The invention relates generally to chilling equipment and more particularly to a chiller employing a cryogen such as liquid nitrogen or C0 ₂ snow for cooling purposes.

One of the problems addressed by the invention is rapid chilling of poultry carcasses and the like. In chilling of poultry, it is generally desirable that the temperature of the carcass be lowered from an entrance temperature of about 100' F. to an exit temperature of about 40 ^* F. or below, within a relatively short period of time.

In food processing, as in many other operations, it is desirable to limit the floor space occupied by any particular piece of equipment. Where tunnel freezers are employed, the length of the tunnel freezer is a consideration. It is generally desirable that the length be minimized to the extent permitted by the refrigeration requirements of a particular appli¬ cation. It is also generally desirable to minimize the use of cryogen in refrigerating a desired quantity of product. To this end, it is desirable that the refrigeration apparatus use cryogen efficiently.

Liquid nitrogen immersion has been used effectively in certain contexts for freezing of food products and other items, but is not ideally suited for chilling of poultry for several reasons. First, small parts such as wings may be frozen completely in the time necessary to chill the remainder of the carcass. Secondly, the cavity of the bird may accumulate liquid nitrogen, which stays in the cavity after the carcass exits the bath, resulting in freezing of the inner cavity and inefficiency in the use of the cryogenic fluid. Freezing may be undesirable where it is desired

to box, package, or cut up the carcass within a short period of time after chilling. Freezing is also undesirable where the product is to be sold fresh.

Another problem with liquid nitrogen immersio for chilling of poultry is that water from the poultry tends to form ice in the liquid nitrogen bath, and the liquid nitrogen also may condense oxygen from the air.

Cryogenic sprays, e.g., sprays of liquid nitrogen or C0 ₂ snow, eliminate some of the problems of immersion, but create another problem in that excess cryogen tends to accumulate on the bottom surface of th freezer after being sprayed onto the carcasses. In the case of liquid nitrogen, one proposed solution is to allow it to accumulate in a sump, and drain the liquid into a well from where it may be pumped back into the spray system. However, this solution has several disadvantages, among them that liquid nitrogen can be difficult to pump, and that leakage of liquid nitrogen from the pump or associated piping may be problematic. Accordingly, it is a general object of the invention to provide an improved method and apparatus for rapid chilling of poultry and other items using cryogens such as carbon dioxide snow or liquid nitrogen. Further objects and advantages of the invention will become apparent fro the disclosure set forth below, taken in conjunction with the claims and the appended drawings.

SUMMARY OF THE INVENTION The invention generally comprises a chiller or tunnel freezer for rapid chilling of chicken carcasses and the like wherein a cryogen such as liquid nitrogen or carbon dioxide snow is sprayed directly on the carcasses or other items as they travel through a passage or tunnel, and wherein vortical flow of air and/or vaporized cryogen is effected within the chiller to continuously sweep the bottom surface of the chiller and recirculate cryogen from the bottom surface, thereby

avoiding accumulation of liquid nitrogen or C0 ₂ snow on the bottom surface. In a first embodiment, the vortical flow is provided by one or more fans which direct flow downward on one side of the tunnel to blow air and/or vaporized cryogen downward and across the bottom surface of the tunnel, up the opposite side of the tunnel, and then back across the upper region of the tunnel interior. The tunnel interior is preferably configured so that recirculated cryogen is directed into contact with the carcasses or other items by the vortical flow. In the first embodiment, a series of fans are provided in a line generally parallel to the axis of the tunnel at a location laterally offset from the axis of the tunnel, and a series of cryogen injectors such as nozzles or C0 ₂ snow horns are provided for injection of cryogen into the tunnel. The nozzles are preferably positioned to direct cryogen onto the carcasses or other items. In the case of chicken carcasses, the nozzles are preferably positioned to direct a spray directly on to the breast of the chicken.

In the first embodiment, the interior of the tunnel is generally circular-cylindrical, having a generally circular cross-section except that it is provided with a slot along the top to accommodate a shackle line, and is provided with recesses near the top on one side to accommodate the fans. The cryogen injection nozzles may all be positioned on one side of the tunnel, and the fans may be disposed on the same side of the tunnel as the cryogen injection nozzles. A deflector may be provided on the opposite side of the tunnel to direct flow of recirculated cryogen into contact with the carcasses or other items on the side opposite the cryogen injector nozzles. A damper may be provided to direct the fan output flow tangentially down along the interior wall of the tunnel, and to enable control of output flow velocity.

