SU1375918A1 - Air cooler - Google Patents

Abstract

The invention relates to refrigeration equipment, namely to air coolers of industrial refrigeration units, and allows to intensify the process of thawing the heat exchange surfaces of the air cooler. The refrigerant through the inlet manifold 4 is supplied to the pipes 2, and the cooled air is passed through the fan 6 through a bundle of pipes 2 and plate fins 3, while cooling and drying the air flow is ensured. When cooled to a temperature of (-5) - (- 70) ° C, the outer surface of the tubes 2 and the ribs 3 changes the original shape of the relief, for example, it is flattened. The refrigerant vapor is sucked through the exhaust manifold 5. In the defrosting mode, the fan 6 is turned off, and hot refrigerant vapor is fed to the manifold 5. Heating vapors of pipe 2 with ribs 3 condense and the condensate formed is discharged through collector 4. When heated (L

Description

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the snow coat is partially thawed and, due to the memory effect, the shapes of the tubes 2 and the ribs 3 change their profile. This ensures the rapid removal of the remaining mass of the snow coat from the heat exchange surface, eliminating the need to conduct thawing until the snow is completely converted to melt water. The condensate formed and the remains of the snow coat are collected in the pan and removed through the pipes 9V 1 sludge.

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The invention relates to refrigeration equipment, namely, to air coolers of industrial refrigeration units.

The purpose of the invention is to intensify the thawing of the snow coat from the heat-exchange surfaces of the air cooler.

The drawing shows schematically the proposed air cooler, general view, axonometric.

The air cooler includes a housing 1 in which a finned bundle of pipes 2 with plate fins 3 is placed. The pipes 2 and fins 3 are made of a material that has the property of reversible matensite transformation (shape memory effect), for example, nitinol (nickel-titanium alloy). the outer surface of the tubes 2 and the fins 3 undergoes a thermomechanical treatment with the formation of a surface relief, for example, in the form of a wave at a temperature of the memory memory, equal to the temperature of the heat exchanger surface and during defrosting, which is usually in the range of 20-45 ° C. The coils of the pipes 2 are connected to the inlet manifold 4 and the output collector 5. The fan 6 is connected to the air-cooler body 1 with an electric motor 7 and a pallet 8 with a branch pipe 9 for exhaust remnants of a snow coat.

The air cooler in cooling mode operates as follows.

The refrigerant through the inlet manifold 4 is supplied to the pipes 2 of the plate heat exchanger, and the cooled air is sucked in by the fan 6 through the housing 1, in contact with the bundle of cold pipes 2 and the plates-shaped ribs 3, as a result

cooling and drying of the air flow occurs. When cooled to (-5) - (- 70) ° C, the outer surface of the tubes 2 and the ribs 3 changes the original shape of the relief, for example, it is flattened. Refrigerant vapor is sucked through exhaust manifold 5.

In the defrosting mode, the fan 6 and the electric motor 7 are turned off and hot coolant vapor is supplied to the collector 5. The latter, by heating the tube bundle 2 with the fins 3, condense, and the condensate formed is discharged through the collector 4. When heated, the snow coat partially thaws and, due to the memory effect, the shapes of the tube 2 and the laminated fins 3 change their profile, which ensures quick removal of snow coats from the heat exchange surface, eliminating the need to defrost until the snow is completely transformed into melt water. Tala water and the remains of a snow coat are collected in pan 8 and removed

cutting pipes 9.

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The proposed air cooler can be used for pumpless refrigeration systems, as well as for pump-circulating systems with both the bottom and the top coolant supply. When it is used, the conditions for the rapid removal of the snow coat from the surface of the heat exchanger are improved, the duration of thawing is reduced, and the energy consumption associated with defrost is reduced.

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Claims (1)

Formula image shadows An air cooler, comprising a housing with sections of cooled 1x batteries in it in the form of a bundle of tubes with plate fins and sub-1313759184 Don for collecting melt water and ventilators from material with an electrically-driven property, use a reverse matensitic transformation and that, in order to intensify in the temperature range, corresponding to defrosting snow coat, defrosting mode snow lamellar fins and pipes are fur coats.