US2824006A - Method of recovering the meats of bivalves - Google Patents

Method of recovering the meats of bivalves Download PDF

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US2824006A
US2824006A US613554A US61355456A US2824006A US 2824006 A US2824006 A US 2824006A US 613554 A US613554 A US 613554A US 61355456 A US61355456 A US 61355456A US 2824006 A US2824006 A US 2824006A
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oysters
meats
shells
bivalves
brine
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US613554A
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Lawrence W Strasburger
Victor W Blereau
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Blue Channel Corp
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Blue Channel Corp
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    • AHUMAN NECESSITIES
    • A22BUTCHERING; MEAT TREATMENT; PROCESSING POULTRY OR FISH
    • A22CPROCESSING MEAT, POULTRY, OR FISH
    • A22C29/00Processing shellfish or bivalves, e.g. oysters, lobsters; Devices therefor, e.g. claw locks, claw crushers, grading devices; Processing lines
    • A22C29/04Processing bivalves, e.g. oysters
    • A22C29/046Opening or shucking bivalves
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23LFOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
    • A23L17/00Food-from-the-sea products; Fish products; Fish meal; Fish-egg substitutes; Preparation or treatment thereof
    • A23L17/50Molluscs

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  • This invention relates to the treatment 'of bivalve molluscs, of which oysters,.clams, mussels, and scallops are examples, and is concerned-more particularly with a novel method, by which the meatsmay be recovered from the shells of such. bivalves rapidly and without damage to the meats.
  • zthe invention may be utilized in the treatment of bivalves generally-,1 all the advantages of the method arerealized in-itsuse in the treatment of oysters. Accordingly, a formofwthemethod forthe recovery of oystermeats will, be illustratedand described in detail for purposes of explanation.
  • oysters In the processing of oysters preparatoryto canning as heretofore practiced, it has been customary; to wash the oysters, when necessary, to remove foreign matter adherent to the shells, following which the: oysters are cooked by steaming.
  • the oysters may be loaded into crates, which are placed in steam heated retorts, or may be placed incars, which. are ruh into a steam box.
  • the recovery of oyster meats from their shells requires that the adduetormuscles'of the. oysters be freed from the innersurfaces of the valves and it had been found that the freeing of the muscles from; the valves varies in difficulty according to the locality, in which. the oysters are grown. As a consequence, the
  • the present invention is, accordingly, directed to a method of treating oysters and other bivalves, by which a substantially complete recovery of the meats from the shells can be easily obtained at low cost and with little or no damage to the meats, regardless of how tender they may be.
  • the method of the invention involves preliminarily subjecting the oysters to a freezing operation suflicient to freeze the meats solid, following which the oysters are cooked by subjecting them to a temperature in excess of 212 F. for a period varying in duration according to the source of the oysters.
  • the meats may be recovered from the shells by agitating the cooked oysters in bulk to free the meats from the shells, following which the meats are separated from the shells.
  • the agitation may be carried out by tumbling the cooked oysters in bulk in the apparatus of Harris Patent 2,652,588, issued September 22, 1953.
  • Harris Patent 2,652,588, issued September 22, 1953 As a result of the preliminary freezing operation, the cook- 2,824,006 Patented Feb.
  • Figs. 1 and 2 are longitudinal section and ,top: 'plan views, respectively, of one formof apparatus, whichmay be employed for performing the freezing step of the method of the invention;
  • Fig. 3 is a view in elevation, with parts broken away, of a retort, which may be employed in the cooking step of themethod of the invention.
  • Fig. 4 is a sectional view onthe line 44 of Fig; 3.
  • the shells of the oysters should be free of adhering foreign matter and the oysters obtained from some localities as landed at the dock require no cleaning,while oysters from othersourcesshould be washed.
  • the oysters may be passed througha conventional rotary drum washer, withinwhioh the oystersaresubjected to water jetsasthey are rolled and tumbled in a mass. The oysters, when clean, are ready. forthe freezing step of the method and this operation can be carried on in any suitable freezing apparatus, such as that shown in Figs. 1 and 2.
  • the freezing apparatusillustrated comprises a tank 10 having rollers 1-1, 12 mounted-above its top-at its opposite ends.
  • a belt 13, provided with crossbars. 14, is trained about theroller-s andthe shafts of the rollers are provided with sprocket wheels 15 driven in any suitable Way,- as by chains 16 trained about a sprocket wheel on a shaft drivenby a motor, not shown;
  • the tank 'issupportedinsuohmanner that the upper stretch 'of the belt passes into the tank and the lower stretch may extend beneath the tank.
  • the tank is provided with a pipe 17 with a valve 18 for the admission of cold brine, which is withdrawn from the tank near the other end through an outlet pipe 1-9 having a valve 20.
  • the oysters may be deposited through a chute 21 upon the upper stretch of the beltnear the point, where it enters the tank, and the oysters are then conveyed beneath the level ofi the brine in the tank to the opposite end of the tank, where they are discharged as the belt passes over the'roller 12.
