The present disclosure relates to a new and distinct hybrid plant named Mr. Grass Weedly characterized by a hybrid between Cannabis sativa L. ssp. SativaCannabis sativa L. ssp. Indica (Lam.), characterized by a Cannabis sativa L. ssp. Sativa content ranging from 3 weight percent to 90 weight percent, Cannabis sativa L. ssp. Indica (Lam.) content ranging from 8 weight percent to 80 weight percent, a cannabidiol content ranging from 0.00005 weight percent to 15 weight percent, a tetrahydrocannabinol ranging from 5 weigh percent to 63 weigh percent, and a volatiles content ranging from between 30 weight percent to 90 weight percent. Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer-operated farming superstructure systems (FSS) may be used to produce Mr. Grass Weedly for human consumption with minimal water and environmental impact. A FSS system may comprise modules including liquid distribution and plant growing. A FSS may be configured to be constructed out of a plurality of containerized modules.

The embodiments disclose a process for manufacturing a collagen protein bar including mixing an organic coconut oil with organic coconut sugar sweetener and jumbo eggs in predetermined quantities, blending baking soda, pink Himalayan sea salt and pure vanilla extract ingredients in predetermined quantities into the mixed oil, sweeteners and eggs mixture, combining with ingredients organic cassava flour and collagen protein ingredients in predetermined quantities, wherein the collagen protein source is in a range from 15% to 20% by weight of the collagen protein bar and the organic cassava flour in a range from 28% to 34% by weight of the collagen protein bar, mixing at least one organic nut and at least one chocolate in predetermined quantities into the cassava flour and collagen protein ingredient combination, baking the mixture in an oven at a predetermined temperature for a predetermined time and forming the baked mixture into a collagen protein bar.

The embodiments disclose a process for manufacturing a collagen protein bar including mixing an organic coconut oil with organic coconut sugar sweetener and jumbo eggs in predetermined quantities, blending baking soda, pink Himalayan sea salt and pure vanilla extract ingredients in predetermined quantities into the mixed oil, sweeteners and eggs mixture, combining with ingredients organic cassava flour and collagen protein ingredients in predetermined quantities, wherein the collagen protein source is in a range from 15% to 20% by weight of the collagen protein bar and the organic cassava flour in a range from 28% to 34% by weight of the collagen protein bar, mixing at least one organic nut and at least one chocolate in predetermined quantities into the cassava flour and collagen protein ingredient combination, baking the mixture in an oven at a predetermined temperature for a predetermined time and forming the baked mixture into a collagen protein bar.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

Chips infused with meat are produced according to the disclosed method. The method includes preparing a dough mixture by mixing at least one of a grain component and a vegetable component with water in a mixer and transporting the dough mixture from the mixer into an extruder. In the extruder, a ground meat product is introduced into the dough mixture to form a meat-infused dough mixture which is then extruded and cooked to make the chips. Typically, after extrusion, the meat-infused dough mixture will be cut and fried.

Chips infused with meat are produced according to the disclosed method. The method includes preparing a dough mixture by mixing at least one of a grain component and a vegetable component with water in a mixer and transporting the dough mixture from the mixer into an extruder. In the extruder, a ground meat product is introduced into the dough mixture to form a meat-infused dough mixture which is then extruded and cooked to make the chips. Typically, after extrusion, the meat-infused dough mixture will be cut and fried.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.