RU2310142C1 - Method of production of the artificial ice - Google Patents

Abstract

FIELD: chemical industry; methods of production of the artificial ice.

SUBSTANCE: the invention presents the method of production of the artificial ice providing for production of, at least, one lower layer and the subsequent production of the upper soft layer with the polymer additive. The upper layer is produced by freezing on the surface of the filling water, which contains the additive of the aqueous suspension of the polytetrafluoroethylene and-or the interpolymer of tetrafluoroethylene with hexafluoropropylene and-or perfluorodecahydronaphthalene in the amount of no more than 10 ppm, and also the additive of the low-molecular polymer in the amount of no more than 10 ppm. Usage of the given method allows to improve the sliding on the surface of the ice at the expense of reduction of the force of friction.

EFFECT: the invention ensures the improved sliding on the surface of the ice at the expense of reduction of the force of friction.

6 cl

Description

The invention relates to the creation of artificial ice and can be used in sports and construction when creating artificial ice rinks, skating tracks, etc.

A known method of producing ice, according to which the polymer is introduced into the water before freezing in the amount of 10 ^-6 to 10 ^-3 weight% (SU 444039, F25C 3/02, 25.09.74).

The disadvantages of this method of producing artificial ice include the following:

1) the polymer introduced into the ice mass, reduces its hardness,

2) local irregularities, ripples, waviness are formed on the ice surface.

Attempts to eliminate these shortcomings were made when receiving two-layer ice (Goncharova G.Yu. et al. Secrets of the ice palace. // Refrigeration. - No. 5 - 2005. - p.10-13), one layer of which (lower) has an increased hardness to prevent deep penetration of the ridge blade into ice, and impurities were introduced into the other (upper) layer - soft. As impurities, film-forming amines, plant-based composites, and water-alcohol solutions were used.

However, ice obtained in this way, however, has a sufficiently high skid resistance and, accordingly, low speed properties.

This problem is partially solved by the known method of producing two-layer ice by forming the lower layer and the soft upper layer, in which the upper layer is obtained by freezing by pouring water containing an ammonia additive in an amount of 1 to 100 ppm (RU 2005140523/12 A, F25С 3/02, publ. May 27, 2006. Kuznetsov B.A., Goncharova G.Yu., Zagainov MV).

An even better result can be achieved by adding ammonia in combination with the polymer, using the method of producing two-layer ice, in which a soft top layer of ice is obtained by freezing by pouring water containing ammonia additives in an amount of from 1 to 100 ppm and a low molecular weight polymer in an amount of from 0, 1 to 10 ppm (RU 2005140521/12 A, F25C 3/02, publ. May 27, 2006. Kuznetsov B.A., Goncharova G.Yu., Zagainov M.V.).

This method, although it solves the problem of ice quality in comparison with other known methods, but further improvement in the speed properties of ice is a necessity due to modern requirements for the development of sports and sports facilities.

The present invention is the development and creation of a method for producing ice for speed skating and short track tracks, artificial ice rinks and other ice structures with high speed properties.

The technical result of the invention is to increase the slipperiness of the ice, i.e. improving conditions for sliding on the surface of the ice by reducing the force of resistance to sliding of the ridge on the ice.

The technical result is achieved by the fact that the claimed method of producing two-layer ice, including obtaining at least one lower layer and subsequent obtaining the upper soft layer with the addition of polymer, is also characterized in that the upper layer is obtained by freezing by pouring water containing an additive of an aqueous suspension of polytetrafluoroethylene and / or a copolymer of tetrafluoroethylene with hexafluoropropylene and / or perfluorodecalin in an amount of not more than 10 ppm, as well as the addition of a low molecular weight polymer in an amount of not more than 10 ppm.

It is advisable to add an ammonia additive in the amount of not more than 100 ppm to the water.

In addition, the upper soft layer is frozen with a thickness of not more than 1 mm.

