The invention is a system and method for transforming food waste into a commercial cleaning product. The system is containable in an enclosed facility and installable in urban environments. Food waste is sorted and ground into uniformly sized particles, heated to an acceleration temperature, inoculated with an inoculant including lactic acid bacteria, which is mixed into the ground waste. The waste then undergoes sedentary fermentation for times as short as 24 hours or less. The fermented waste is separated into liquids and solids, and liquids are further separated into at least one distillation stream. Solids are dried to obtain a second distillation stream.

The invention is a system and method for transforming food waste into a commercial cleaning product. The system is containable in an enclosed facility and installable in urban environments. Food waste is sorted and ground into uniformly sized particles, heated to an acceleration temperature, inoculated with an inoculant including lactic acid bacteria, which is mixed into the ground waste. The waste then undergoes sedentary fermentation for times as short as 24 hours or less. The fermented waste is separated into liquids and solids, and liquids are further separated into at least one distillation stream. Solids are dried to obtain a second distillation stream.

The present disclosure provides a method of continuously converting kitchen waste using three environmental insects, including following steps: pre-solid-liquid separating and removing impurities of kitchen waste using feeding and drainage characteristics of Tenebrio molitor, Hermetia illucens, and Protaetia brevitarsis Lewis; feeding larvae of the Tenebrio molitor with solids added with crushed wheat bran in a day, and completely digesting the solids added with the crushed wheat bran in the day; and adding liquid with dung-sand of the Tenebrio molitor, crop straw dry powder, and probiotics to ferment, converting the fermented liquid added with the dung-sand of the Tenebrio molitor, the crop straw dry powder, and the probiotics by larvae of the Hermetia illucens, and then converting and digesting the fermented liquid added with the dung-sand of the Tenebrio molitor, the crop straw dry powder, and the probiotics by mixing larvae of the Protaetia brevitarsis Lewis.

The present disclosure provides a method of continuously converting kitchen waste using three environmental insects, including following steps: pre-solid-liquid separating and removing impurities of kitchen waste using feeding and drainage characteristics of Tenebrio molitor, Hermetia illucens, and Protaetia brevitarsis Lewis; feeding larvae of the Tenebrio molitor with solids added with crushed wheat bran in a day, and completely digesting the solids added with the crushed wheat bran in the day; and adding liquid with dung-sand of the Tenebrio molitor, crop straw dry powder, and probiotics to ferment, converting the fermented liquid added with the dung-sand of the Tenebrio molitor, the crop straw dry powder, and the probiotics by larvae of the Hermetia illucens, and then converting and digesting the fermented liquid added with the dung-sand of the Tenebrio molitor, the crop straw dry powder, and the probiotics by mixing larvae of the Protaetia brevitarsis Lewis.

The present application relates to a system for providing nutrients to plantlets, the system comprising: a water controlling agent, an organic waste material, a seed germination enhancer, a binding material. The water controlling agent may be a super absorbent polymer. The organic waste material may be worm casting. The seed germination enhancer may be selected from a group consisting of GA3, GA 4+7, and a combination thereof. The ratio of the water controlling agent to the organic waste material may be between about 1:1 and about 1:6.

The present application relates to a system for providing nutrients to plantlets, the system comprising: a water controlling agent, an organic waste material, a seed germination enhancer, a binding material. The water controlling agent may be a super absorbent polymer. The organic waste material may be worm casting. The seed germination enhancer may be selected from a group consisting of GA3, GA 4+7, and a combination thereof. The ratio of the water controlling agent to the organic waste material may be between about 1:1 and about 1:6.

A method for preparing an organic complex microelement fertilizer for engineering wound soil remediation includes compounding chitosan oligosaccharide or/and earthworm dung or/and silkworm sand, water or/and hydrogen peroxide, an organic complex trace element solution, polyethylene glycol octyl phenyl ether, and polysorbate under certain conditions. The present invention can significantly improve physical and chemical properties of engineering wounds, enhance effectiveness of trace elements in soil, and prevent plant physiological diseases due to lack of trace elements, and promote plant growth and development.

A method for preparing an organic complex microelement fertilizer for engineering wound soil remediation includes compounding chitosan oligosaccharide or/and earthworm dung or/and silkworm sand, water or/and hydrogen peroxide, an organic complex trace element solution, polyethylene glycol octyl phenyl ether, and polysorbate under certain conditions. The present invention can significantly improve physical and chemical properties of engineering wounds, enhance effectiveness of trace elements in soil, and prevent plant physiological diseases due to lack of trace elements, and promote plant growth and development.

Disclosed herein are feedstock materials which can be used for the manufacture of industrial products and consumer goods. The feedstock materials comprise particles of a comminuted paper product having fibrous portions on an outer surface thereof distributed throughout a diagenetically formed mineral aggregate comprising gypsum, syngenite and magnesium hydroxide and/or magnesium sulphate. The feedstock material, and products produced therefrom, is adapted to degrade when buried. Also disclosed herein are methods for producing the feedstock materials, and products produced from the feedstock materials.

Disclosed herein are feedstock materials which can be used for the manufacture of industrial products and consumer goods. The feedstock materials comprise particles of a comminuted paper product having fibrous portions on an outer surface thereof distributed throughout a diagenetically formed mineral aggregate comprising gypsum, syngenite and magnesium hydroxide and/or magnesium sulphate. The feedstock material, and products produced therefrom, is adapted to degrade when buried. Also disclosed herein are methods for producing the feedstock materials, and products produced from the feedstock materials.