RU78569U1 - CONDENSER PIPE DEFECTION DEVICE - Google Patents

Abstract

The inventive utility model relates to a device for determining the tightness and can be used to determine the tightness of the condenser tubes of steam turbines. The problem solved by the utility model is to increase the efficiency of defect detection by obtaining a stable state of foam capable of creating a thin film when applied to the open ends of the condenser tubes. The essence of the utility model is that in the device for detecting condenser tubes, including a mixer, taps for connecting a source of compressed air and supplying a solution of a foaming surfactant, a shut-off valve, a nozzle for foam exit, it is proposed, in a mixer, to a branch for connecting a source compressed air, attach the perforated tube, and the nozzle is made in the form of a corrugated hose. In addition, it is proposed that a bell with a ring of elastic material be attached to the corrugated hose, and the ratio of the diameter of the corrugated hose to its length is 1: 20 ÷ 30. Using the proposed device for the detection of condenser tubes will increase the reliability and accuracy of determining defective condenser tubes by obtaining a stable state of the foam, capable of creating a thin film when applied to the open ends of the condenser tubes. As a result of this, under-generation of electricity is associated with a reduction in the duration of repair work.

Description

The inventive utility model relates to a device for determining the tightness and can be used to determine the tightness of the condenser tubes of steam turbines.

Condensers with fresh or marine cooling water are widely used in the energy sector. Corrosion and erosion wear of structural materials of condenser tubes and contamination of the cooling medium by corrosion products shorten the duration of the heat exchange equipment and lead to failure of the condenser tubes and apparatus, which is in a closed cycle of technological processes. Damage to heat exchange equipment has a negative impact on the reliability and efficiency of power equipment. Due to reduced load and downtime to eliminate leaks in the heat exchange surfaces of steam generators, high and low pressure heaters, condensers of nuclear power units, under-generation occurs.

In the prior art, technical solutions related to devices for detecting defects in capacitor tubes have been discovered. A device is known for determining the tightness of a tube bundle of a heat exchanger (RF patent for the invention No. 1396709).

The closest analogue of the claimed utility model is described in the invention "Method for testing the tightness of hollow equipment for petroleum products" (RF patent for the invention No. 712713). A device is known for determining the tightness of hollow equipment, including a mixer, taps for connecting a source of compressed air and supplying a solution of a foaming surfactant,

shut-off valve, foam outlet. The foam formed in the specified device is applied to the surface of the equipment to determine its tightness.

The disadvantage of the closest analogue is the low efficiency and reliability of the detection due to the unstable state of the foam applied to the surface of the equipment.

The problem solved by the utility model is to increase the efficiency of defect detection by obtaining a stable state of foam capable of creating a thin film when applied to the open ends of the condenser tubes.

The essence of the utility model is that in the device for detecting condenser tubes, including a mixer, taps for connecting a source of compressed air and supplying a solution of a foaming surfactant, a shut-off valve, a nozzle for foam exit, it is proposed, in a mixer, to a branch for connecting a source compressed air, attach the perforated tube, and the nozzle is made in the form of a corrugated hose. In addition, it is proposed that a bell with a ring of elastic material be attached to the corrugated hose, and the ratio of the diameter of the corrugated hose to its length is 1: 20 ÷ 30.

The use of a perforated tube in the lower part of the mixer allows you to create aeration over the entire area of the mixer, which contributes to a more uniform foam formation. The implementation of the pipe in the form of a corrugated hose promotes the separation of moisture on its ribs during the movement of the foam, which leads to a smaller fraction of the foam. And the proposed ratio of diameter and length makes it possible to avoid the release of an aqueous solution or an inhomogeneous foam having little resistance. As a result, the corrugated hose in compliance with the proposed ratio of diameter and length allows you to maintain stability, uniformity

foam, with which it is possible to reliably identify defective capacitor tubes.

The device for detecting capacitor tubes is shown in figure 1. and includes a mixer 1, an outlet for connecting a source of compressed air 2 with a shut-off valve 3 and an outlet for supplying a solution of a foaming surfactant 4, a pipe for the exit of foam 5 with a socket 6 attached to it with a ring of elastic material 7. To the outlet for connecting compressed air source 2 attached perforated tube 8.

The operation of the device is as follows. In the mixer 1 through the outlet for supplying a solution of a foaming surfactant 4 is fed a solution of a foaming substance. When air is supplied to the mixer 1 through a perforated tube 8, intensive aeration of the foaming solution occurs. The resulting foam accumulates in the upper part of the mixer 1 and through the nozzle for the exit of foam 5 through the socket 6 comes out and is applied to the open ends of the condenser tubes 9 of the condenser 10. The foam flow is regulated by a shut-off valve 3. To apply a thin layer of foam to the open ends of the condenser tubes 9 on the bell 6 is attached a ring of elastic material 6. In the case of destruction or retraction of the film bubbles in the hole of any condenser tube 9, the foam is re-applied to this place. The constant destruction or retraction of the soap film inside the condenser tube 9 confirms the presence of a defect.

Using the proposed device for the detection of condenser tubes will increase the reliability and accuracy of determining defective condenser tubes by obtaining a stable state of the foam, capable of creating a thin film when applied to the open ends of the condenser tubes. As a result, it decreases

under-generation of electricity associated with a reduction in the duration of repair work.

Claims (3)

1. A device for detecting condenser tubes, including a mixer, taps for connecting a source of compressed air and supplying a solution of a foaming surfactant, a shut-off valve, a nozzle for outputting foam, characterized in that a perforated tube is connected to a tap for connecting a source of compressed air in the mixer, and the pipe is made in the form of a corrugated hose. 2. The device according to claim 1, characterized in that a bell with a ring of elastic material is attached to the corrugated hose. 3. The device according to claim 1, characterized in that the ratio of the diameter of the corrugated hose to its length is 1: 20 ÷ 30.