ONSITE CO2 GENERATION FOR POULTRY STUNNING

Abstract

An apparatus for stunning an animal with an exhaust gas mixture includes a stunning chamber located at a processing site to contain therein as many an animal selected to be stunned; and a combustion chamber located at the processing site for combusting a mixture to provide therefrom an exhaust gas mixture which includes carbon dioxide for stunning the animal in the stunning chamber. A related method and exhaust gas mixture are also provided.

Claims

1. An apparatus for stunning an animal with an exhaust gas mixture, comprising: a stunning chamber located at a processing site to contain therein as many an animal selected to be stunned; and a combustion chamber located at the processing site for combusting a mixture of gases to provide therefrom an exhaust gas mixture comprising carbon dioxide for stunning the animal in the stunning chamber.

2. The apparatus of claim 1, further comprising a flow skid located at the processing site upstream from and in fluid communication with the combustion chamber for receiving gaseous oxygen, air, natural gas or propane for providing a proportion of each of the gaseous oxygen, air, and natural gas or propane for the combustion mixture to be provided to the combustion chamber.

3. The apparatus of claim 2, further comprising a heat exchanger located at the processing site downstream from the combustion chamber to receive and cool the exhaust gas mixture before the exhaust gas mixture is delivered to the stunning chamber.

4. The apparatus of claim 3, further comprising: a condenser located at the processing site downstream from and in fluid communication with the heat exchanger for receiving and drying the exhaust gas mixture; and a filter located at the processing site downstream from and in fluid communication with the condenser for receiving dried exhaust gas mixture and filtering particulate matter from the dried exhaust gas mixture.

5. The apparatus of claim 3, further comprising a compressor or a blower located at the processing site downstream from and in fluid communication with the heat exchanger to receive the exhaust gas mixture for delivery to the stunning chamber.

6. The apparatus of claim 1, wherein the exhaust gas mixture further comprises nitrogen and oxygen.

7. The apparatus of claim 2, wherein the gaseous oxygen, the air, the natural gas and the propane are available from the processing site.

8. The apparatus of claim 1, wherein the combustion chamber further comprises a burner selected from the group consisting of an oxyfuel burner and an air-oxyfuel burner for the combusting the mixture of gases.

9. The apparatus of claim 1, further comprising: a boiler located at the processing site for being contacted by the exhaust gas mixture from the combustion chamber; and a heat exchanger located at the processing site for receiving at least a portion of the exhaust gas mixture, the heat exchanger constructed and arranged to return cooled exhaust gas mixture for delivery to the stunning chamber.

10. The apparatus of claim 9, wherein the heat exchanger comprises a cooling tower.

11. The apparatus of claim 9, further comprising a pipeline constructed and arranged to provide the exhaust gas mixture from a downstream region of the boiler to the combustion chamber for cooling the combustion chamber.

12. The apparatus of claim 1, wherein a percentage of the carbon dioxide in the exhaust gas mixture is in a range of from 11% to 99%.

13. The apparatus of claim 1, wherein the animal is selected from the group consisting of poultry, chickens, turkeys and pigs.

14. A method for stunning an animal with an exhaust gas mixture, comprising: delivering an exhaust gas mixture comprising carbon dioxide from a combustion chamber located at a processing site to a stunning chamber located at the processing site for any amount of a select type of animal; and contacting the select type of animal with the exhaust gas mixture in the stunning chamber for stunning the select type of animal.

15. The method of claim 14, further comprising providing air to the combustion chamber.

16. The method of claim 14, further comprising providing natural gas to the combustion chamber.

17. The method of claim 14, further comprising providing propane to the combustion chamber.

18. The method of claim 14, further comprising providing air and natural gas from the processing site to the combustion chamber.

19. The method of claim 14, further comprising providing air and propane from the processing site to the combustion chamber.

20. The method of claim 14, wherein the exhaust gas mixture further comprises nitrogen and oxygen.

21. The method of claim 14, further comprising cooling the exhaust gas mixture before delivering the exhaust gas mixture to the stunning chamber.

22. The method of claim 14, further comprising filtering the exhaust gas mixture of particulate matter before delivering the exhaust gas mixture to the stunning chamber.

