Abstract: A method of smoke-infusing proteinaceous foods comprises the following sequential steps: a) enclosing the proteinaceous foods in a vacuum-treating zone; b) introducing smoke directly or indirectly from a smoke generation zone into the vacuum-treating zone; c) subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone, thereby infusing smoke into the proteinaceous foods; d) repeating the steps of introducing smoke directly or indirectly from the smoke generation zone into the vacuum-treating zone; subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone at least fifty times in pulsed sequences of smoke introduction stage/vacuum purging stage/vacuum release stage for the efficient infusion of smoke into the proteinaceous foods; and e) a post-chill resting cycle of the smoke-infused proteinaceous foods at a suitable temperature and for a suitable period of time.

Abstract: A method of smoke-infusing proteinaceous foods comprises the following sequential steps: a) enclosing the proteinaceous foods in a vacuum-treating zone; b) introducing smoke directly or indirectly from a smoke generation zone into the vacuum-treating zone; c) subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone, thereby infusing smoke into the proteinaceous foods; d) repeating the steps of introducing smoke directly or indirectly from the smoke generation zone into the vacuum-treating zone; subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone at least fifty times in pulsed sequences of smoke introduction stage/vacuum purging stage/vacuum release stage for the efficient infusion of smoke into the proteinaceous foods; and e) a post-chill resting cycle of the smoke-infused proteinaceous foods at a suitable temperature and for a suitable period of time.

Abstract: A method of smoke-infusing proteinaceous foods comprises the following sequential steps: a) enclosing the proteinaceous foods in a vacuum-treating zone; b) introducing smoke directly or indirectly from a smoke generation zone into the vacuum-treating zone; c) subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone, thereby infusing smoke into the proteinaceous foods; d) repeating the steps of introducing smoke directly or indirectly from the smoke generation zone into the vacuum-treating zone; subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone at least fifty times in pulsed sequences of smoke introduction stage/vacuum purging stage/vacuum release stage for the efficient infusion of smoke into the proteinaceous foods; and e) a post-chill resting cycle of the smoke-infused proteinaceous foods at a suitable temperature and for a suitable period of time.

Abstract: A method of smoke-infusing proteinaceous foods comprises the following sequential steps: a) enclosing the proteinaceous foods in a vacuum-treating zone; b) introducing smoke directly or indirectly from a smoke generation zone into the vacuum-treating zone; c) subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone, thereby infusing smoke into the proteinaceous foods; d) repeating the steps of introducing smoke directly or indirectly from the smoke generation zone into the vacuum-treating zone; subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone at least fifty times in pulsed sequences of smoke introduction stage/vacuum purging stage/vacuum release stage for the efficient infusion of smoke into the proteinaceous foods; and e) a post-chill resting cycle of the smoke-infused proteinaceous foods at a suitable temperature and for a suitable period of time.

Abstract: A method of smoke-infusing proteinaceous foods comprises the following sequential steps: a) enclosing the proteinaceous foods in a vacuum-treating zone; b) introducing smoke directly or indirectly from a smoke generation zone into the vacuum-treating zone; c) subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone, thereby infusing smoke into the proteinaceous foods; d) repeating the steps of introducing smoke directly or indirectly from the smoke generation zone into the vacuum-treating zone; subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone at least fifty times in pulsed sequences of smoke introduction stage/vacuum purging stage/vacuum release stage for the efficient infusion of smoke into the proteinaceous foods; and e) a post-chill resting cycle of the smoke-infused proteinaceous foods at a suitable temperature and for a suitable period of time.

Abstract: An interactive computerized game system including a visual display, one or more user input devices, and a processor executing software that interacts with the display and input device(s) is disclosed. The software displays images avatars. At least one of the user input devices is a touchscreen. During gameplay, the gameplayer may select at least one avatar using the touchscreen and initiate a skill-based action sub-game. The gameplayer may provide additional input using the touchscreen. An animation is displayed in response to user input satisfying an objective of the sub-game.