  • a conveyor belt 22 trained about a roller 23 may be placed to receive the oysters dropping fromuthe belt 13. The temperature of the brine and the rate. at which the oysters pass through the tank 10 are such that the meats of the oysters issuing from the brine are frozen solid.
  • the oysters are then ready for the cooking operation, which may be carried on by loading the oysters in cars and passing them into a steam box, as illustrated in the patent to Harris 2,608,716, issued September 2, 1952, or the oysters may be cooked by means of steam under pressure in a retort, such as is illustrated in Figs. 3 and 4.
  • the retort comprises a steel cylinder 24 having a cover 25 hinged to the upper end thereof. In closed position, the cover rests upon a gasket 26 and is held in place by bolts 27 pivoted on the cylinder and receivable between pairs of ears on the edge of the cover. The bolts have wing nuts 28, by which the cover can be clamped tight against the gasket.
  • a steam distributor in the form of a cross 29 of perforated pipes is mounted in the cylinder near the bottom and collars 30 on the pipes and brackets 31 on the inner surface of the cylinder provide supports for the oyster crates or baskets. Steam is supplied to the cross through a steam pipe 32 having a valve 33.
  • the cover is provided with a safety valve 34 and a manually operated bleeder valve 35 and, at its lower end, the cylinder has a steam vent and bottom drain pipe 36 with a valve 37. Near its upper end, the cylinder has a steam vent 38 with a valve 39 and may have a liquid inlet pipe 40 with a valve 41.
  • a box 42 mounted on the cylinder is in communication with the interior thereof and carries a pressure gauge 43, a thermometer 44, and a manually operated bleeder valve 4-5.
  • the bleeders are of small diameter, such as A" to 2" in diameter, and the steam vents may have a diameter of 1" to 2". If desired, the retort may be provided with automatic temperature means.
  • the crates or baskets of frozen oysters are loaded into the retort and the cover is swung shut and clamped tight. While the top and bottom vent valves 37 and 41 are partly opened, steam is introduced through the steam supply pipe 32 and, after a short time, the valves are closed and the steam is supplied at such a rate that the retort is heated to temperatures within the range of 220 F. to 260 F. at pressures from 2 /2 lbs. to lbs. for a period from 4 to min.
  • the duration and temperature of the cooking depends upon the source of the oysters, the thickness of their shells and maturity, shell growth factors, the size of the adductor muscles of the oysters, etc. For cooking most oysters, the use of a temperature of 250 F. with a pressure of 15 lbs. and a cooking temperature of 6 to 8 min. is satisfactory.
  • the top steam vent valve 39 is opened and the steam supply is cut off.
  • the crates or baskets are then removed from the retort and the separation of the meat from the shells may be completed by agitation of the oysters in bulk in a revolving drum, as disclosed in Harris Patent 2,652,588.
  • the oysters are lifted and dropped as the drum rotates and the separated meats escape from the openings in the drum Wall, while the shells are discharged at the end of the drum.
  • the oysters may be carried on a belt traveling beneath the liquid and subjected from beneath to localized vibration.
  • the liquid through which the belt travels is a brine of such salinity that the oyster meats float while the shells sink. If necessary, the oysters may. be passed through the liquid on the vibrating belt and then through the rotary drum.
  • the cooking may be carried out While the oysters are immersed in brine.
  • the retort shown in Figs. 3 and 4 may be employed, with the brine introduced through inlet 40 to fill the retort to such a level that, when the loaded crates are placed in the retort, the oysters in the crates are beneath the level of the liquid.
  • the brine used is one having a salinity greater than that of the natural habitat of the oysters and preferably of a salinity varying from 10 to 50 salinometer at about F. For most oysters, a brine of a salinity of about 20 salinometer at 60 F. is satisfactory.
  • the oysters are cooked in the brine by closing the upper steam vent valve 30 and supplying steam through pipe 32, until the temperature of the brine is at a point Within the range of 220 F. to 260 F., with the pressure in the retort ranging from 2 /2 lbs. to 20 lbs.
  • the oysters are cooked in the hot brine for a period of 4 to 20 min. and a cook of from 8 to 12 min. at about 250 F. is usually satisfactory.
  • the top steam vent valve 39 is opened to release the pressure and this causes turbulence within the saline solution within the retort.
  • turbulence has a loosening effect upon the hinges of the oysters and the valves open, so that the meats are more readily accessible and more easily removed.
  • the muscles of the oysters are wholly released from the shells during cooking or, if not, the adherence of the muscles to the shells is so weakened that the turbulence causes the meats to be separated from the shells.
  • the meats may be separated from the oysters by agitation in bulk, as by the use of the rotary drum of Harris Patent 2,652,588.
  • a method of recovering the meats from bivalve molluscs which comprises freezing the bivalves until the meats are solid, then cooking the bivalves by subjecting them to a temperature in the range from about 220 F. to about 260 F. for a period from about 4 to about 25 minutes, subjecting the cooked bivalves in bulk to agitatation to free the meats from the shells, and separating the meats from the shells.

