An aquaponics and greenhouse system, includes an insulated solar greenhouse with a glazing on a sun facing side at an angle to maximize winter sunlight, and housing a fish tank housed within the solar greenhouse; a plant growing area housed within the solar greenhouse; a mushroom growing area housed within the solar greenhouse; a water wall thermal mass housed within the solar greenhouse and disposed between the plant growing area and mushroom growing area; and a natural air ventilation system housed within the solar greenhouse and configured to provide misted air into the mushroom growing area. O2 generated by the plant growing area is received by the natural air ventilation system and provided to the mushroom growing area, and CO2 generated by the mushroom growing area is provided to the plant growing area.

The invention discloses a cattle shed, comprising a cattle bedding, a feeding channel, a fixed roof, a movable roof, a feeding trough, a peripheral rail fence, and a rail fence gate, wherein the cattle bedding is provided with no dividers and needs no hardening and daily manure cleaning, which is merged with playground and enclosed. The feeding channel is hardened and higher than the cattle bedding, the fixed roof and the movable roof cover the cattle bedding and the feeding trough, the peripheral rail fence and the rail fence gate surround the cattle bedding and the feeding trough, and the fixed roof and the movable roof are arranged in a slope mode, and the movable roof can be opened to allow sunlight to enter and exchange air to form convection. The cattle shed of the present invention can reduce the construction cost, open the movable roof, effectively utilize the sunlight and the air convection, ensure a complete rain-sewage separation, and realize zero discharge of manure and sewage.

A system and method for controlling the environment of a broiler poultry structure interior utilizing a transpired solar collector and controllable vents, fans and sensors. In an embodiment, the average or instant incident angle of the transpired collector is adjustable by either the manufacturer prior to installation, the installer, or a solar panel controller. In an embodiment of the system the Environmental Optimization System (EOS) provides a system for the intelligent control and monitoring the broiler poultry livestock structure environment through the utilization of a variety of environmental and livestock behavior sensors, apparatus for controlling the thermal collection and existing interior heating/air conditioning/ventilation (HVAC) systems, and Internet or cloud based intelligent control and monitoring capabilities of the system. In various embodiments central sensor data aggregation is utilized to provide improved optimization control for individual structures based on data from multiple structures.

Disclosed is a system and method for controlling the environment of a broiler poultry structure interior utilizing a transpired solar collector and controllable vents, fans and sensors. In an embodiment, the incident angle of the transpired collector is adjusted to provide additional heat or shade as needed. In an embodiment of the system the Environmental Optimization System (EOS) provides a system for the intelligent control and monitoring the broiler poultry livestock structure environment through the utilization of a variety of environmental and livestock behavior sensors, apparatus for controlling the thermal collection and existing interior heating/air conditioning/ventilation (HVAC) systems, and Internet or cloud based intelligent control and monitoring capabilities of the system. In various embodiments central sensor data aggregation is utilized to provide improved optimization control for individual structures based on data from multiple structures.

An aquaponics and greenhouse system, includes an insulated solar greenhouse with a glazing on a sun facing side at an angle to maximize winter sunlight, and housing a fish tank housed within the solar greenhouse; a plant growing area housed within the solar greenhouse; a mushroom growing area housed within the solar greenhouse; a water wall thermal mass housed within the solar greenhouse and disposed between the plant growing area and mushroom growing area; and a natural air ventilation system housed within the solar greenhouse and configured to provide misted air into the mushroom growing area. O2 generated by the plant growing area is received by the natural air ventilation system and provided to the mushroom growing area, and CO2 generated by the mushroom growing area is provided to the plant growing area.

An array system of passive solar aquaponic and mushroom production structures, each having a glazing on a sun facing side to maximize winter sunlight; a plant growing area; a mushroom growing area; a water wall thermal mass integrated and disposed between the plant and mushroom growing areas; a fish tank; a saltwater basin under the plant growing holding saltwater; a natural air ventilation system providing misted air to the mushroom growing area and receiving O2 from the plant growing provided to the mushroom growing area, and CO2 generated by the mushroom growing area provided to the plant growing area; and saltwater channels delivering saltwater to the saltwater basins from a saltwater source, and which is evaporated by solar heat generated by the plant growing areas in order to generate freshwater.

A swiftlet breeding facility, for use in creating and harvesting edible bird's nests. The facility includes sub-systems for injecting live insect and worm prey, and water, into an aerial enclosure to provide a feeding system imitative of a natural swiftlet feeding environment.

An edible bird's nests production facility, for use in creating and harvesting edible bird's nests. A plurality of arrangement of swiftlet's nesting substrates configured to maximize efficiency, productivity and high net worth value of the edible nests products created. The facility includes mechanized equipment and apparatus for harvesting swiftlet's edible nests at great heights; carriage of goods and equipment in swiftlets farming houses; safe and efficient collection of nests.

A swift let breeding facility, for use in creating and harvesting edible bird's nests. The facility includes sub-systems for injecting live insect and worm prey, and water, into an aerial enclosure to provide a feeding system imitative of a natural swift let feeding environment.

A system, method, and computer program product for an aquaponics, and greenhouse system, includes a solar greenhouse with north, east and west sides insulted and with glazing on a south side angled to maximize winter sunlight, and housing a fish tank with grow beds, and a hard filter filtering water from the fish tank coupled thereto, and including a stilling well inside of a solids collection chamber receiving water from a hard filter geyser pump, and with filter media sections of varying coarseness for providing mechanical filtration therearound, including coarser and finer media section from a bottom to a top of the solids collection chamber, a with air stones on top, and with aquatic plants including algae, and/or Duckweed, providing biological filtration growing on a water surface thereabove. A sponge filter receives overflow water from the aquatic plants and with an output thereof provided to the fish tank.