In addition, the freezing of the upper soft layer of ice is carried out using ice machines.

In addition, the water used to make ice is subjected to preliminary treatment and deep deaeration.

In addition, water with a temperature of at least 60 ° C is used to freeze the upper layer.

The choice as additives of an aqueous suspension of polytetrafluoroethylene and / or a copolymer of tetrafluoroethylene with hexafluoropropylene and / or perfluorodecalin in an amount of not more than 10 ppm, and also a low molecular weight polymer in an amount of not more than 10 ppm is due to the following.

In the course of research, the inventors found that when only one additive, a low- or high molecular weight polymer, is introduced into the upper layer of ice, the sliding properties of the ice surface increase, but local irregularities, ripples, and waviness form on the ice surface.

The addition of polytetrafluoroethylene leads to a slight increase in the sliding properties of the ice surface. But when combining a low molecular weight polymer with an aqueous suspension of polytetrafluoroethylene and / or a copolymer of tetrafluoroethylene with hexafluoropropylene and / or perfluorodecalin in an amount of not more than 10 ppm with an increase in the sliding properties, the ice surface also becomes uniform and smooth, which is a prerequisite for sports competitions in ice sports - speed skating, short track, figure skating, ice hockey.

Regarding the addition of polymers, it should be noted that low molecular weight polymers have an advantage due to the possibility of more rapid introduction of a filling machine into the tank due to better solubility in water prepared for filling the upper soft ice layer and low cost.

The authors of the present invention determined that the use of additives in an amount of more than 10 ppm each worsens the possibility of subsequent processing of the ice obtained by ice-filling machines, does not give a reliable effect of eliminating surface defects - ripples, etc., and also leads to greater softening and penetration into the lower layers, as a result of which hardness is lost.

In the course of research, the inventors found that the addition of ammonia in the declared amount to the top layer of ice provides an additional very stable increase in the sliding properties of the ice surface. So the introduction of such an additive (in combination with other declared additives) creates the conditions for producing ice with the best physical and mechanical properties for holding sports competitions in ice sports - short track, figure skating, ice hockey, speed skating, etc. .

Moreover, the use of ammonia in an amount of more than 100 ppm leads to more than softened ice and penetration of ammonia into the lower hard layer, as a result of which the lower layer loses its hardness.

It should be noted that the use of fluorine-containing polymer additives in the declared amounts, while providing a positive effect on ice quality, is nevertheless in very low concentrations - micro-concentrations, which are not only not noticeable to the organoleptic of a person, but also do not affect his health, which is confirmed by the correspondence declared quantities of additives to sanitary requirements for sports facilities.

The choice of the thickness of the soft top layer of not more than 1 mm is due to the fact that with a larger thickness of the layer when the ridge moves, it deepens into this ice layer, which leads to an increase in the sliding resistance force.

Preliminary treatment and deep deaeration of water is an additional condition for obtaining a smooth, defect-free, without the inclusion of air bubbles of ice.

Another condition is compliance with the temperature regime for water when freezing the top layer: when pouring into the tank an ice picking (filling) machine, water is used with a temperature of at least 60 ° C, which is important to reduce the rate of ice crystallization.

Example 1 implementation of the claimed method.

Initially, freezing of the lower layer of ice was carried out. The water used for this stage of pouring passed the purification system by passing it through a mass filter and activated carbon, and also underwent deep deaeration.

In the frozen bottom layer of ice, temperature stresses were removed by layer-by-layer freezing, annealing, and subsequent ice compaction.

A surface soft layer with a thickness of up to 1 mm was obtained by crystallization of a layer of water deposited on the planed surface of the lower main massif of hard ice when passing an ice-picking (filling) machine. Pretreatment of water included the following main stages:

- purification from mechanical impurities (filtering);

- clarification and removal of active chlorine using activated carbon;

- softening (removal of hardness salts on the ion exchanger);

- desalination up to 98-99% (reverse osmosis);

- removal of dissolved gases by vacuum and thermal deaeration;

- UV disinfection.

