RU2551832C1 - Method to model ice cover in experiment tank and device for its realisation - Google Patents

Abstract

FIELD: construction.SUBSTANCE: method is proposed to model ice cover in an experiment tank, including freezing of ice cover, formation of non-through slots on the ice cover with depth that is less than thickness of the frozen ice cover, and subsequent performance of tests of a model of an engineering structure or a vessel. For formation of non-through slots on the ice cover they previously, prior to freezing of the ice cover, in the working zone along the experiment tank, pull vertically aligned strips or a row of threads arranged above each other with common height, which corresponds to the required depth of non-through slots created in ice, having lower adhesion strength of adhesion with ice, which are placed from each other along the width of the experiment tank at the distance exceeding width of the model of the engineering structure or vessel, tested in the ice experiment tank, and arranged along the height so that the upper thread or the upper edge of the strip are at the level of free surface of water in the experiment tank, and slots on the ice cover are produced by means of withdrawal of specified strips or threads frozen into ice thickness from the ice cover. Also the device is proposed for realisation of this method.EFFECT: increased validity of the process of modelling of partially cut ice cover.4 cl, 2 dwg

Description

The invention relates to the field of shipbuilding, and more specifically to experimental hydromechanics of ships and marine engineering structures operating in ice conditions, and relates to methods and equipment for conducting model tests in an ice test basin. To conduct model tests of marine engineering structures or vessels in the ice pilot basin, ice cover modeling is performed.

A known method of modeling ice cover in the experimental pool and a device for its implementation (KE Sazonov. Method for calculating ice resistance and its application for solving the problems of designing ships and their operation in ice conditions, State Scientific Center of the Russian Federation Akad Central Research Institute A.N. Krylova, 1995), taken as a prototype.

A disadvantage of the known method and device is that the use of thermomechanical tools for applying slots to the ice cover in the conditions of ice of lower strength created in the ice test pool leads to its destruction and, as a result, to the low reliability of the modeling process of partially cut ice cover of the pool.

The present invention is aimed at increasing the reliability of the process of modeling partially notched ice cover by maintaining the integrity of the ice field during the formation of slots in it.

To this end, in a method for modeling ice cover in a test basin, including freezing the ice cover, forming ice-free holes through the ice sheet with a depth equal to less than the thickness of the ice-covered ice sheet, and then testing the model of the engineering structure or vessel, according to the invention, for forming ice-free holes through the ice sheet previously, before freezing the ice sheet, vertically oriented stripes or a row of ennyh superposed filaments with a total height corresponding to the desired depth in the ice produced non-through slots having reduced adhesive bond strength with ice. Moreover, the strips or threads are placed from each other across the width of the experimental pool at a distance greater than the width of the model of the engineering structure or vessel being tested in the ice experimental pool, and positioned so that the upper thread or upper edge of the strip is at the level of the free surface of the water in the experimental pool. As a result, cuts on the ice cover are obtained by extracting from the ice sheet the aforementioned bands or threads.

In addition, the strips or threads are pre-treated with a substance that further reduces the adhesive strength of their adhesion to ice.

In the device for modeling ice cover in the test pool, containing a water-filled bowl of the test pool, having a bottom and vertical walls, and a production trolley according to the invention, at the bottom of the pool, outside the test area, there are installed vertical racks with weights at its lower end, placed on the ends of the pool bowl in the middle of its width and equipped with movable fixed to them with the ability to move along the height of the rack transverse bars to which are attached stretched between them along the pool vertical stripes or a series of threads located one above the other to form through holes in the thickness of the ice frozen in the test pool, having a total height corresponding to the required depth of through holes, spaced from each other across the width of the test pool at a distance exceeding the width of the model of the engineering structure or vessel, tested in the ice test pool, which are made of a material having a low adhesive strength of adhesion to ice, and are located in height so that the upper the thread or the upper edge of the strip was at the level of the free surface of the water in the test pool.

As the material of the strips or threads used nylon, polyamide or fluoroplastic.

The use of non-through slots for the formation on the ice sheet of vertically oriented stripes or a series of threads located one above the other by removing them from the ice thickness with guarantee excludes the possibility of destruction of the ice sheet throughout its thickness.

