The diffuser can have a body having a gas passage comprising a gas inlet connectable to a gas source for generating a stream of gas along the gas passage, and an outlet for exhausting the stream of gas in the form of a jet outside the body, a liquid chamber having a liquid inlet connectable to a liquid source, at least one liquid delivery conduit connecting the liquid chamber to the gas passage, the liquid delivery aperture having a cross-sectional width of less than 1 mm, preferably less than 0.5 mm, more preferably less than 0.1 mm, and even more preferably being a capillary conduit, the liquid delivery conduit extending transversally to the orientation of the stream of gas in the gas passage.

The diffuser can have a body having a gas passage comprising a gas inlet connectable to a gas source for generating a stream of gas along the gas passage, and an outlet for exhausting the stream of gas in the form of a jet outside the body, a liquid chamber having a liquid inlet connectable to a liquid source, at least one liquid delivery conduit connecting the liquid chamber to the gas passage, the liquid delivery aperture having a cross-sectional width of less than 1 mm, preferably less than 0.5 mm, more preferably less than 0.1 mm, and even more preferably being a capillary conduit, the liquid delivery conduit extending transversally to the orientation of the stream of gas in the gas passage.

A plant growth apparatus that includes a container with a main cylindrical portion having a main upper opening and a lateral reservoir. The lateral reservoir has a reservoir opening angled downward from the upper opening. The apparatus includes a lid configured for connection to the main upper opening. The lid is defined by one or more apertures. The apparatus further includes a plant carrier configured for connection to the one or more apertures, such that a majority portion of the plant carrier extends into the main cylindrical portion. Also disclosed is a kit for assembling a plant growth apparatus that includes a container defined by a main cylindrical portion with a main upper opening and a lateral reservoir in fluid communication with the main cylindrical portion. The lateral reservoir has a reservoir opening angled downward from the upper opening. The kit also includes a cover for the reservoir opening.

A plant growth apparatus that includes a container with a main cylindrical portion having a main upper opening and a lateral reservoir. The lateral reservoir has a reservoir opening angled downward from the upper opening. The apparatus includes a lid configured for connection to the main upper opening. The lid is defined by one or more apertures. The apparatus further includes a plant carrier configured for connection to the one or more apertures, such that a majority portion of the plant carrier extends into the main cylindrical portion. Also disclosed is a kit for assembling a plant growth apparatus that includes a container defined by a main cylindrical portion with a main upper opening and a lateral reservoir in fluid communication with the main cylindrical portion. The lateral reservoir has a reservoir opening angled downward from the upper opening. The kit also includes a cover for the reservoir opening.

A breathable reflective cover for hydroponic or aeroponic grow apparatus is devised to cover an extant standalone grow unit. The cover comprises a porous fabric matrix that serves to subdue the illuminance emitted by the grow unit during use while enabling gaseous exchange with the surrounding atmosphere. The cover enables easy access to plants grown in the grow unit while protecting the plants from external influences, including pets.

A production plan for producing cannabis in a facility comprising a building module comprising five growth chambers of substantially equal size and a GMP processing area comprises a system of concurrent cyclic processes (SCCPs) for carrying out cannabis processing steps of hardening; growth, wet hanging, in-process quality control, transfer to GMP drying; in-process quality control; trimming; curing, and grading/packing. The SCCPs is based upon a minimum cycle time (MCT) defined as MCT=FP/5, where FP is a flowering period for a selected cannabis species, and 5 is the number of growth chambers in which the cannabis species will be grown. A cannabis production facility comprises a building module having five growth chambers of substantially equal size, a GMP processing area and a production plan. A method is provided for designing a cannabis production facility for assessing the feasibility thereof at a concept stage.

An indoor gardening appliance includes a grow module positioned within a grow chamber for receiving one or more plant pods. The indoor gardening system includes a hydration system including a water supply for providing a flow of water into a mixing tank and a discharge nozzle for selectively discharging the flow of water into the grow chamber. The indoor gardening appliance further includes a cleaning assembly fluidly coupled to the hydration system for selectively discharging a cleaning agent into the flow of water to create a cleaning solution to facilitate a self-clean cycle.

An indoor gardening appliance includes a grow module positioned within a grow chamber for receiving one or more plant pods. The indoor gardening system includes a hydration system including a water supply for providing a flow of water into a mixing tank and a discharge nozzle for selectively discharging the flow of water into the grow chamber. The indoor gardening appliance further includes a cleaning assembly fluidly coupled to the hydration system for selectively discharging a cleaning agent into the flow of water to create a cleaning solution to facilitate a self-clean cycle.

An integrated modular and scalable fogponics crop growth system for cultivating a crop includes an upper growth chamber housing a leafy portion of a crop, a lower growth chamber housing a root portion of the crop, a nutrient tank and dispenser, and an environmental system. The nutrient dispenser is coupled to the nutrient tank holding a nutrient mixture for sustaining the crop. The dispenser atomizes the nutrient mixture into a nutrient fog using a booster pump and a high pressure pump capable of generating approximately 800 PSI to 1500 PSI. The high pressure pump is operatively coupled to a nozzle configured to dispense the atomized nutrient fog, substantially between 6 microns and 15 microns droplet size, into the lower growth chamber. Temperature and humidity are separately controlled in the leaf area.

Abstract: Resilient plant development media are disclosed that can include a first layer that includes a plurality of adjacent strands, a second layer that includes a plurality of strands that are adjacent and that is in stacked relation relative to the first layer, wherein the strands of the first layer and the strands of the second layer are in a non-aligned orientation relative to each other. The strands in the first layer and the strands in the second layer may define a crisscross pattern. The multilayer resilient media is effective in supporting seeds during germination and plants throughout their growth and development. The multilayer resilient media is effective for use in various plant growing modalities, e.g., aeroponic, nutrient film, and hydroponic plant growing environments, and may be easily cleaned for reuse.