A vermicomposting system for treating waste water streams that includes a pretreatment stage for converting liquid or semi-liquid organic waste streams into a feedstock for vermicomposting; a vermicomposting digestion stage having populations of worms and beneficial bacteria which consume and break down organic material and nutrients present in the feedstock from the pretreatment stage to create worm castings, vermicompost, and a liquid compost tea that contains plant nutrients, plant growth promoting substances, and beneficial bacteria; and a post-treatment stage in which the liquid compost tea is removed for use as an soil amendment or inoculant, or is further treated in a separate containment tank where nutrients and oxygen levels are controlled to increase specific bacterial and fungal populations.

A composting bin for breaking down organic material includes a container having an interior and an opening. The interior includes a plurality of regions, including a first region and a second region. The first region and the second region are configured to support decomposable organic material. In operation, a user positions decomposable organic material in, for example, the first region. The user then provides a composting animal in the first region. The user covers the composting bin to inhibit light from entering the composting bin. Upon completion of the composting process, the user causes the composting animal to move from the first region to the second region. The user causes the composting animal to move from the first region to the second region by allowing light to enter the first region, and/or providing food in the second region while denying food in the first region.

A composting bin for breaking down organic material includes a container having an interior and an opening. The interior includes a plurality of regions, including a first region and a second region. The first region and the second region are configured to support decomposable organic material. In operation, a user positions decomposable organic material in, for example, the first region. The user then provides a composting animal in the first region. The user covers the composting bin to inhibit light from entering the composting bin. Upon completion of the composting process, the user causes the composting animal to move from the first region to the second region. The user causes the composting animal to move from the first region to the second region by allowing light to enter the first region, and/or providing food in the second region while denying food in the first region.

An Internet of Things (IoT) BIoTower for recycling food wastes into nutrients and for growing organic plants is disclosed which includes a food waste disposable tower for receiving food wastes; a multi-leveled carousels connected to the food waste disposable tower, each containing soils infested with earthworms; and an Internet of Things (IoT) irrigation system designed to provide sustainability to the soils and the organic plants.

An Internet of Things (IoT) BIoTower for recycling food wastes into nutrients and for growing organic plants is disclosed which includes a food waste disposable tower for receiving food wastes; a multi-leveled carousels connected to the food waste disposable tower, each containing soils infested with earthworms; and an Internet of Things (IoT) irrigation system designed to provide sustainability to the soils and the organic plants.

A process for the preparation of a soil inoculating composition comprising the steps of a) loading a vermicompost into a tank, b) adding a sufficient amount of water and molasses to vermicompost, c) breeding of microorganism in the mixture obtained in the step b), by adjusting the temperature to a range between 25-27 C. and by providing air into the mixture, d) forcing microorganism in the mixture obtained in the step c), to dormant state by d) adding a sufficient amount of molasses, e) bottling the composition obtained in the step d), for storage, f) resuscitating of microorganism in the stored composition from the dormant state to active state by diluting the composition with a sufficient amount of water before soil inoculation. An apparatus for producing soil inoculating composition comprising two concentric tanks wherein the inner tanks (104) holds the composition and the outer tank (101) acting as an heating system holds a liquid kept at a desired temperature by an heat control system (106).

A process for the preparation of a soil inoculating composition comprising the steps of a) loading a vermicompost into a tank, b) adding a sufficient amount of water and molasses to vermicompost, c) breeding of microorganism in the mixture obtained in the step b), by adjusting the temperature to a range between 25-27 C. and by providing air into the mixture, d) forcing microorganism in the mixture obtained in the step c), to dormant state by d) adding a sufficient amount of molasses, e) bottling the composition obtained in the step d), for storage, f) resuscitating of microorganism in the stored composition from the dormant state to active state by diluting the composition with a sufficient amount of water before soil inoculation. An apparatus for producing soil inoculating composition comprising two concentric tanks wherein the inner tanks (104) holds the composition and the outer tank (101) acting as an heating system holds a liquid kept at a desired temperature by an heat control system (106).

Provided are methods, devices and systems for cultivating insect larvae and processing organic material. Exemplary systems and methods provide an arrangement of shelves containing trays for larvae cultivation and frass collection. The shelves are maintained in a controlled environment and are adapted to receive a feedstock comprising organic material for conversion into insect biomass. A system for continuous harvesting of larvae and frass is provided.

A housing for a worm farm includes a composting cavity that, in use of the housing, is to contain worms, bedding material and/or organic waste, the composting cavity being defined by a floor having openings through which castings can pass, and one or more side walls that extend around the floor. A support structure supports the floor and the side walls above a ground surface. A cover locates on the side walls and extend over the composting cavity, and is movable to enable access to the composting cavity. A castings receptacle is movable between an operative position and at least one displaced position.

A housing for a worm farm includes a composting cavity that, in use of the housing, is to contain worms, bedding material and/or organic waste, the composting cavity being defined by a floor having openings through which castings can pass, and one or more side walls that extend around the floor. A support structure supports the floor and the side walls above a ground surface. A cover locates on the side walls and extend over the composting cavity, and is movable to enable access to the composting cavity. A castings receptacle is movable between an operative position and at least one displaced position.