6 with control valves 10 and 11, respectively.

 Condensation unit operates as follows. Heated water is supplied through heat supply pipe 2 to heat exchanger 1, which, after heating, is removed from it through a drain water pipe 3. Heating steam is supplied to heat exchanger 1 through supply pipe 4, which condenses in it, and condensate is discharged through condensate discharge pipe 5 to condensate collector 6. Level condensate in the heat exchanger is set depending on the height of the condensate collector 6 and the operation mode of the jet pump 7. Ultimately, by supplying steam through line 8 through regulator 10, go water along line 9 of regulator 11, the water level is set so that the whole condensed feed steam and the condensate is cooled to a temperature close to the temperature of the heated water.

 If the condensate level in the heat exchanger 1 is high, then the steam will not be able to condense in it in the required amount and it would be necessary to reduce the steam flow rate if it were not possible to reduce the condensate level using a jet pump.

 If the level, on the contrary, is low, then the condensate will not have time to cool to a temperature close to the temperature of the heated water; in this case, it is necessary to reduce the flow of steam through the pipe 8 or water through the pipe 9, which is carried out by control valves 10 and 11, respectively.

 Thus, the invention improves the degree of utilization of the heat of the supplied steam, which leads to an increase in the efficiency of the condensation unit as a whole.

Claims (1)

 A condensing installation comprising a heat exchanger with pressure and drain water pipes, an inlet steam line and a discharge condensate pipe, a condensate collector and a jet pump connected to its output end, characterized in that it is equipped with pipelines with control valves, the condensate collector being installed at the level of the heat exchanger, and the jet pump on the outlet condensate line and is connected to the inlet steam line and / or pressure water supply line via the said pipelines.