DE80557C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The present cooling apparatus uses the heat bond, which occurs during evaporation a liquid enters, and allows a liquid or with small amounts of water a gas without mixing with the cooling liquid in a simple manner down to below the air temperature or to cool the coolant.

Fig. Ι shows a cooling apparatus in which the liquid to be cooled is a coil flows through,

Fig. 2 shows a sprinkler cooling apparatus and

3 shows a cooling apparatus for the special purpose of a ventilation device.

The apparatus (Fig. 1) consists of a pipe coil A, which is composed of pipes of any cross-section and of the most varied of corrugated, ribbed or similar walls. A is given by a tightly fitting, upwardly tapering jacket B , which sits airtight on the bottom C , which also supports the cooling coil. By this ground contact C through the pipe D, the reaching to evaporate water and forms the required air into the cooling chamber a, the uppermost boundary of the vent F through the pipe E; through F the heated humid air evacuates with the help of special suction devices. At the mouth of the water flowing into the cooling space, an atomizing device G is attached for the same in such a way that the water dust is carried up to the pipe coil A by the air flowing in at the bottom around the circumference of the jacket.

The atomization of the water can, for. B. be done so that the intersecting with strong Print fine jets of water flowing in onto a ribbed spherical surface. Evaporation can also be brought about by the air passing through a moistened porous body.

In order to produce a stronger air flow within the jacket than that caused by the mere heating, a special air suction device (fan, injector, lure flame, etc.) can be installed in the chimney F , or pre-air can be introduced through the pipe E.

The conical casing c, which is attached below the chimney F with the tip pointing downwards, is intended to prevent the water vapors from rising immediately and to cause them to come into closer contact with the cooling surface.

The air flowing in through tube E is previously passed through the device J in order to increase its absorption capacity, in which it passes through hygroscopic bodies, e.g. B. quicklime, calcium chloride and the like., Moisture is withdrawn. Air and water can, if necessary, be specially cooled beforehand.

The effect of the cooling device is as follows:

The liquid entering the cold room warm in the queue at α will heat the air around the cooling apparatus, which is impregnated with water vapors, increase the air's ability to absorb water and thereby, as well as through the heating of the individual water particles, evaporate them;

this is associated with a loss of heat for the liquid entering at α. In addition to this evaporation caused by the heat radiation of the coiled pipe and corresponding cooling, it also occurs as a result of the air flow generated by artificial ventilation, whereby the water particles used for cooling are brought to a significantly lower temperature than theirs as soon as they enter the cold room was original, so that this arrangement makes it possible to cool a liquid or a gas below the respective air and water temperature. This cooling apparatus can advantageously be used in a wide variety of industries, such as in breweries, distilleries, dairies and the like, as well as for refrigerated pantries and the like.

In the arrangement according to FIG. 2, the liquid to be cooled trickles over the jacket B, which also serves as a cooling surface, with an upwardly expanding body N being attached in order to press the rising, cooling, moist air more against the cooling surface.

Fig. 3 shows a system for cooling the air required for larger rooms. In the room encased by wall B or in some other way, the duct for the clean outside air to be cooled is formed by ducts K made of sheet metal, which have a surface area corresponding to their clear width and are connected to one another by several pipe sockets b so that they are connected to each other the incoming air snakes from top to bottom after the drain pipe L moves. In the opposite direction, the impure air sucked out rises from the pipe M to the chimney F and takes water dust with it on its way, so that, as a result of the evaporation caused by this, it is possible to bring the clean air to be introduced below the temperature of the impure air sucked out. The space subject to ventilation must of course be closed off from other air currents during ventilation, so that only the channels intended for suction and supply come into effect. In the case of the ventilation of a fermentation cellar in breweries, which is particularly considered here, it will be advisable to let the suction ducts open close to the bottom of the fermentation cellar so that the carbon dioxide stored below is absorbed first, and to attach the supply ducts close to the ceiling.

Claims (2)

Patent Claims: 1. Cooling apparatus for liquids and gases, characterized by a liquid or gas. The jacket (B) which surrounds the gas line and is open only at the tapering upper end, in which an atomized liquid comes into intimate contact with the line of the body to be cooled, as a result of the constant heating of the liquid particles impregnated with liquid particles and through a line (E) Introduced air creates an upward draft, whereby the evaporation of the liquid particles caused by this and the heating generates cold. 2. Cooling apparatus according to claim 1, which is preceded by a device (JJ , by means of which moisture is removed from the air promoting evaporation in order to increase the absorption capacity. 1 sheet of drawings.