An apparatus for washing meat or produce includes a container having an interior volume defined by wall and a base, and a pipe having an outlet opening to the interior volume of the container and an inlet at an exterior of the container. The container has an opening at an upper end thereof. The outlet opens adjacent to the base such that a flow of the fluid through the pipe is directed toward or adjacent to the base. The flow of water is directed through the container so as to create a circular flow pattern that causes the debris separate from the meat or produce within the container. A handle is affixed to or formed with the container on one of the end walls of the container.

An apparatus for cleaning crustacea or game has a container with an interior volume defined by a wall, a fluid inlet extending into the interior volume of the container, and a plurality of nozzles connected to the fluid inlet. The plurality of nozzles are directed in different directions. The plurality of nozzles are positioned adjacent to the wall of the container so as to direct the fluid from the fluid inlet toward another portion of the wall of the container. The fluid inlet is adapted to pass a fluid under pressure into the interior volume of the container. The plurality of nozzles are arranged one above another.

An apparatus for cleaning crustacea or game has a container with an interior volume defined by a wall, a fluid inlet extending into the interior volume of the container, and a plurality of nozzles connected to the fluid inlet. The plurality of nozzles are directed in different directions. The plurality of nozzles are positioned adjacent to the wall of the container so as to direct the fluid from the fluid inlet toward another portion of the wall of the container. The fluid inlet is adapted to pass a fluid under pressure into the interior volume of the container. The plurality of nozzles are arranged one above another.

A method and apparatus for removing guts of a fish body, the method includes: transferring a fish body A, with a head cut off and removed, by a transfer device and cutting open the abdomen thereof with an abdominal blade on the way of transfer; transferring the fish body to a gut removal member and causing membrane separation blades, provided at an upper end portion of the gut removal member, to enter in between a peritoneal membrane portion on both sides of the vertebra and a fish meat inner wall on a head cut-off section of the fish body; swinging the gut removal member downwardly with its lower end portion as fulcrum to tilt the membrane separation blades from the horizontal state and peel off the peritoneal membrane portions from the fish meat inner wall; and shaking off downwardly the guts adhered to the peritoneal membrane portions.

A method and apparatus for removing guts of a fish body, the method includes: transferring a fish body A, with a head cut off and removed, by a transfer device and cutting open the abdomen thereof with an abdominal blade on the way of transfer; transferring the fish body to a gut removal member and causing membrane separation blades, provided at an upper end portion of the gut removal member, to enter in between a peritoneal membrane portion on both sides of the vertebra and a fish meat inner wall on a head cut-off section of the fish body; swinging the gut removal member downwardly with its lower end portion as fulcrum to tilt the membrane separation blades from the horizontal state and peel off the peritoneal membrane portions from the fish meat inner wall; and shaking off downwardly the guts adhered to the peritoneal membrane portions.

A method for ecological utilization of silver carp, including the pretreatment of silver carp and the process of making canned fish surimi. The fish meat of silver carp is processed canned surimi. The fish heads and bones are heated and undergo enzymatic hydrolysis by enzymes, and the residues of the filtration are prepared for fish bone powder. A filtration membrane is used to reduce the volume of the filtrate to 50% of fish surimi and then the filtrate is frozen to ice. The frozen part can be added to fish surimi. The transparent part from membrane filtration was used to produce protein powder or ingredients for beverages. Fish offal can be used to produce protein liquid fertilizer. Fish scales and skins can be used to produce collagen. The method adopts ecological utilization, which makes the silver carp meat used effectively, including its processed wastes. The method is a closed cycle process such that that no pollutants or wastes are discharged during the process.

A method for ecological utilization of silver carp, including the pretreatment of silver carp and the process of making canned fish surimi. The fish meat of silver carp is processed canned surimi. The fish heads and bones are heated and undergo enzymatic hydrolysis by enzymes, and the residues of the filtration are prepared for fish bone powder. A filtration membrane is used to reduce the volume of the filtrate to 50% of fish surimi and then the filtrate is frozen to ice. The frozen part can be added to fish surimi. The transparent part from membrane filtration was used to produce protein powder or ingredients for beverages. Fish offal can be used to produce protein liquid fertilizer. Fish scales and skins can be used to produce collagen. The method adopts ecological utilization, which makes the silver carp meat used effectively, including its processed wastes. The method is a closed cycle process such that that no pollutants or wastes are discharged during the process.

A revolutionized tuna process according to this invention generally comprising the steps of thawing of frozen tuna, de-heading and degutting, fileting, de-skinning, cleaning of the de-skinned tuna filet, pre-cooking, cooling, packing of the cleaned and pre-cooked tuna loin, and sterilizing the packed tuna loin or freezing the tuna loin. Not only does the process according to this invention reduces the energy utilization by half, it also significantly reduces the time required for cooking and cooling. Therefore, the whole processing time is significantly reduced from at least 8.0 hours in the conventional process to less than 30 minutes.

A revolutionized tuna process according to this invention generally comprising the steps of thawing of frozen tuna, de-heading and degutting, fileting, de-skinning, cleaning of the de-skinned tuna filet, pre-cooking, cooling, packing of the cleaned and pre-cooked tuna loin, and sterilizing the packed tuna loin or freezing the tuna loin. Not only does the process according to this invention reduces the energy utilization by half, it also significantly reduces the time required for cooking and cooling. Therefore, the whole processing time is significantly reduced from at least 8.0 hours in the conventional process to less than 30 minutes.

An apparatus for cleaning and cooking seafood or crustacea has a container with an interior volume defined by a tapered wall, a basket removably received in the interior volume of the container, a pipe positioned adjacent to the wall of the container and having a plurality of apertures adapted to direct the flow of water through holes of the basket, and a connector fluidically connected to the pipe and having a portion extending outwardly of the tapered wall of the container. The basket is tapered so as to be nestable within the tapered wall of the container. The basket has an indentation with holes extending over the pipe. A pot is spaced from the container and nestably removably receives the basket therein.