23. The method of claim 14, further comprising contacting a boiler with the exhaust gas mixture from the combustion chamber for providing steam.

24. The method of claim 23, further comprising providing a portion of the exhaust gas mixture from a region downstream of the boiler to the combustion chamber for cooling the combustion chamber.

25. The method of claim 14, further comprising: combining gaseous oxygen, air and natural gas into a combustion mixture upstream from the combustion chamber; and providing the combustion mixture to be combusted in the combustion chamber for providing the exhaust gas mixture.

26. The method of claim 14, further comprising: combining gaseous oxygen, air and propane into a combustion mixture upstream from the combustion chamber; and providing the combustion mixture to be combusted in the combustion chamber for providing the exhaust gas mixture.

27. The apparatus of claim 14, wherein a percentage of the carbon dioxide in the exhaust gas mixture is in a range of from 11% to 99%.

28. The method of claim 14, wherein the select type of animal is poultry.

29. The method of claim 14, wherein the select type of animal is selected from the group consisting of chickens, turkeys and pigs.

30. An exhaust gas mixture for stunning an animal, comprising a mixture of gases combusted at a processing site for producing an exhaust gas mixture comprising carbon dioxide for stunning an animal at the processing site.

31. The exhaust gas mixture of claim 30, wherein the animal comprises poultry.

32. The exhaust gas mixture of claim 30, wherein the select type of animal is selected from the group consisting of chickens, turkeys and pigs.

33. The exhaust gas mixture of claim 30, wherein the mixture of gases comprises gaseous oxygen, air, and natural gas or propane for being combusted at the processing site.

34. The exhaust gas mixture of claim 30, wherein the exhaust gas mixture further comprises nitrogen and oxygen.

35. The exhaust gas mixture of claim 30, wherein a temperature of the exhaust gas mixture is reduced before the stunning an animal.

36. The exhaust gas mixture of claim 30, wherein a percentage of the carbon dioxide in the exhaust gas mixture is in the range of from 11% to 99%.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0038] For a more complete understanding of the present invention, reference may be had to the detailed description of the inventive embodiments taken in conjunction with the following drawings, of which:

[0039] FIG. 1 shows a known stunning system for poultry and the tanks of bulk liquid product used in the stunning system; and

[0040] FIG. 2 shows a stunning system and related method according to the inventive embodiments of the present invention.

DETAILED DESCRIPTION

[0041] Before explaining the inventive embodiments in detail, it is to be understood that the invention is not limited in its application to the details of construction and arrangement of parts illustrated in the accompanying drawings, if any, since the invention is capable of other embodiments and being practiced or carried out in various ways. Also, it is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation.

[0042] In the following description, terms such as a horizontal, upright, vertical, above, below, beneath and the like, are to be used solely for the purpose of clarity illustrating the invention and should not be taken as words of limitation. The drawings are for the purpose of illustrating the inventive embodiments and are not intended to be to scale.

[0043] Referring generally to FIG. 2, a food processor has a processing site 10, plant or facility at which is located apparatus 12 and method embodiments for, among other things, stunning poultry 14. The site 10 functions as follows for use for example as a poultry processing plant. In the plant, the poultry 14 are chickens, turkeys or other fowl by way of example only, and such animals must be stunned in the plant before further processing is to occur to the carcasses. Other types of animals can be stunned as well such as, for example, pigs to product pork products.

[0044] In general, a mixture of pure oxygen (O.sub.2), natural gas (NG) or propane, and for some applications air, will be fed into, for example, an oxyfuel burner or an air-oxyfuel burner (“burner”). The NG, or propane if used, is already available on-site at the plant, as the plant uses the NG (or propane) for other plant operations including providing heat for the plant and boilers for steam to process the poultry carcasses. The burner fires into a combustion chamber to heat same. During the combustion process, carbon dioxide (CO.sub.2), nitrogen (N.sub.2) and oxygen (O.sub.2) are produced, in addition to heat and water vapor. This mixture is the flue gas or the exhaust gas from combustion and is used as the stunning gas mixture for the poultry 14.

