SU911118A1 - Device for shot-blast cleaning of heating surfaces - Google Patents

Description

The invention relates to devices for fractional cleaning of convective surfaces of boilers and can be used in power engineering, in particular in boiler building.

A device for fractional cleaning of heating surfaces is known, in which between the water jacket and the shot chute body there is a coaxially installed pipe forming a tight annular gap with the shot chute body and the jacket is brought to the jacket outside the boiler volume. The hermetic annular gap is partially filled with water and forms an intermediate cooling circuit.

In the lateral supply of the shot, an additional internal cavity for the cooling water circulation is formed in the upper part of the shot chute body, separated by a partition from the total volume of the shot chute chute.

The water in the hermetic annular gap receives heat from the flue gas washing the shot-cleaning device, boils, steam rises along the annular gap up, condenses, giving off heat to the cooling water, condensate flows down and the process goes on continuously 11.

The disadvantages of the known device include the fact that in the variant with a lateral supply of fraction to estrus, the internal cooling cavity is separated from the volume of the boiler only by a partition. Any damage to this partition leads to the entry of cooling water into the volume of the boiler, which reduces the reliability of the device and the boiler as a whole.

In addition, there are various temperature lengthening of the shell of the shot and the outer tube, as a result of which additional stresses arise which can lead to a breakdown of the tightness of the welds of the end caps, which again reduces the reliability of the system.

The aim of the invention is to improve the reliability of the chute with lateral fraction supply by preventing cooling water from the inner cavity from entering the boiler volume and compensating for uneven temperature lengthening of the pipes, as well as simplifying manufacture and repair.

This goal is achieved by the fact that the device for fractional cleaning of heating surfaces has an additional branch pipe worn on the side

a pipe with a gap, with the ends of the additional pipe being sealed to the side pipe and to the outer tube.

The drawing shows the device obtion view.

The device consists of chaff with a side feed, the body 1 of which is made in the form of a hollow cylindrical tube with retarders 2, a spreader 3 and a side feed 4 fractions. An outer tube 5 with a bottom end cap is installed coaxially on the housing 1 b. In the upper part of the outer pipe 5, above the lateral supply of the 4 shots, the outer and inner cooling cavities 7 and 8 are installed; the cooling medium is circulated through fittings 9 and 10.

The inner half of the cooling 8 with the end cap 11 is manufactured separately and is installed coaxially into the outer tube 5 with the help of the upper ring cap b. 13, to the side drive 4.

The gap between the nozzle 12 and the side inlet 4 of the fraction should be not less than the maximum difference in temperature lengthening of the housing 1 and the outer pipe 5.

The annular gap between the housing 1 and the outer pipe 5 is partially filled with intermediate heat carrier 14, for example water. Part of the device below the side inlet 4 fractions placed in the volume of the boiler.

The device works as follows.

The fraction into the housing 1 of the chute is supplied through the side feed 4, slows down by retarders 2 and, reflecting from the spherical surface of the spreader 3, falls on the convective surfaces of the boiler, cleaning them.

The hot gases in the boiler volume heat the coolant (water) 14 in the annular gap. Water boils and partially evaporates. Steam rises up where it condenses on both walls

Heat is given to the cooling water circulating in the cooling cavities 7 and 8. The condensate flows down into the annular gap and the process goes on continuously. The proposed design provides increased reliability of the fraction with a lateral supply, since, as compared with the known, it prevents the cooling water from the internal cavity 8 from entering the volume of the boiler

due to the fact that they are separated by an intermediate circuit. In addition, uneven temperature elongations of the shot chute 1 and the outer pipe 5 are compensated for by bending the chute housing 1 and the lateral

supply 4 along the entire length between the plugs 6 and 13.

Claims (1)

1. Aal pCKOe certificate of the USSR 691641, cl. R 23 j 3/00, 1978.