A second series of cryogen injectors, such as nozzles or C0 ₂ snow horns, may be provided. The second series of cryogen injectors may be positioned on the opposite side of the tunnel from the first series. As an alternative to the tunnel having a generally circular cross-section, the tunnel may have a figure eight cross-section, comprising two generally cylindrical lobes disposed side by side, with a central fan positioned beneath the carcass to circulate cryogen downward and outward around each of the lobes, so that recirculated liquid cryogen will converge toward the top of the carcass from above on both sides.

In all of the above embodiments, means are preferably provided at one or both ends of the tunnel to exhaust C0 ₂ and/or nitrogen vapor from the tunnel to avoid buildup of high concentrations of these gases in the room in which the refrigeration apparatus is located.

BRIEF DESCRIPTION OF THE DRAWINGS FIGURE 1 is a diagrammatic transverse sectional view of apparatus in accordance with the invention;

FIGURE 2 is a diagrammatic side elevational view of the apparatus of FIGURE 1, shown with an access door open to reveal the tunnel interior;

FIGURE 3 is a diagrammatic transverse sectional view of apparatus in accordance with a second embodiment of the invention;

FIGURE 4 is a diagrammatic transverse sectional view of apparatus in accordance with a third embodiment of the invention; and

FIGURE 5 is a diagrammatic transverse sectional view of apparatus in accordance with a fourth embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The preferred embodiments of the invention comprise refrigeration apparatus for rapid chilling of poultry carcasses or other items, and methods of operation of such apparatus. The apparatus will be described herein with specific reference to chicken carcasses suspended on a shackle line, for which the subject apparatus and method are believed to be parti¬ cularly well-suited. However, it should be understood that in other embodiments, apparatus in accordance with the invention might be used for chilling of other dis¬ crete items or of other material conveyed continuously through the apparatus on a belt, for example.

In a first embodiment of the invention, illustrated in FIGS. 1 and 2, the apparatus generally comprises a chiller or tunnel freezer 10 which comprises an elongated insulated tunnel 14. The tunnel 14 prefer¬ ably has a nonplanar bottom surface 16. The tunnel 14 has a generally cylindrical interior 18, interrupted by a slot 20 at the top to accommodate a shackle line 22, and interrupted by recesses 24 for fans 26 at spaced locations near the top along one side.

Means for injecting a cryogen 30 into the tunnel are provided to effect cooling of chicken carcasses 12 or other material within the tunnel. The means for injecting cryogen may comprise C0 ₂ snow horns, nozzles 28 on a header 31 for injecting liquid nitrogen as shown in FIGS. 1 and 2, or other cryogen injectors.

In accordance with an aspect of the invention, the fans 26 are positioned to effect vortical flow of air and/or vapor within the tunnel interior about the longitudinal axis 17 of the tunnel to continuously sweep the bottom surface 16 of the tunnel and recirculate cryogen from the bottom surface of the tunnel. The term "vortical" as used herein is intended to denote that the flow is generally similar to a vortex in that it proceeds in a generally circular configuration. As

indicated in FIG. 1, the vortical flow in that embodi¬ ment proceeds downward along one side of the tunnel, transversely across the bottom surface to sweep cryoge such as C0 ₂ or liquid nitrogen therefrom, generally upward along the opposite side, then back across the top.

In the embodiment of FIG. 1, the tunnel interior is configured so that recirculated cryogen is directed onto the chicken carcasses 12 or other items b the vortical flow. The nozzles 28 for injecting a cryogen and the fans 26 for effecting vortical air flow are positioned on the same side of the tunnel 14. The cryogen is sprayed directly onto one side of the carcasses 12, and is preferably directed at the breasts of the chickens. A deflector 32 or other structural element may be.provided on the opposite side of the tunnel to direct recirculated cryogen into contact with the opposite side of the carcasses or other items. Thus, one side of the carcass 12 is sprayed directly by cryogen emanating from the nozzles 28, while the other side of the item is cooled primarily by recirculated cryogen and/or cold air, although the recirculated cryogen may swirl throughout the tunnel and make contac with virtually any portion of the surface of the item being chilled.