[0045] The exhaust gas can be, among other things, cooled before being used as the stunning gas mixture, after which a portion of the water vapor in the flue gas must be removed or stripped therefrom prior to the stunning gas being introduced into the stunning process.

[0046] A steam boiler is therefore included in the apparatus to remove heat from the exhaust gas. The steam boiler receives the exhaust gas and includes a heat exchanger through which water flows to be heated by the exhaust gas. The water in the heat exchanger is heated to thereby produce condensate and steam for use elsewhere or at remote locations in the processing plant.

[0047] The steam can also be used to power a turbine (not shown) to create electricity for the plant and the stunning apparatus and process. The heat can also be dissipated into the atmosphere by connecting a circulation loop to a cooling tower or with a fresh water supply (e.g., from a river). Once a large portion of the heat is removed from the exhaust gas, the exhaust gas can be cooled further to condense excess water vapor from same or dried by a condenser prior to the exhaust gas being used for stunning process.

[0048] As mentioned above, stunning processes require some mixture of CO.sub.2, nitrogen and oxygen. The present embodiments enable the ability to change the inlet oxygen:air ratio of combustion gas so that a greater or lesser amount of each of CO.sub.2, nitrogen and oxygen can be present in the exhaust gas mixture used in the stunning apparatus and method embodiments.

[0049] Referring with more specificity to FIG. 2, there are a plurality of stages I-VI available in the present embodiments. The stages are described to facilitate an orderly recitation of same and understanding about the elements in the stages and the related coaction of the elements for the stunning apparatus and method embodiments. Recitation of the stages is not meant to describe or limit an order of precedence for carrying out the stages or the elements thereof. The stages I-VI of the apparatus 12 and related method embodiments are all located at the processing site 10 to stun poultry 14. The stages I-VI and related components and steps in same may be described herein as being upstream or downstream with respect to each other.

[0050] Stage I includes a bulk storage tank 16 for holding liquid oxygen (LOX). The tank 16 is pressurized to forcibly deliver the LOX from an outlet proximate a lower region of the tank into a pipeline 16′ connected to an inlet of a vaporizer 17. The LOX is converted or vaporized into a gas phase at the vaporizer 17 and thereafter delivered as gaseous oxygen from an outlet of the vaporizer into a pipe 18 connected to an inlet of a fluid mixer 20 (also known in the food processing and industrial gas industries as a mixing or flow skid 20). Air 22 is also available to be delivered in a pipe 24 connected to an inlet of the skid 20. Natural gas (NG) 26, or alternatively propane, is sourced from a location 28 at the processing site 10 for delivery through a pipe 30 to an inlet of the skid 20. In effect, all gases or constituents necessary for providing the resulting stunning gas mixture are obtained from the processing site 10. The flow skid 20 meters or apportions a select quantity of each gaseous flow of oxygen, air and NG into the combustion stage of the inventive embodiments.

[0051] Stage II includes the flow skid 20, wherein a proportion or concentration of each of the gaseous O.sub.2, air and NG introduced into the skid is apportioned to be injected for subsequent heating and combustion. The oxygen will begin to warm and expand to a gas phase while passing through the vaporizer 17. A combustion mixture from an outlet of the skid 20 is delivered by a pipe 32 to a burner 34, such as an oxyfuel burner or an air-oxyfuel burner, of a combustion chamber 36 in a furnace located at the processing site 10. Alternatively, the apparatus 12 can include a plurality of the pipes 32, one pipe each for the gaseous oxygen, air and NG being delivered to the burner 34 where the gases are mixed for combustion. Combustion of the gaseous mixture in the chamber 36 will provide a heated exhaust gas mixture 38 of CO.sub.2, N.sub.2, O.sub.2 and H.sub.2O. The heated exhaust gas mixture 38 can be further conditioned or processed to provide an exhaust gas mixture used for stunning the poultry 14, without having to rely upon a separate CO.sub.2 delivery, bulk or otherwise, from a remote location for the stunning process of the poultry 14.

