RU1812417C - Cooling device - Google Patents

Abstract

Usage: heat power engineering, cooling devices in the energy, chemical and metallurgical industries. SUMMARY OF THE INVENTION: Under the action of a gas stream entering a chamber, an aluminum nozzle, in the pores of which there is a liquid, moves in a pseudo-combustion mode. The liquid is then heated and, evaporating, / cools the gas. As the liquid evaporates; and consequently, the weight reduction of the elec- tron, Iced, and Ice are removed from the chamber to the irrigation chamber, where they are filled with liquid. As the pores are filled, the elements of the nozzle, under the action of gravity, enter the chamber, where they again interact with the gas stream. T s, par. F-ly, 1 ill. IS

Description

The invention relates to a power system and can be used industrially in plants of the energy, chemical and metallurgical industries. STI. ... -. . . ... -. .,.-.--;. G, - ..:

The purpose of the invention is to increase the efficiency and reliability of operation.

The drawing shows the proposed device.

The cooling device comprises cooling and irrigation chambers 1 and 2, gas supply and exhaust pipes 3 and 4, distribution grids 5 and 6, a dispersed nozzle 7, and a coolant supply pipe 8.

The cooling device operates as follows.

Under the action of a gas stream flowing through the pipe 2 into the chamber 1, the dispersed nozzle 7, in the pores of which there is a cooled liquid, moves in the mode

pseudo-liquefaction and due to the energy expenditures for heat and evaporation of the liquid cools the gas. As the liquid evaporates and, consequently, the weight of the nozzle elements decreases, they move with increasing amplitude, and after the pores are completely dried. the elements of the nozzle are discharged from the chamber 1 through the nozzle 4 by the flow of the cooled gas, where the nozzle is extracted from the gas stream into the irrigation chamber 2, where the nozzle supports are filled with coolant. As the pores are filled, i.e. changes in mass, the elements of the dispersed packing, under the influence of gravity, enter chamber 1, thus closing the circulation cycle. The use of the proposed device 7 allows the use of all chilled gas for its intended purpose, since there is no need to use part of the gas for auxiliary purposes; reduce coolant consumption as it consumes

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only the liquid that has fallen into the pores of the nozzle does not contain both spills of liquid or the entrainment of drops of coolant; to increase the reliability of operation by eliminating the distribution grid with the axis of rotation, an adjustable valve, and their connecting line. Formula 1. A cooling device comprising two chambers partially filled with a nozzle located on distribution grids, gas supply and exhaust pipes, a flue grill and a water distributor located above

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with a nozzle layer in one of the chambers, the last of which is connected with the upper part to the gas outlet pipe below the baffle plate, and the lower part to the other chamber above the distribution grill, in order to increase the efficiency by preventing entrainment of the coolant, the nozzle is made of a porous heat-conducting material.

2. The device according to claim 1, with and without the fact that the nozzle is made of aluminum. : -; / ::. .. ... -:.