After purification, before the introduction of additives, water had a specific conductivity of 5–7 μS / cm –1, pH up to 7.8, and dissolved oxygen content up to 1 mg / L.

When pouring an ice picking machine into the tank, water was used at a temperature of 60 ° C.

To freeze the upper soft layer in water, an aqueous suspension of polytetrafluoroethylene in the amount of 0.1 ppm and a low molecular weight polymer of polyethylene glycol 4000 in the amount of 0.1 ppm were added.

The ice surface obtained according to this example is smooth, without visible bumps, ripples and waviness. The path length of a slidemeter - a device that measures the slippiness of ice (described in the article by G. Goncharova, SI Nefedkina “Secrets of the ice palace or the chronicle of the first victories on Krylatsky’s ice”, “Refrigeration equipment”, 2005, No. 6, sec. .6-8) - amounted to 21 m.

Example 2 implementation of the claimed method.

All ice conditions remained the same as in Example 1, except that to freeze the upper soft layer, an addition of fluorine-containing polymer, perfluorodecalin (C10F18) in an amount of 0.1 ppm, an addition of polyethylene glycol 4000 in an amount of 10 ppm, and an additive were added to water. ammonia in an amount of 100 ppm. 65 ° C water was poured into the tank of an ice picking (filling) machine.

The path length of the slide meter in this case was 31 m.

Example 3 (comparative, without the addition of ammonia) of the implementation of the claimed method.

All conditions for producing two-layer ice remained the same as in Example 1, except that to freeze the upper soft layer, water was added with an aqueous suspension of polytetrafluoroethylene in an amount of 10 ppm, an addition of polyethylene glycol 4000 in an amount of 0.1 ppm. Water at a temperature of 75 ° С was poured into the tank of an ice picking (filling) machine.

The surface of the obtained ice is heterogeneous. The path length of the slide meter in this case was 23 m.

Example 4 implementation of the claimed method.

All ice conditions remained the same as in example 1 except that to freeze the upper soft layer in water, an addition of an aqueous suspension of polytetrafluoroethylene in an amount of 10 ppm was added, an addition of polyethylene glycol 4000 in an amount of 10 ppm, and an addition of ammonia in the form of ammonia in amount of 45 ppm. 65 ° C water was poured into the tank of an ice picking (filling) machine.

The surface of the obtained ice is smooth, without visible bumps, ripples and waviness. The mean free path in this case was 33 m.

Example 5 (comparative) ice production by the prototype method.

All conditions for ice production remained the same as in Example 1, except that a plant-based composite additive was added to freeze the upper soft layer in water.

The ice surface was obtained, although without visible irregularities, but the path length of the slider in this case was only 19 m.

The above examples clearly confirm that when implementing the inventive method, it is possible to obtain the above technical result.

Claims (6)

1. A method of producing artificial ice, comprising obtaining at least one lower layer and then producing an upper soft layer with polymer addition, characterized in that the upper layer is obtained by freezing by pouring water containing an additive of an aqueous suspension of polytetrafluoroethylene and / or tetrafluoroethylene copolymer with hexafluoropropylene and / or perfluorodecalin in an amount of not more than 10 ppm, as well as the addition of a low molecular weight polymer in an amount of not more than 10 ppm. 2. The method according to claim 1, characterized in that the water is additionally added an ammonia additive in an amount of not more than 100 ppm. 3. The method according to claim 1, characterized in that the upper soft layer is frozen with a thickness of not more than 1 mm. 4. The method according to claim 1, characterized in that the freezing of the upper soft layer of ice is carried out using ice machines. 5. The method according to claim 1, characterized in that the water used to produce ice is subjected to preliminary treatment and deep deaeration. 6. The method according to claim 1, characterized in that for freezing the upper layer using water with a temperature of at least 60 ° C.