SU1439364A1 - Refrigerating chamber for ice tests of ships - Google Patents

Abstract

The invention relates to refrigeration equipment, in particular, to ice technology, model testing of vessels and hydraulic structures with imitation of the climatic conditions of the Arctic and other areas with freezing water areas. The purpose of the invention is to intensify cooling while maintaining the quality of the ice surface. The ice chamber for refrigeration tests contains a heat-insulated casing with a pool 2, cooling facilities containing heat exchange batteries and air coolers 4 mounted along the longitudinal axis of the pool in channel 6. The batteries 3 are made in the form of solid panels and installed to form air ducts 5 with the walls of the casing 1. Outlet slots 8 are located on either side of the basin axis at its base and are oriented horizontally. Under conditions of ice formation, batteries of 3. 2 or less are used to obtain a given amount and a mass of simulated ice. t cl

Description

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The invention relates to refrigeration engineering, in particular, to the technique of ice model testing of vessels and hydraulic structures with imitation of the climatic conditions of the Arctic and other areas with freezing water areas.

The purpose of the invention is to intensify cooling while maintaining the quality of the ice surface.

FIG. 1 shows a cooling chamber for ice testing of ships, a section; in fig. 2 is a circuit for connecting pipes in batteries,

The cooling chamber contains a heat-insulated case 1 with a pool 2, cooling means including heat exchangers 3 installed along the pool and air coolers 4. Heat exchangers 3 are panel-mounted and mounted to form air ducts 5 with the walls of case 1. and the longitudinal channel 6 in the ceiling part 7 of the housing 1, the air coolers 4 are installed in the channel 6, in the lower part of the heat exchangers 3 horizontal discharge gaps 8 are made to supply air to the surface of the water in the pool 2, in addition, each heat exchanger battery 3 is made collector, collectors 9 are placed at the ends of each battery 3 and connected to pipes 10 in pairs and oppositely.

The refrigerator compartment works in the following way.

The coolant (or refrigerant) is supplied to the collectors 9, of which it is evenly distributed through the pipes 10 of the heat exchange batteries 3.

The surface of the battery 3 is developed. It removes heat and cools the chamber volume, alternately connecting pipes 10 to collectors 9 provides a uniform temperature field along the length of battery 3, as well as the entire pool 2. Hpadonositel (refrigerant)

through collectors 9 is collected and

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steps into the refrigerator (not shown),

Heat exchangers 3, in the form of ceiling-wall continuous panels, cool the volume of the ice test chamber. When the ice coolers freeze, the air coolers 4 perform the initial cooling of the air in the space above pool 2. The cooled air from the air coolers 4 is directed into the air ducts 5 and then through the horizontal discharge slots 8 enters the space above the pool 2 The dimensions of the slots 8 are determined so that the velocity of air leaving the Hi-rx practically did not differ from the gravitational one. .

The warmed air rises upwards where the throttle is sucked. rum air coolers 4, and then the cycle repeats. After the beginning of the process of ice formation, batteries 3 are turned on. The operation of batteries 3 ensures uniform ice formation over the entire surface of pool 2 and the production of ice with the specified No. I parameters.

Claims (1)

Invention Formula Refrigeration chamber for ice testing by the scientific research institute of vessels, containing a heat-insulated body with a pool and cooling means, including heat exchanging batteries located along the basin, characterized in that, with the aim of enhancing the cooling surface of the ice, contain air coolers, heat exchangers batteries are made of panel and mounted to form air ducts with the walls of the case and the longitudinal channel in its ceiling part, while installing the coolers installed The channels in the channel, and in the lower part of the heat exchangers, are made of horizontal - .- and vertical discharge slots for supplying air to the surface of the water in the pool. 8.2