Description

1958 L. w. STRASBURGER ETAL 2,824,006
METHOD OF RECOVERING THE MEATS 0F BIVALVES Filed 001:. 2, 1956 *f 1 fi.
INVENTORS Mu. S a.
ATTORNEYS United States Patent 'ice Ila, assignors to Blue Channel .Corporation, Port Royal, 8. C., a corporation of Maryland Application October- 2,1956, Serial No. 613,554 4 Claims. (e1. 99-111) This invention relates to the treatment 'of bivalve molluscs, of which oysters,.clams, mussels, and scallops are examples, and is concerned-more particularly with a novel method, by which the meatsmay be recovered from the shells of such. bivalves rapidly and without damage to the meats. Althoughzthe invention may be utilized in the treatment of bivalves generally-,1 all the advantages of the method arerealized in-itsuse in the treatment of oysters. Accordingly, a formofwthemethod forthe recovery of oystermeats will, be illustratedand described in detail for purposes of explanation.
In the processing of oysters preparatoryto canning as heretofore practiced, it has been customary; to wash the oysters, when necessary, to remove foreign matter adherent to the shells, following which the: oysters are cooked by steaming. For this purpose, the oysters may be loaded into crates, which are placed in steam heated retorts, or may be placed incars, which. are ruh into a steam box. The recovery of oyster meats from their shells requires that the adduetormuscles'of the. oysters be freed from the innersurfaces of the valves and it had been found that the freeing of the muscles from; the valves varies in difficulty according to the locality, in which. the oysters are grown. As a consequence, the
steaming of oysters as now practiced varies in duration and temperature within a considerable rangedetermined by experience: At theconclusion-of theh'eating operation properly carried on, the shells of the oysters are found to have opened and the adhesion of the muscles to the valves greatly weakened. The meats can then be recovered by manual operations or by. the practice of the method described in Harris Patent 2,608,716, issued SeptemberZ, 1952. t
Although the use of the Harris method efiects a substantial reduction incost of canning'oys'ters, the muscles in oysters in beds from some localities, such as the Gulf of Mexico, adhere so tenaciously to the valves that it is not possible to obtain as complete recovery of the meats by the practice of the patented method as is desirable. The present invention is, accordingly, directed to a method of treating oysters and other bivalves, by which a substantially complete recovery of the meats from the shells can be easily obtained at low cost and with little or no damage to the meats, regardless of how tender they may be.
The method of the invention involves preliminarily subjecting the oysters to a freezing operation suflicient to freeze the meats solid, following which the oysters are cooked by subjecting them to a temperature in excess of 212 F. for a period varying in duration according to the source of the oysters. At the end of the cooking operation, the meats may be recovered from the shells by agitating the cooked oysters in bulk to free the meats from the shells, following which the meats are separated from the shells. The agitation may be carried out by tumbling the cooked oysters in bulk in the apparatus of Harris Patent 2,652,588, issued September 22, 1953. As a result of the preliminary freezing operation, the cook- 2,824,006 Patented Feb. 18, 1958 ingzof the oysters is made more efiicaciousin releasing the meats from the shells, so that a greatly improvedrecovery of the meats can beobtained by tumbling or agitation, even though the oysters have tender meats and highly tenacious muscles.
For a better understanding of the invention, reference may be had to the accompanyingrdrawing, inwhich:
Figs. 1 and 2 are longitudinal section and ,top: 'plan views, respectively, of one formof apparatus, whichmay be employed for performing the freezing step of the method of the invention;
Fig. 3 is a view in elevation, with parts broken away, of a retort,,which may be employed in the cooking step of themethod of the invention; and
