RU2056323C1 - Method of raising sunken objects - Google Patents

Abstract

FIELD: shipbuilding. SUBSTANCE: method consists in forming envelope around sunken object and feeding cooling agent inside this envelope through circulating pipes mounted inside it which perform oscillatory motion and move vertically. EFFECT: enhanced reliability. 3 cl, 1 dwg

Description

 The invention relates to the field of lifting objects under water, mainly sunken ships, and can also be used to lift any individual objects or several objects lying at the bottom in bulk.

 A known method of lifting a sunken object, including the formation in the water near the sunken object of the shell, mainly of flexible material, and the supply of refrigerant into the shell to form ice in it and create a reserve of buoyancy sufficient to lift the sunken object. As a refrigerant, liquefied air is used, therefore, the mass of ice that is formed contains many pores with air bubbles, which makes it loose and fragile, preventing it from being used to lift vessels with significant damage due to the risk of their destruction upon separation from the bottom or during ascent .

 The aim of the invention is to provide lifting of dilapidated and damaged ships, as well as the simultaneous lifting of several closely spaced separate objects.

 This is achieved by the fact that in the method of lifting sunken objects, which includes forming a shell in the water near the sunken object, mainly of flexible material, and supplying refrigerant into the shell to form ice in it and creating a buoyancy reserve sufficient to lift the sunken object, the shell is surrounded the part of the sunken object washed by water or a group of objects, and the refrigerant is supplied through circulation pipes installed inside the shell with the possibility of their oscillatory movements and vertical movement and I. The shell during ice formation can be held by anchors, and the supply of refrigerant to the shell can be continued while lifting the object.

 The drawing shows a device that implements a method of lifting sunken objects.

 The method of lifting sunken objects according to the invention provides for the formation in the water around the washed part of the sunken object 1, in particular a vessel; shell 2, mainly of flexible material, and the formation of a solid ice block inside the shell. If the object to be lifted has internal cavities, ice formation can also occur in these cavities.

 Ice freezing is carried out due to heat exchange with the refrigerant supplied from the submarine 3 to the circulation pipes 4 installed inside the shell 2 with the possibility of their oscillatory movements and vertical movement. The pipe sections along which the refrigerant is supplied and removed, that is, located outside the shell, have minimal thermal conductivity of the walls, for example, due to thermal insulation. The pipe sections inside the shell, in contrast, have high thermal conductivity for heat exchange with water and the formation of ice in the shell. These pipe sections may have an increased heat transfer surface, for example, due to fins.

 The size of the shell 2 is determined by calculation based on the displacement and the weight of the lifted object and the amount of ice required to create the required lifting force.

 To form the sheath 2, practically any film or woven material can be used, which has sufficient flexibility and has a surface area sufficient for each particular case, including in the form of assembled from separate pieces, for example, a sewn panel. The composition of the shell 2 can also be sections made of rigid material.

 In order to reduce energy consumption during freezing of the ice block, the shell material 2 should have a thermal conductivity lower than the thermal conductivity of water. In this case, the shell 2 will limit not only the convective heat transfer between the masses of water inside and outside the shell 2, but also the heat transfer from the surrounding warmer water.

 The circulation pipes 4 are collected and fed to the sunken object 1, as a rule, before the formation of the shell 2. If the object 1 is covered with sand or silt, sediment can be removed beforehand, for example using a hydraulic monitor.

 Depending on the size of the sunken object 1, its depth, weather conditions, etc. the shell 2 can be formed on the surface of the water and immersed in a flattened state or immersed in a complete collapsed form and deployed around an object 1 lying on the bottom. And in fact, and in another case, to give the shell 2 a certain shape, you can use rigid prefabricated or folding frames, as well as floats, if the density of the material exceeds the density of water.

 In order to prevent premature ascent of the shell with ice until the ice block of the required size is frozen, it is forcibly held in place, preferably with the help of anchors 5, from which they are released before the ascent.

 After installing the shell 2 around the sunken object, refrigerant is supplied to the circulation pipes 4, which circulates through the pipes until the ice block of the required size is frozen. To accelerate freezing, it is desirable that the pipes with the refrigerant have the possibility of oscillatory movements and vertical movements, at least during cooling of the water inside the shell 2 prior to ice formation. As the ice block forms, pipes 4 with refrigerant and a sunken object freezes into this block and then rise to the surface with it.

 If necessary, the refrigerant circulation through the pipes 4 can continue during the lifting of the object and even during further transportation already on the surface of the water of the pop-up ice block with the sunken object frozen in it 1. To ensure this, the joint of the pipes 4 must allow their mutual position to change without breaking the circuit.

Claims (3)

 1. A METHOD FOR LIFTING A SUNWATED OBJECTS, which includes the formation of a shell in water near a sunken object, mainly from a flexible material and the supply of refrigerant into the shell to form ice in it and create a buoyancy reserve sufficient to lift the sunken object, characterized in that the shell is surrounded by a washed part of the sunken object or a group of objects with water, and the refrigerant is fed through circulation pipes installed inside the shell with the possibility of their oscillatory movements and vertical movements.  2. The method according to claim 1, characterized in that the shell during the formation of ice is held by anchors.  3. The method according to p. 1, characterized in that the flow of refrigerant into the shell continues during the lifting of the object.

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