Abstract: A method of smoke-infusing proteinaceous foods comprises the following sequential steps: a) enclosing the proteinaceous foods in a vacuum-treating zone; b) introducing smoke directly or indirectly from a smoke generation zone into the vacuum-treating zone; c) subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone, thereby infusing smoke into the proteinaceous foods; d) repeating the steps of introducing smoke directly or indirectly from the smoke generation zone into the vacuum-treating zone; subjecting the proteinaceous foods to vacuum purging at a negative pressure in the vacuum-treating zone at least fifty times in pulsed sequences of smoke introduction stage/vacuum purging stage/vacuum release stage for the efficient infusion of smoke into the proteinaceous foods; and e) a post-chill resting cycle of the smoke-infused proteinaceous foods at a suitable temperature and for a suitable period of time.

Abstract: A method and apparatus are provided for the extraction and collection of coelomic fluid of sea stars. The method includes feeding sea stars, one at a time, from storage into the mouth of a longitudinally-moving gripper. The method includes moving the sea stars in a downstream direction by means of the longitudinally-moving gripper. The method includes severing the tip of the arm of the sea star. The method includes allowing the coelomic fluid to drain out of the severed arm of the sea star; The method includes accumulating the drained coelomic fluid. The method includes collecting the accumulated drained coelomic fluid. Finally, the method includes discharging the sea stars from the longitudinally-moving gripper.

Abstract: An interactive computerized game system including a visual display, one or more user input devices, and a processor executing software that interacts with the display and input device(s) is disclosed. The software displays images avatars. At least one of the user input devices is a touchscreen. During gameplay, the gameplayer may select at least one avatar using the touchscreen and initiate a skill-based action sub-game. The gameplayer may provide additional input using the touchscreen. An animation is displayed in response to user input satisfying an objective of the sub-game.

Abstract: An edible protein-containing meal for human and animal consumption and high quality food grade oils are obtained from oil seeds and other oil and protein containing plants. The meal has a significantly improved level of dietary available (absorbable) protein. The protein is substantially free of oils and fats, and is a cleaner, purer product with high levels of absorbable protein. Such protein isolates can be used as such or added to formulated foods in order to increase the total protein content of that food. The meal produced and the oils recovered have compositions which are unique and unobtainable by prior processing methods, having a greater content of proteins, the proteins having a greater solubility and an increased ratio of high to medium molecular weight proteins.

Abstract: Methods for processing of killed crustaceans are provided herein. In one such method, an essential step of processing a killed crustacean include cutting the thorax of the killed crustacean. The anterior section of the crustacean is vacuum eviscerated through the cut thorax. The removal of the visceral contents of the crustacean is completed by the sole step of back-flushing the anterior section of the crustacean with water. the posterior section of the crustacean is vacuum eviscerated. The removal of the intestinal contents of the crustacean is completed by the sole step of back-flushing the posterior section of the crustacean with water. This provides an intact crustacean having intact raw edible crustacean meat in situ, in which the intact raw edible crustacean meat is not subject to visceral staining and/or the concentration of heavy-metal contaminants therein.

Abstract: Procedures are provided herein for the optimization of the utilization of crustaceans, e.g., whole lobsters, through the inclusion of under-utilized components. The procedure involves firstly, initiating the detachment of the raw edible deep-shoulder myotomal meat from deep-shoulder cartilaginous skeleton attachment. This may be accomplished either by immersing the head-shell in a solution of protease enzymes, or subjecting the head-shell to at least one freeze-thaw cycle. Then, the so-treated head-shell is subjected to vacuum aspiration to remove, and to recover, the raw meat fraction. Procedures are further-described for the utilization of such recovered raw meat fraction, e.g., to provide stuffing and to provide stuffed crustaceans, e.g., lobsters.

Abstract: Methods are provided for separating the intact shell of hard-shelled crustaceans of any species from the raw edible meat contained therein which is very strongly attached to the shells. The methods each include the first step of initiating the detachment of the raw edible meat from the intact shell by the step of subjecting the intact shell to at least one freeze-thaw cycle, where the thawing is carried out in cold water or cold brine to minimize deterioration of the flavour of the crustacean meat. Then the intact shell is separated from the raw edible meat by several different alternative steps. One alternative step includes subjecting the so-treated intact shell to vacuum aspiration to separate the intact shell from the raw edible crustacean meat, so as to recover the raw edible crustacean meat. These methods may also be used for the recovery of raw edible intact crustacean meat, from easy-to-process clawed lobsters of the Homaridae family, easy-to-process crab, e.g.