Fig. 4 is a sectional view onthe line 44 of Fig; 3.
In the practice of the method; the shells of the oysters should be free of adhering foreign matter and the oysters obtained from some localities as landed at the dock require no cleaning,while oysters from othersourcesshould be washed. For this purpose, the oysters may be passed througha conventional rotary drum washer, withinwhioh the oystersaresubjected to water jetsasthey are rolled and tumbled in a mass. The oysters, when clean, are ready. forthe freezing step of the method and this operation can be carried on in any suitable freezing apparatus, such as that shown in Figs. 1 and 2.
The freezing apparatusillustrated comprises a tank 10 having rollers 1-1, 12 mounted-above its top-at its opposite ends. A belt 13, provided with crossbars. 14, is trained about theroller-s andthe shafts of the rollers are provided with sprocket wheels 15 driven in any suitable Way,- as by chains 16 trained about a sprocket wheel on a shaft drivenby a motor, not shown; The tank 'issupportedinsuohmanner that the upper stretch 'of the belt passes into the tank and the lower stretch may extend beneath the tank. Near one end, the tank is provided with a pipe 17 with a valve 18 for the admission of cold brine, which is withdrawn from the tank near the other end through an outlet pipe 1-9 having a valve 20.
In carrying on the freezing operation, the oysters may be deposited through a chute 21 upon the upper stretch of the beltnear the point, where it enters the tank, and the oysters are then conveyed beneath the level ofi the brine in the tank to the opposite end of the tank, where they are discharged as the belt passes over the'roller 12. If desired, a conveyor belt 22 trained about a roller 23 may be placed to receive the oysters dropping fromuthe belt 13. The temperature of the brine and the rate. at which the oysters pass through the tank 10 are such that the meats of the oysters issuing from the brine are frozen solid. The oysters are then ready for the cooking operation, which may be carried on by loading the oysters in cars and passing them into a steam box, as illustrated in the patent to Harris 2,608,716, issued September 2, 1952, or the oysters may be cooked by means of steam under pressure in a retort, such as is illustrated in Figs. 3 and 4.
The retort comprises a steel cylinder 24 having a cover 25 hinged to the upper end thereof. In closed position, the cover rests upon a gasket 26 and is held in place by bolts 27 pivoted on the cylinder and receivable between pairs of ears on the edge of the cover. The bolts have wing nuts 28, by which the cover can be clamped tight against the gasket. A steam distributor in the form of a cross 29 of perforated pipes is mounted in the cylinder near the bottom and collars 30 on the pipes and brackets 31 on the inner surface of the cylinder provide supports for the oyster crates or baskets. Steam is supplied to the cross through a steam pipe 32 having a valve 33.
The cover is provided with a safety valve 34 and a manually operated bleeder valve 35 and, at its lower end, the cylinder has a steam vent and bottom drain pipe 36 with a valve 37. Near its upper end, the cylinder has a steam vent 38 with a valve 39 and may have a liquid inlet pipe 40 with a valve 41. A box 42 mounted on the cylinder is in communication with the interior thereof and carries a pressure gauge 43, a thermometer 44, and a manually operated bleeder valve 4-5. The bleeders are of small diameter, such as A" to 2" in diameter, and the steam vents may have a diameter of 1" to 2". If desired, the retort may be provided with automatic temperature means.
In the use of the retort, the crates or baskets of frozen oysters are loaded into the retort and the cover is swung shut and clamped tight. While the top and bottom vent valves 37 and 41 are partly opened, steam is introduced through the steam supply pipe 32 and, after a short time, the valves are closed and the steam is supplied at such a rate that the retort is heated to temperatures within the range of 220 F. to 260 F. at pressures from 2 /2 lbs. to lbs. for a period from 4 to min. The duration and temperature of the cooking depends upon the source of the oysters, the thickness of their shells and maturity, shell growth factors, the size of the adductor muscles of the oysters, etc. For cooking most oysters, the use of a temperature of 250 F. with a pressure of 15 lbs. and a cooking temperature of 6 to 8 min. is satisfactory.
