An automated aquaponics system and method of use comprising an autonomously operated plant growing conveyor belt system that allows the plant to germinate from seed capsules to fully grown plants that are then fully harvested for consumption while the plant roots are cut, chopped, cooked, and processed for the appropriate consumption of the aquarian species that resides within the aquaponic ecosystem.

An automated aquaponics system and method of use comprising an autonomously operated plant growing conveyor belt system that allows the plant to germinate from seed capsules to fully grown plants that are then fully harvested for consumption while the plant roots are cut, chopped, cooked, and processed for the appropriate consumption of the aquarian species that resides within the aquaponic ecosystem.

An automated aquarium frozen fish food feeder has a housing containing a cooling device and a dispensing device. Frozen fish food cubes dispensed into a basket melt before being accessible to fish. Melted fish food exits through openings in the basket of a size that prevent dispersal of the frozen cubes. The device structure minimizes heat exchange with ambient air. A carousel rotates to place a food container periodically in registration with a food outlet. A mechanism opens the bottom surface of the food container and dispenses food through the outlet aperture. The carousel surface is treated with friction-free coating. The carousel is removable from the carousel chamber for cleaning or filling. Different carousels are provided each dedicated to a particular size of frozen food cubes. The carousel chamber is included in a drawer below the cooling device for easy access for cleaning and for inserting selected carousels.

An automated aquarium frozen fish food feeder has a housing containing a cooling device and a dispensing device. Frozen fish food cubes dispensed into a basket melt before being accessible to fish. Melted fish food exits through openings in the basket of a size that prevent dispersal of the frozen cubes. The device structure minimizes heat exchange with ambient air. A carousel rotates to place a food container periodically in registration with a food outlet. A mechanism opens the bottom surface of the food container and dispenses food through the outlet aperture. The carousel surface is treated with friction-free coating. The carousel is removable from the carousel chamber for cleaning or filling. Different carousels are provided each dedicated to a particular size of frozen food cubes. The carousel chamber is included in a drawer below the cooling device for easy access for cleaning and for inserting selected carousels.

A method for shrimp aquaculture, in which, all growth phases and essential operations are modularized and integrated to form a multi-phasic synchronous super-intensive shrimp production system controlled by a custom designed cyber-physical platform. Modular components include, for example, post-larvae nursery modules, grow-out production modules, recirculating aquaculture system (RAS) modules, feed distribution modules, and regulatory elements comprised of Program Logic Controllers (PLCs) integrated with Human Interface Modules (HIMs).

A method for shrimp aquaculture, in which, all growth phases and essential operations are modularized and integrated to form a multi-phasic synchronous super-intensive shrimp production system controlled by a custom designed cyber-physical platform. Modular components include, for example, post-larvae nursery modules, grow-out production modules, recirculating aquaculture system (RAS) modules, feed distribution modules, and regulatory elements comprised of Program Logic Controllers (PLCs) integrated with Human Interface Modules (HIMs).

An aquaculture system including a fish holding unit which is fluidly connected to a water recirculation conduit, a water treatment unit, a water inlet, and a feed storage unit. The system further includes a feed loading section. When feed is added into the system at the feed loading section it is transported to the fish holding unit. In another aspect the invention relates to a method of transporting a feed in a recirculated aquaculture system.

An aquaculture system including a fish holding unit which is fluidly connected to a water recirculation conduit, a water treatment unit, a water inlet, and a feed storage unit. The system further includes a feed loading section. When feed is added into the system at the feed loading section it is transported to the fish holding unit. In another aspect the invention relates to a method of transporting a feed in a recirculated aquaculture system.

A mobile quantitative feeding-spraying integrated system and method. The system includes at least one hull equipped with a propeller, a feeder housing fixedly arranged on the hull, a feed box arranged on the feeder housing, a flip assembly provided at an upper end of the feed box, a blanking device arranged in the feeder housing to quantitatively control the bait blanking amount, a casting device and a spraying device. An upper end of the blanking device is a feeding end, which supports and is connected to the lower end of the feed box. A lower end of the blanking device is the discharging end. An upper side of the casting device is connected with the lower end of the blanking device, and the lower side of the casting device is provided with a discharging end facing the aquaculture water body.

A mobile quantitative feeding-spraying integrated system and method. The system includes at least one hull equipped with a propeller, a feeder housing fixedly arranged on the hull, a feed box arranged on the feeder housing, a flip assembly provided at an upper end of the feed box, a blanking device arranged in the feeder housing to quantitatively control the bait blanking amount, a casting device and a spraying device. An upper end of the blanking device is a feeding end, which supports and is connected to the lower end of the feed box. A lower end of the blanking device is the discharging end. An upper side of the casting device is connected with the lower end of the blanking device, and the lower side of the casting device is provided with a discharging end facing the aquaculture water body.