The placement of vertically oriented strips or a series of threads located one above the other across the width of the test pool at a distance greater than the width of the model of the engineering structure or vessel that destroys ice in the zone of the mentioned width, eliminates the process of breaking ice of unrefused ice by the towed model, and thereby increase the reliability of modeling partially cut ice cover.

Reduced adhesion to ice adhesion of the applied strips or threads is necessary to prevent the destruction of the ice field along the edges of the formed notches when removing the strips or threads from the frozen ice.

Nylon, polyamide or fluoroplastic used for the manufacture of strips or threads have a minimum adhesive strength of adhesion to ice.

The proposed method of modeling ice cover in the test pool is carried out using the proposed device, shown in the figures and shown schematically, in which Fig. 1 shows a device (front view) and in Fig. 2 is a top view of the device in Fig. 1.

The device for modeling ice cover in the test pool includes a bowl of an ice pool with vertical walls 1 and bottom 2 filled with water, a technological trolley 3 moving along the test basin along rails (not shown) with a towed model (not shown) (Fig. .one). At the bottom 2 of the pool installed vertical racks 4 with goods 5 (Fig.1, 2). Racks 4 are equipped with movably fixed transverse bars 6, to which vertical strips stretched along the pool or a series of threads 7 located one above the other are attached, frozen into the ice cover 8 when it is formed in the test pool (Figs. 1, 2). Vertical stripes or strands 7 are spaced apart from each other across the width of the test pool at a distance greater than the width of the model of the engineering structure or vessel tested in the ice test pool.

The proposed method for modeling ice cover in the experimental pool is carried out using the proposed device as follows.

Before freezing the ice cover 8 in the working area, in the middle part along the width of the test pool, at the ends of its bowl, racks 4 with weights 5 are installed. Between racks 4 along the test pool stretch vertically oriented stripes or a series of threads 7 located one above the other, which are attached to the bar 6 movably fixed on each vertical strut 6. The strips or threads are pre-treated with a special substance that additionally reduces the adhesive strength of adhesion of ice to the material from which they are made s. After the process of freezing the ice field, strips or threads 7 are sequentially removed from the ice cover 8 using a trolley 3, as a result of which through holes are formed through the ice cover. Then, within the zone of ice weakened by not-through slits, tests of models of an engineering structure or vessel are carried out.

The proposed method and device for modeling ice cover in the experimental pool ensure the integrity of the ice field during the formation of slots in it and increase the reliability of the modeling process of partially cut ice cover, which distinguishes them from prototypes.

Claims (4)

1. A method of modeling ice cover in a test basin, including freezing the ice cover, forming on the ice sheet through holes through with a depth equal to less than the thickness of the ice sheet to be frozen, and subsequent testing of a model of an engineering structure or vessel, characterized in that for the formation of through holes through the ice Before the ice cover is frozen, vertically oriented stripes or a row of x on top of each other with a total height corresponding to the required depth of non-through slots created in the ice having reduced adhesive adhesion to ice, which are placed apart from each other across the width of the test pool at a distance exceeding the width of the model of the engineering structure or vessel tested in the ice test pool, and positioned in height so that the upper thread or the upper edge of the strip is at the level of the free surface of the water in the test pool, and the slots on the ice cover get a way m extraction from the ice sheet of the said bands or threads frozen in ice. 2. The method of modeling the ice cover according to claim 1, characterized in that the strips or threads are pre-treated with a substance that further reduces the adhesive strength of their adhesion to ice. 3. Device for modeling ice cover in the test pool, containing a water-filled bowl of the test pool, having a bottom and vertical walls, and a technological trolley, characterized in that at the bottom of the pool, outside the test area, there are vertical racks with weights at its lower end located in the middle of the pool at the ends of its bowl and equipped with movable fastened to them with the ability to move along the height of the rack transverse slats, to which are stretched between them along the pool and vertical strips or a series of threads located one above the other for the formation of through holes in the thickness of ice frozen in the test pool, having a total height corresponding to the required depth of the through holes, separated from each other by the width of the test pool at a distance exceeding the width of the model of the engineering structure or vessel tested in the ice test pool, which are made of a material having a low adhesive strength of adhesion to ice, and are located in height so that the upper I thread or the upper edge of the strip were at the level of the free surface of the water in the experimental pool. 4. A device for modeling ice cover in a test pool according to claim 3, characterized in that nylon, polyamide or fluoroplastic is used as the material of the strips or threads.

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