At the completion of the cooking operation, the top steam vent valve 39 is opened and the steam supply is cut off. The crates or baskets are then removed from the retort and the separation of the meat from the shells may be completed by agitation of the oysters in bulk in a revolving drum, as disclosed in Harris Patent 2,652,588. In the drum, the oysters are lifted and dropped as the drum rotates and the separated meats escape from the openings in the drum Wall, while the shells are discharged at the end of the drum. 1f preferred, the oysters may be carried on a belt traveling beneath the liquid and subjected from beneath to localized vibration. Preferably, the liquid through which the belt travels is a brine of such salinity that the oyster meats float while the shells sink. If necessary, the oysters may. be passed through the liquid on the vibrating belt and then through the rotary drum.
Instead of cooking the oysters by steam under pressure, the cooking may be carried out While the oysters are immersed in brine. In practicing this form of the method, the retort shown in Figs. 3 and 4 may be employed, with the brine introduced through inlet 40 to fill the retort to such a level that, when the loaded crates are placed in the retort, the oysters in the crates are beneath the level of the liquid. The brine used is one having a salinity greater than that of the natural habitat of the oysters and preferably of a salinity varying from 10 to 50 salinometer at about F. For most oysters, a brine of a salinity of about 20 salinometer at 60 F. is satisfactory. The oysters are cooked in the brine by closing the upper steam vent valve 30 and supplying steam through pipe 32, until the temperature of the brine is at a point Within the range of 220 F. to 260 F., with the pressure in the retort ranging from 2 /2 lbs. to 20 lbs. The oysters are cooked in the hot brine for a period of 4 to 20 min. and a cook of from 8 to 12 min. at about 250 F. is usually satisfactory.
At the completion of the cooking operation, the top steam vent valve 39 is opened to release the pressure and this causes turbulence within the saline solution within the retort. Such turbulence has a loosening effect upon the hinges of the oysters and the valves open, so that the meats are more readily accessible and more easily removed. In many instances, the muscles of the oysters are wholly released from the shells during cooking or, if not, the adherence of the muscles to the shells is so weakened that the turbulence causes the meats to be separated from the shells. Following the cooking in the hot brine, as described, the meats may be separated from the oysters by agitation in bulk, as by the use of the rotary drum of Harris Patent 2,652,588.
We claim:
1. A method of recovering the meats from bivalve molluscs, which comprises freezing the bivalves until the meats are solid, then cooking the bivalves by subjecting them to a temperature in the range from about 220 F. to about 260 F. for a period from about 4 to about 25 minutes, subjecting the cooked bivalves in bulk to agitatation to free the meats from the shells, and separating the meats from the shells.
2. The method of claim 1, in which the bivalves are oysters.
3. The method of claim 1, in which the bivalves are cooked while immersed in a brine of a salinity in the range from about 10 to about 50 salinometer at about 60 F. I
4. The method of claim 3, in which the salinity of the brine is about 20 salinometer at about 60 F., the brine temperature is about 250 F., and the duration of the cooking is from about 8 to about 12 minutes.
References Cited in the file of this patent UNITED STATES PATENTS 2,155,308 Harris Apr. 18, 1939 2,608,716 Harris Sept. 2, 1952 2,765,236 Blaine Oct. 2, 1956

