SU987350A1 - Deaerator - Google Patents

Description

(54) DEAERATOR

The invention relates to energy, and more specifically to devices for de-aeration, and can be used: - as a deaerator insert for steam turbine condenser condensers.

A deaeration condensate trap containing a drainage perforated water distributor connected to the discharge nozzle, a bubbling sheet installed under the last one, and a Perovaya chamber connected to the recirculation line, and a partition with a throttle window, separating the condensate and the flow of the condenser, is placed in a flow controller. the water distributor has an additional steam chamber, bounded above by the water distribution section. The bubble sheet and the water distribution section are located behind the additional chamber and are set inclined to the horizontal plane ti.

The disadvantage of such a deaeration condensate drain is the need to supply T1od a bubbling sheet of heating steam consumption and low efficiency of deaeration at variable loads with fluctuations in the flow rate of the steam vapor.

A deaerator is known, which contains a container with supply and discharge devices, with a hollow perforated cylinder installed in it, in the internal cavity of which a perforated plate is placed, connected with a rod with a vibrator 2.

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In this deaerator, the condensate enters the hollow cylinder from the tank through perforation in the cylinder walls, where it is subjected to cavitational action of a plate connected to

15 with a vibrator, as a result of which gas bubbles are generated and grow in the condensate, but the complex hydrodynamic conditions do not allow a significant amount of bubbles to be released from the condensate, i.e. deaeration of the condensate is practically not carried out, and gas bubbles along with the condensate stream are discharged from these tanks, thereby deteriorating the conditions for the operation of condensate pumps and regenerative heaters.

The purpose of the invention is to increase efficiency.

The goal is achieved by

30 that an overflow plate is additionally installed in the tank, in which a perforated cylinder fastened to its bottom is placed, and the water supply device is designed as a perforated tray placed above the last one. The drawing shows a separator combined with a steam turbine condenser, a general view.

The deaerator contains a container 1 with devices 2 and 3 for supplying and discharging water (steam condensate) and a hollow perforated installed in it | cylinder 4, in the internal cavity of which a perforated plate 5 is placed, connected by a rod 6 with a vibrator 7. An overflow plate 8 is installed in the tank 1, in which a perforated CYLINDER 4 is fastened to its bottom, and the water supply device 2 is arranged as perforated above the last one tray,

The deaerator works as follows.

The sub condensate deaeration condensate from the steam turbine condenser through the feeder 2, made in the form of a perforated tray, jets out into a hollow perforated cylinder 4, where it is exposed to a perforated plate 5, vibrating arms with a frequency of 5000-6000 vibrations per minute and with an amplitude of oscillation 2 -10 mm. The vapor-gas mixture discharged during the deaeration process is directed upwards and discharged through the nozzle.

The deaerated condensate is discharged through the perforations of the hollow cylinder 4 into the overflow plate 8, through its edges it is drained by gravity to the bottom of the tank 1 and discharged through the device 3 of the condensate drain.

The use of the deaerator of the proposed design will ensure the independence of the efficiency of deaeration from the load, reducing the size and weight of the deaeration condensate trap. When performing this installation, it is possible to provide oxygen content in the feed water of not more than 0.01 mg / kg and free carbon dioxide of 0.03 mg / kg and reduce energy costs for condensate deaeration.

Claims (2)

1. Author's certificate of the USSR 566112, cl. F 28 B 9/08, 1974. 2. Authors, certificate of the USSR. 137931, cl. C 02 F 1/36, 1960.