The Earthginuity Composting System is an organic waste composting system. It consists of three steps/components. The first step is using a free-standing cylindrical tube that goes in the kitchen. Organic waste goes into the tube. The second step is the Phase 1 Bin. It is a square-shaped plastic bin that sits on raw earth, and it's about thirty three gallons in volume. It has drainage holes at the bottom and two pegs protruding from the front to serve as anchors for dumping. The final component is the two Earth Grids. They are three by three feet, sandbox-like squares with NO bottoms and liquid-tight lids. The lack of a bottom to the Earthgrids allows for sitting on raw earth to attract ground bugs/bacteria. The lids have rain holes. You can open, close, and empty the Earth Grids with a Shepherd's Staff (hooked pole).

Apparatus and method for converting organic waste into compost, having: a chamber, with an entry portal disposed near a top and one side of the chamber, and with an exit portal disposed at a bottom of the chamber; an auger extending at a level along a length of the chamber and adjacent to the top of the chamber; a collection chamber disposed under part of the chamber, aligning with the exit portal, and having a door for access therein; a bin fitting entirely within the collection chamber and removable therefrom; a blower for introducing controlled air; sensors to detect the level of organic waste in the chamber relative to the auger; a rotating gate between the exit portal and the collection chamber providing intermittent opening and closing of the chamber to the bin therebelow; and a feedback circuit for delivering a switching signal from the sensors.

Apparatus and method for converting organic waste into compost, having: a chamber, with an entry portal disposed near a top and one side of the chamber, and with an exit portal disposed at a bottom of the chamber; an auger extending at a level along a length of the chamber and adjacent to the top of the chamber; a collection chamber disposed under part of the chamber, aligning with the exit portal, and having a door for access therein; a bin fitting entirely within the collection chamber and removable therefrom; a blower for introducing controlled air; sensors to detect the level of organic waste in the chamber relative to the auger; a rotating gate between the exit portal and the collection chamber providing intermittent opening and closing of the chamber to the bin therebelow; and a feedback circuit for delivering a switching signal from the sensors.

The Earthginuity Composting System is an organic waste composting system. It consists of three steps/components. The first step is using a free-standing cylindrical tube that goes in the kitchen. Organic waste goes into the tube. The second step is the Phase 1 Bin. It is a square-shaped plastic bin that sits on raw earth, and it's about thirty three gallons in volume. It has drainage holes at the bottom and two pegs protruding from the front to serve as anchors for dumping. The final component is the two Earth Grids. They are three by three feet, sandbox-like squares with NO bottoms and liquid-tight lids. The lack of a bottom to the Earthgrids allows for sitting on raw earth to attract ground bugs/bacteria. The lids have rain holes. You can open, close, and empty the Earth Grids with a Shepherd's Staff (hooked pole).

A mobile, self-contained system for enhancing plant growth comprising: a mobile structure comprising a plurality of wheels so that the system can be moved; a vessel supported by the structure; a recirculating pump supported by the structure and exterior to the vessel, the pump having a first discharge line and a second discharge line; a generator supported by the structure; a vessel outlet from a bottom portion of the vessel to the pump; and an aerator for injecting air into the first discharge line; wherein the first discharge line extends from the pump directly into the bottom portion of the vessel, such that the contents of the vessel can be recirculated by the pump from the vessel outlet back into the vessel through the first discharge line and the second discharge line extends from the pump and is adapted for discharging contents of the vessel directly into an irrigation system.

An assemblage appliance and method of recycling organic waste into biogas and liquid fertilizer, implementing essentially anaerobic digestion processes, is described. The assemblage appliance includes: a pliant structured exoskeletal envelope, pliable collapsible anaerobic digester and gas tank. A compact kit-of-parts for assembling the aforementioned appliance and respective method using the aforementioned appliance for recycling organic waste into biogas and liquid fertilizer are described.

An assemblage appliance and method of recycling organic waste into biogas and liquid fertilizer, implementing essentially anaerobic digestion processes, is described. The assemblage appliance includes: a pliant structured exoskeletal envelope, pliable collapsible anaerobic digester and gas tank. A compact kit-of-parts for assembling the aforementioned appliance and respective method using the aforementioned appliance for recycling organic waste into biogas and liquid fertilizer are described.

A renewable energy microgeneration apparatus is disclosed that includes a mixing tank that mixes waste with a liquid, a buffer tank that receives and pre-warms the mixed waste, a pasteurization tank that pasteurizes on the pre-warmed mixed waste, a digestion tank that performs anaerobic digestion on the pasteurized waste, a de-watering device that separates liquid digestate and removes salt from the liquid, sensors that measure salinity and biogas quality, and a controller. The controller causes the transfer of digestate from the digestion tank to the pasteurization tank to the dewatering device, causes the de-watering device to separate the liquid and remove the salt from the liquid, monitors the salinity of the liquid and the quality of biogas using the sensors, and causes the mixing of the liquid with the waste and adjusts the feed rate of the waste to reduce the salinity of the waste and increase methane production.

A renewable energy microgeneration apparatus is disclosed that includes a mixing tank that mixes waste with a liquid, a buffer tank that receives and pre-warms the mixed waste, a pasteurization tank that pasteurizes on the pre-warmed mixed waste, a digestion tank that performs anaerobic digestion on the pasteurized waste, a de-watering device that separates liquid digestate and removes salt from the liquid, sensors that measure salinity and biogas quality, and a controller. The controller causes the transfer of digestate from the digestion tank to the pasteurization tank to the dewatering device, causes the de-watering device to separate the liquid and remove the salt from the liquid, monitors the salinity of the liquid and the quality of biogas using the sensors, and causes the mixing of the liquid with the waste and adjusts the feed rate of the waste to reduce the salinity of the waste and increase methane production.

Provided is an expandable, modular tower planter having an internal vertical composting capability, and a method of assembling and using the same. Provided in various example embodiments is a modular composting garden container system comprising a base and a plurality of stackable rings forming a tower upon the base, including an optional base ring specially sized, shaped, and positioned to connect the tower to the base. A plurality of perforated, stackable tube sections are provided that are removably assembled into a compost tube assembly of selectable height and mounted within the interior of the tower and above the base. A plurality of holding struts are sized, shaped, and positioned to removably connect the compost tube assembly with the tower and to securely locate the compost tube assembly relative to the tower. Means are provided for recovering nutrient-rich drainage and selective recovery of compost material for reintroduction into the system.