Claims (1)

1. A METHOD OF RECOVERING THE MEATS FROM BIVALVE MOLLUSCS, WHICH COMPRISES FREEZING THE BIVALVES UNTIL THE MEATS ARE SOLID, THEN COOKING THE BIVALVES BY SUBJECTING THEM TO A TEMPERATURE IN THE RANGE FROM ABOUT 220*F. TO ABOUT 260*F. FOR A PERIOD FROM ABOUT 4 TO ABOUT 25 MINUTES, SUBJECTING THE COOKED BIVALVES IN BULK TO AGITATATION TO FREE THE MEATS FROM THE SHELLS, AND SEPARATING THE MEATS FROM THE SHELLS.
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2978334A (en) * 1957-10-07 1961-04-04 Peelers Company Process for extracting meats from crustaceans
US3007801A (en) * 1960-08-17 1961-11-07 Fernand S Lapeyre Process for the recovery of oyster meats
US4992289A (en) * 1989-10-17 1991-02-12 Air Products And Chemicals, Inc. Method for opening a mollusk
WO1994023731A1 (en) * 1993-04-17 1994-10-27 Beijing Taiheng Biomedical Technology Development Corporation An extract of freshwater mussel, methods of the extraction and uses thereof

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2155308A (en) * 1938-10-04 1939-04-18 Blue Channel Corp Preserving crab meat
US2608716A (en) * 1950-06-28 1952-09-02 Blue Channel Corp Method for recovering oysters
US2765236A (en) * 1954-03-31 1956-10-02 Henry P Wager Preserving of foodstuffs

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2155308A (en) * 1938-10-04 1939-04-18 Blue Channel Corp Preserving crab meat
US2608716A (en) * 1950-06-28 1952-09-02 Blue Channel Corp Method for recovering oysters
US2765236A (en) * 1954-03-31 1956-10-02 Henry P Wager Preserving of foodstuffs

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2978334A (en) * 1957-10-07 1961-04-04 Peelers Company Process for extracting meats from crustaceans
US3007801A (en) * 1960-08-17 1961-11-07 Fernand S Lapeyre Process for the recovery of oyster meats
US4992289A (en) * 1989-10-17 1991-02-12 Air Products And Chemicals, Inc. Method for opening a mollusk
WO1994023731A1 (en) * 1993-04-17 1994-10-27 Beijing Taiheng Biomedical Technology Development Corporation An extract of freshwater mussel, methods of the extraction and uses thereof

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