SU620413A1 - Method of making ice coverings - Google Patents

Description

(54) METHOD OF CONSTRUCTION OF ICA CLOSING

The invention relates to the construction of ice overlaps by open mines used, in particular, for the storage of liquids, such as oil, its products, liquefied muds, etc., in permafrost zones.

There is a method of constructing an ice floor, which involves building a vaulted vault shape over the production of a spontaneously made waterproof impermeable set on the external surface of which, in one way or another (pouring, spraying), water layers are applied, which are allowed to freeze before the next layer is applied, as a result of which castle arch 0.7-1.5 m l1.

The disadvantage of this method is the necessity of constructing an impermeable formwork of an appropriate construction, as well as the time-consuming process of gradually creating an ice slab above the formwork, which must then be removed for permanent use, if appropriate.

There is a method of constructing an orerek of ice from which the production is filled with water in the winter to the level at which overlap is required, then the upper water is frozen to the required thickness and durability according to the conditions, after which the water is pumped out to the excavations 2.

The disadvantage of this method is that the overlap is flat and therefore not strong enough.

The aim of the invention is to transform a flat slab into a vaulted one to increase its strength and durability.

This goal is achieved by placing the heat insulation in the form of a segment with the maximum K.1 CENTRAL at the center of production, on the flat ice overlap, and leaving at the edges of development; Strips not insulated with a width not less than the thickness of the frozen walls at the base of the arch of the ceiling are laid, after which further freezing is carried out.

The thickness of the formed ice in the body of the overlap depends on the height of the thermal layer: the minimum icing of ice occurs in the center of the overlap, where the top of the thermal insulating layer is greatest, maximally close to the working walls, where the thickness of the thermal insulating layer is the smallest;

Fig. 1 proves the stage of freezing the evils of ice; in fig. Stage 2 thermal insulation; in fig. 3 - development with ready vaulted overlap.

On. In the first stage, a layer of ice is frozen, the strength of which should be sufficient to retain heat insulation.

The second stage consists in laying the thermal insulation on the formed layer of ice. KOTopaSi is shaped into a segment with a maximum height corresponding to the center of generation.

The maximum height of the thermal insulating layer IDCHH depends on the type of insulation, the size of the working, climatic conditions, etc.

Along the sides of the layer of thermal insulation, strips of dd are left free, the size of which should be no less than the thickness of the painted walls at the base of the roof, and usually should be 2-4 times greater than this value.

The thickness of the frozen ice layer on the walls of the finished storage is 5-15 cm.

Under the influence of natural cold, the intersection is maintained until

vaulted shape. After this, the insulation is spread over the entire storage area.

Claims (2)

1.Album variants of designs of experimental underground ice-ground storages for trench and oil products. types. VNIIpromgaz, M., 1965, with. 10-11. 2. Temporary guidelines for the design and construction of ice-ground storage facilities for light petroleum products. Gosstroy, M., 1963, SP-315-65. Ice Thermal insulation Jte9