Embodiments of the present disclosure relate generally to systems and methods for combing ozone and water to deliver ozonated water in a rinse stream. The ozone rain pan finds particular use for rinsing food products traveling along a conveyor line with ozonated water.

A filtration system is arranged to safely vent a storage room into which a fog mixture is introduced. Venting the storage room reduces and/or prevents a substantial increase in the internal pressure of the storage room. To control the pressure differential between the storage room and the ambient air pressure, a venting manifold with an in-line duct fan is used, for example, to exhaust storage room air into the atmosphere. The exhausted storage room air is filtered to reduce the exfiltration of chemicals and/or other contaminants from the environmentally sealed storage room.

A filtration system is arranged to safely vent a storage room into which a fog mixture is introduced. Venting the storage room reduces and/or prevents a substantial increase in the internal pressure of the storage room. To control the pressure differential between the storage room and the ambient air pressure, a venting manifold with an in-line duct fan is used, for example, to exhaust storage room air into the atmosphere. The exhausted storage room air is filtered to reduce the exfiltration of chemicals and/or other contaminants from the environmentally sealed storage room.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer-operated farming superstructure systems (FSS) may be used to produce cannabis for human consumption with minimal water and environmental impact. Methods to method to separate volatiles from cannabis are described. Methods to asexually clone a plurality of cannabis plants are also provided.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer-operated farming superstructure systems (FSS) may be used to produce cannabis for human consumption with minimal water and environmental impact. Methods to method to separate volatiles from cannabis are described. Methods to asexually clone a plurality of cannabis plants are also provided.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer-operated farming superstructure systems (FSS) may be used to produce cannabis for human consumption with minimal water and environmental impact. Methods to method to separate volatiles from cannabis are described. Methods to asexually clone a plurality of cannabis plants are also provided.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer-operated farming superstructure systems (FSS) may be used to produce cannabis for human consumption with minimal water and environmental impact. Methods to method to separate volatiles from cannabis are described. Methods to asexually clone a plurality of cannabis plants are also provided.

Disclosed is system for inactivating bacteria and/or reducing microbial count on product, in particular a food product, susceptible to microbial presence, said system comprising a processing chamber which is operably connected to i) a means for generating UV-C light, ii) a means for generating hydrogen peroxide vapor and/or means for generating ozone, and iii) a heat source. Also disclosed is a method for inactivating bacteria and/or reducing microbial count on a product, in particular food product, which is susceptible to microbial presence, said method comprising subjecting said product in a processing chamber to exposure with ultraviolet C (UV-C) light and hydrogen peroxide vapor and/or ozone, and heat, for a processing time of between 5-120 seconds, wherein the hydrogen peroxide vapor is present at up to 12% v/v solution, and the temperature inside the processing chamber is maintained between about 22? C. and 60? C.

Disclosed is system for inactivating bacteria and/or reducing microbial count on product, in particular a food product, susceptible to microbial presence, said system comprising a processing chamber which is operably connected to i) a means for generating UV-C light, ii) a means for generating hydrogen peroxide vapor and/or means for generating ozone, and iii) a heat source. Also disclosed is a method for inactivating bacteria and/or reducing microbial count on a product, in particular food product, which is susceptible to microbial presence, said method comprising subjecting said product in a processing chamber to exposure with ultraviolet C (UV-C) light and hydrogen peroxide vapor and/or ozone, and heat, for a processing time of between 5-120 seconds, wherein the hydrogen peroxide vapor is present at up to 12% v/v solution, and the temperature inside the processing chamber is maintained between about 22? C. and 60? C.

A method to produce a Cannabis extract is described. Cannabis oil is mixed with ethanol to produce a liquid mixture, ethanol from the mixture is then evaporated, condensed, and reused in the mixing step. The Cannabis oil may be ethanol extracted from Cannabis plant material or may be extracted with a solvent then mixed with the ethanol to produce the liquid mixture. Cooling, filtering, ingredient mixing, foodstuff or beverage production of the Cannabis extract or a distillate therefrom are described.