The vortical flow is preferably provided by one or more fans 26 oriented to direct flow downward along one side of the tunnel. In the embodiment of FIG. l, a series of fans 26 are provided in a line generally parallel to the axis of the tunnel at a location laterally offset from the longitudinal axis 17 of the tunnel. In other embodiments, fans may be posi¬ tioned or oriented differently, or means other than fan may be provided to effect vortical flow within the freezer interior. The fans may be driven by motors 33 located outside of the tunnel 14. The positioning of the fans as shown in FIG. 1 is believed to provide an

advantage in that each fan's output flows generally parallel to that of adjacent fans, and contributes to the provision of a single, large axial vortical flow pattern. One or more exhaust ducts 34 are preferably provided at one or both ends of the tunnel to exhaust C0 ₂ or nitrogen vapor from the tunnel to avoid buildup of high concentrations of these gases in the room in which the refrigeration apparatus is located. The tunnel 14 of FIG. 1 may be configured to fit relatively closely around the carcasses or other items being cooled to promote efficiency. To this end, the tunnel interior may be sized only slightly larger than the chicken carcasses 12. An adjustable damper 38 is preferably provided to define a fan output opening 36 of variable width, so that maximum efficiency may be attained under various operating conditions by adjustment of the damper. A fan inlet 40 is provided above the damper 38 so that recir- culated air and/or cryogen vapor may reach the inlet sides of the fans 26. Divider walls 42 may be provided to facilitate efficient achievement of vortical flow. Hinged access doors 46 may be provided to facilitate cleaning and maintenance. In some embodiments, the apparatus may achieve interior temperatures as low as -300* F. where liquid nitrogen is being used, or temperatures as low as -100* F. where carbon dioxide snow is employed, with heat transfer comparable to that attained in nitrogen immersion freezers, without the problems associated with liquid nitrogen immersion.

In accordance with a second embodiment of the invention, illustrated in FIG. 3, there is provided apparatus substantially similar to that described in FIGS. 1 and 2, except that more than one series of cryogen injection nozzles is provided. In the embodi¬ ment of FIG. 3, a first series of nozzles 50 is provided

below the center of the carcass on the same side of the tunnel as the fan, and a second set of nozzles 5 ₂ is provided at about the same elevation on the opposite side of the carcass. A third embodiment of the invention, illus¬ trated in FIG. 4, is also substantially similar to that of FIGS. 1 and 2, except that a first series of nozzles 60 is provided at an elevation somewhat above the center of the carcass, to spray downward and inward toward the carcass, and a second set of nozzles 62 is provided opposite the first set, somewhat below the center of the carcass, directing a spray of cryogen upward and inward toward the carcass.

FIG. 5 illustrates a fourth embodiment of the invention, which is also substantially similar to the embodiment of FIG. 1, except as described below. In the embodiment of FIG. 5, two series of nozzles 70 and 72 are provided, one on each side of the carcass, each disposed somewhat above the center of the carcass, and oriented so as to direct cryogen spray slightly downward and inward toward the carcass. The tunnel has a generally figure eight shaped cross-section, comprising a pair of generally circular-cylindrical lobes 74 and 76 disposed side by side. Each lobe comprises one half of the tunnel. A single row of fans 78 is located centrally of the tunnel of FIG. 5 near the bottom thereof to direct flow of air and cryogen in the tunnel generally downward and outward along the curved bottom surface of each lobe, then upward and back toward the center of the tunnel, thus creating a double vortex, i.e., two vortices with opposite rotational directions, rotating about respective longitudinal axes 86 of the lobes, so that recirculated cryogen impinges on both sides of the carcass from above. Access panels 80 and 82 are provided on the respective lobes and are hingedly attached near the top of each lobe so that they may be opened to the positions

shown in phantom in FIG. 5 to provide access to the tunnel interior. Means for removing exhaust C0 ₂ and/or nitrogen vapor from the tunnel are provided in the form of hood elements 84 which may extend substantially along the length of the tunnel, or may alternatively be disposed only adjacent the ends of the tunnel.

In the embodiments of FIGS. 3, 4, and 5, deflectors similar to the deflector 32 shown in FIG. 1 may be provided to direct recirculated cryogen onto the carcass. Also, a damper as illustrated in FIG. 1 and described with reference thereto may be provided in the embodiments of FIGS. 3, 4, and 5, along with suitable baffles as illustrated in FIG. 1, to control air flow and promote efficiency in operation. Any of the illus- trated embodiments may be modified, if desired, by addition of cryogen injectors or by changing the positions of cryogen injectors. For example, the

« embodiment of FIG. 5 may be modified by positioning the cryogen injector as shown in FIGS. 1, 3, or 4. From the foregoing, it should be appreciated that the invention provides a novel and useful method of chilling carcasses or other items rapidly, with rela¬ tively low floor space requirements. The apparatus of the invention is relatively lightweight, and may be supported on a suitable base 44 as shown in FIG. 1, or suspended from above, if desired.

The invention is not limited to the preferred embodiments described above, but rather is defined by the claims set forth below.