[0052] Stage III includes a steam boiler 40 contacted by the exhaust gas mixture 38 from the combustion chamber 36, wherein water (H.sub.2O) 42 introduced into the boiler 40 produces a stream of steam 44 and condensate 46. Alternative cooling of the exhaust gas mixture 38 in stage Ill can include a closed loop 48 for the exhaust gas mixture through a cooling tower 50 or other type heat exchanger.

[0053] Stage IV includes that which can be optionally used for the exhaust gas mixture 38, depending upon the stunning system requirements. The exhaust gas mixture 38 can be dried in a condenser 52 for removal of H.sub.2O from the exhaust gas mixture through a condensate pipe 54. A filter 56 positioned downstream from the condenser 52 is used to remove any contaminants and/or particulate matter from the exhaust gas mixture 38 prior to its contact with the poultry 14.

[0054] Stage V includes a compressor 58 or blower to pressurize and forcibly deliver the exhaust gas mixture 38 to stage VI.

[0055] Stage VI includes the stunning chamber 60 in which the exhaust gas mixture 38 with reduced water content therein is introduced to contact and stun the poultry 14. The mixture includes proportions of CO.sub.2, N.sub.2 and O.sub.2. A pipeline 62 or conduit having an internal diameter less than an internal volume of the compressor 58 may connect an outlet of the compressor with an inlet to the stunning chamber 60.

[0056] Stage I would be upstream of stage II; stage II would be upstream of stage III; stage III would be upstream of stage V; and stage V would be upstream of stage VI. If stage IV is used, stage IV is positioned between stages III and V, i.e. stage IV is downstream of stage III and upstream of stage V. However, it is not necessary to use the stage IV components and steps for the inventive embodiments.

[0057] Example I. Using the apparatus 12 of the present embodiments, in stages I and II mixing 90% oxygen and 10% air with natural gas will produce an exhaust gas mixture 38 of 53% CO.sub.2, 5% O.sub.2 and 42% N.sub.2 for stunning the poultry 14.

[0058] Example II. Using the apparatus 12 of the present embodiments, in stages I and II mixing 100% oxygen only with natural gas (NG) will produce an exhaust gas mixture 38 of 90% CO.sub.2, 9% O.sub.2 and 1% N.sub.2 for stunning the poultry 14.

[0059] A percentage of the carbon dioxide in the exhaust gas mixture can be in a range of from 11% to 90%, and for certain apparatus and method embodiments the carbon dioxide in the exhaust gas mixture can be in a range of from 11% to 99%.

[0060] Still referring to FIG. 2, additional apparatus and method embodiments may include a pipeline 41 to interconnect a downstream region of the boiler 40 with the combustion chamber 36 to provide a cooling fluid to cool the combustion chamber; the cooling to be of an interior of the chamber and/or an exterior sidewall of the combustion chamber. Another heat exchanger 63, such as for example an air-cooled heat exchanger, may also be positioned between the compressor 58 and the stunning chamber 60 by being in fluid communication with the exhaust gas mixture 38 to cool and reduce the temperature of the mixture before it is introduced into the stunning chamber. Still another embodiment provides for the compressor 58 to instead be positioned downstream of the boiler 40 and upstream of the condenser/dryer 52.

[0061] The present apparatus and method embodiments enable a processor to precisely adjust inlet gas ratios to match requirements necessary for the specific stunning process for a specific animal. The only bulk delivery requirement for the present embodiments is a single bulk liquid oxygen supply, eliminating the need for a plurality of bulk storage tanks at the site 10.

[0062] Advantages of the present embodiments include eliminating the inconvenience and risk of CO.sub.2 supply disruptions; providing on-demand CO.sub.2 supply for the stunning at the processing site 10; the ability to create select mixtures of CO.sub.2, O.sub.2 and N.sub.2 for stunning by varying the oxygen and air inlet ratios; and providing a heat source from the exhaust gas mixture 38 for the processing facility.

[0063] It will be understood that the embodiments described herein are merely exemplary, and that one skilled in the art may make variations and modifications without departing from the spirit and scope of the invention. All such variations and modifications are intended to be included within the scope of the invention as described hereinabove and called for in the present claims. Further, all embodiments disclosed are not necessarily in the alternative, as various embodiments may be combined to provide the desired result.