Refrigeration – Processes – Treating an article
Reexamination Certificate
1999-08-16
2001-04-17
Doerrler, William (Department: 3744)
Refrigeration
Processes
Treating an article
C062S064000, C062S375000
Reexamination Certificate
active
06216470
ABSTRACT:
BACKGROUND OF INVENTION
This application is related to DE 198 37 600.6 filed on Aug. 19, 1998, which is incorporated by reference in its entirety for all purposes.
The invention relates to a method and an apparatus for pelleting or granulating a liquid or pasty substance in a liquefied, low-boiling cooling medium, the substance being fed into a flow of the cooling medium and being fed together with the cooling medium to a separating device in which the substance is separated from the cooling medium and the latter is returned again into the process cycle.
U.S. Pat. No. 4,655,047 discloses a method and an apparatus of this type. Pellets of liquid egg are produced by virtue of the fact that the liquid egg is dripped through a nozzle into a liquid flow of a cryogenic liquid which runs over a sloping trough, and the liquid flow with the produced pellets leads to a vibratory screen. The cryogenic liquid is returned and the pellets are conveyed via the screen into a collecting container. The apparatus is no longer insulated in the region of the vibratory screen and the collecting container. The method requires the pellets to be frozen through before they encounter the screen, since otherwise the pellets will be damaged. The flow-medium section must therefore be of relatively large dimensions in order to achieve a dwell time which leads to frozen-through pellets.
SUMMARY OF INVENTION
The object of the invention is to provide a method and an apparatus for producing pellets with which a high yield of large-size pellets or granule bodies can be produced without problem and the disadvantages of known methods are avoided.
As a rule, the substance to be pelleted is liquid or pasty. Examples are liquid or pasty preparations for the production of ice cream or other foodstuffs.
The apparatus contains a storage reservoir for a liquid cooling medium, a delivery device for the cooling medium, a feed device for the substance to be pelleted, a flow section with the liquid cooling medium (e.g. a channel or a shallow trough), a device for the return of cooling medium to the storage reservoir (e.g. a return channel), and a conveying device (e.g. a belt conveyor) for freezing out and transporting the pellets. The pellets are frozen out in or on the conveying device by means of a gaseous cooling medium.
The liquid cooling medium is preferably a cryogenic liquid such as cryogenically liquefied gases, in particular cryogenically liquefied nitrogen (LN
2
).
Gaseous cooling media are, for example, cold nitrogen, cold air, cold inert gases such as helium or argon, or cold carbon-dioxide gas. The gaseous cooling medium preferably has a temperature within the range of minus 196 EC to 0 EC, in particular preferably from minus 196 EC to minus 40 EC. The gaseous cooling medium is preferably cooled to the temperature by means of the liquid cooling medium or formed from the liquid cooling medium (e.g. vaporizing cooling medium). For example, the gaseous cooling medium is cold nitrogen gas, formed from liquid nitrogen as liquid cooling medium, or is a mixture of cold nitrogen gas and air. The cold atmosphere which develops in the apparatus, in particular in the region of the storage reservoir for liquid cooling medium, in the region of the flow channel and in the region of the return device for liquid cooling medium, is especially preferred for use as gaseous cooling medium. The cold atmosphere is also referred to as exhaust air.
A belt conveyor is especially preferred as a device for conveying the pellets to a collecting vessel or collecting container. The belt conveyor permits careful transport of pellets which have not yet been frozen out and which are easily damaged or deformed mechanically. The transport belt of the belt conveyor is preferably made of a material permeable to the liquid cooling medium, e.g. a reticular belt, a latticed belt or a perforated belt. The transport belt consists, for example, of movable metal links. As a rule, the belt conveyor is a plane belt conveyor. For a space-saving construction, it can be very advantageous to use a belt conveyor having a spirally directed transport belt (spiral belt). The transport belt is made, for example, of stainless steel. The conveying path, that is, the length of the belt conveyor (conveying device) in the case of a belt conveyor having a plane conveying path, is generally within the range of 2 to 3 meters in particular around 2 to 2.5 meters.
The complete freezing or freezing-out of the particles or pellets on or in the conveying device, in particular on the belt conveyor, is effected by cooling with gaseous cooling medium, preferably the cold exhaust air. The gaseous cooling medium is brought into contact with the particles or pellets to be completely frozen (frozen out). A flow of the gaseous cooling medium is advantageously directed across the pellets to be frozen out. The flow of gaseous cooling medium is produced, for example, by means of a gas-extraction device. The gas-extraction device may be constructed, for example, with an extraction fan.
The apparatus is preferably heat-insulated not only in the operative region of the liquid cooling medium (cooling-mediun storage reservoir, flow section) but also in the region of the conveying device. A belt conveyor having tunnel-like heat insulation (heat-insulated casing) is used as conveying device in an especially advantageous manner. Tunnel-like, heat-insulating encasement of the conveying device, in particular of the belt conveyor, forms a gas passage through which the gaseous cooling medium is directed. As a rule, the gas passage contains the conveying device. However, the gaseous cooling medium may also be directed by appropriate measures in such a way that a gas passage (called primary gas passage) which is limited in height, e.g. by the surface of the transport belt of the belt conveyor and the heat-insulated casing, is produced. The height of the primary gas passage is, for example, within the range of 2 to 30 cm, preferably 2 to 10, in particular 2 to 5 cm. The velocity of the gas flow of the gaseous cooling medium (e.g. the cold exhaust air) in the gas passage is influenced by the height of the gas passage, in particular of the primary gas passage. High velocities of the gas flow are advantageous for the cooling of the material to be conveyed (pellets). The velocity of the gas flow of the gaseous cooling medium is, for example, within the range of 1 to 50 meters per second, preferably around 10 to 30 meters per second, in particular preferably around 15 to 25 meters per second.
In the case of an apparatus and a method according to the invention, the substance to be pelleted is fed into a laminar flow of the liquid cooling medium at a point downstream of a pump delivering the cooling medium, provision being made for the flow to be laminar at the feed point. The substance, which is generally liquid or pasty, is fed in, for example, as described in U.S. Pat. No. 4,655,047, to which reference is hereby made. The substance which is fed in is only partly frozen (frozen on) in a laminar cooling-medium flow section on a flow channel or in a shallow trough in order to fix the shape, generally spherical, of the substance fed in. Preferably only a kind of solid envelope is formed. The complete freezing-out of the particles (pellets) formed from the substance is effected only once they are on/in the conveying device by means of gaseous cooling medium.
The heat insulation of the pelleting apparatus and the heat insulation of the conveying device, in particular the belt conveyor, advantageously form a unit, e.g. by means of a uniform or continuous heat-insulated casing.
In this way, large-size pellets of the substance to be frozen can be produced. A high yield of large-size pellets is ensured. The apparatus can be of more compact construction and energy can be saved by utilizing the cold of the resulting cold exhaust gas during the operation of the apparatus.
REFERENCES:
patent: 3298188 (1967-01-01), Webster et al.
patent: 3605427 (1971-09-01), Rudy
patent: 3774524 (1973-11-01), Howard
patent: 4403479 (1
Hoffmanns Wolfgang
Kosock Stefan
Connolly Bove & Lodge & Hutz LLP
Doerrler William
Messer Griesheim GmbH
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