SU1174323A1 - Method of destructing ice - Google Patents

Abstract

METHOD OF DESTRUCTION OF ILL, including the supply of ice to the surface of ice at the same time as high-pressure liquid strings and an annular swirling air jet, characterized in that, in order to accelerate the process, both jets heat up before being fed, the liquid jet is twisted in the same direction as the liquid jet wherein the twisting of both jets is carried out along a helix. (L 4 SO Yu co

Description

This invention relates to ice breaking agents used on icebreakers.

The aim of the invention is to accelerate the process of breaking ice with minimal energy expenditure.

The drawing shows a device for breaking ice.

The device consists of a cylindrical fluid chamber i with a nozzle 2 and an annular chamber 3 located around the chamber 1, with a nozzle 4. Inside the chamber 1 there is a guide 5 arranged in the form of a flat tape spirally from the inlet 6 of the chamber 1 to the inlet nozzle holes 2. Inside the annular chamber 3, a guide line 7 is installed along a helical line, also located from the inlet 8 into the chamber 3 to the nozzle 4. The inlet 6 is connected by a flexible insert 9 to the water supply pipe 10, and the nozzle 8 is inserted through 11 Ohm 12 gas, while the gas pipeline 12 is located around the liquid pipeline 10.

The method is carried out as follows.

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Gases with a temperature of 400-500 ° C are taken, for example, from the exhaust paths of the power plant of the vessel and are supplied with a gas blower under pressure into the external pipe 12 of the dual-circuit pipe. In this case, the working hydraulic medium flowing through the inner pipe 10 is heated from the gaseous medium. Through the flexible insert and

the gas distributor enters the chamber 3, where on the screw tape 7 it twists and is fed through the annular gas nozzle 4 to the ice surface. Under the action of the high temperature of the gas and its rotation, the lamellar surface layer of ice melts and evaporates, and the resulting vapor is drawn into the rotational motion of the gas to destroy the durable surface layer. At the same time, water is supplied under pressure to the inner pipe 10 of the dual-circuit pipe, where it is heated through the walls of the pipe 10 from the high-temperature gaseous medium and then through the flexible insert 9 enters the chamber 1, where it twists on the helical band 5 and flows through the central nozzle 2 . When a high-temperature gas jet is exposed to the surface of ice in open waters, thermal stresses occur due to uneven changes in the volumes of ice, as a result of which it cracks, its strength is disturbed.

The hydraulic jet is applied to a weakened (without an upper hard layer) surface, washing away and destroying it to the full depth. In this case, less energy is expended, since the columnar structure of ice, which has lower strength, is subjected to destruction by a hydraulic jet.

The effect of its destruction is that of swirling the streams into one groan along the helix, while the working media are screwed into the crystal structure of the ice, washing out the intercrystalline bonds.

Claims (1)

METHOD OF DESTRUCTION OF LODA, including supplying to the ice surface simultaneously a jet of high pressure liquid and an annular swirling air jet, characterized in that, in order to accelerate the process, both jets are heated before feeding, the liquid jet is twisted in the same direction as the liquid stream, this twisting of both jets is carried out along a helical line. ...... g 1Z SU „„ 117432 CO>