A decentralized based biowaste treatment system for treating biowaste (i.e., organic matter type/based waste such as manure, sawdust and/or food scraps) by manner of anaerobic digestion (e.g., an anaerobic digestion based waste-to-resource system) and a method of biowaste treatment in association with the biowaste treatment system.

In one aspect, a method of preparing high quality homogenous slow-release bio-fertilizer that may include steps of preparing a liquid concentrate comprising nitrogen, potassium, phosphorus, ammonium nitrate, bacteria, one or more wetting agent, natural enzymes, azomite powders, trace mineral and basalt rock powders; adding said liquid concentrate to a biosolid; mixing the liquid concentrate-biosolid composition in a mixing means; and drying said composition. In one embodiment, a bio-fertilizer can be a homogenous organic base fertilizer for plant nutrition and soil fertility. Also, the fertilizer in the present invention can be added for plant nutrition and soil fertility, and concentrated liquid formulations/nutrient supplements can be added to the fertilizer in the present invention.

In one aspect, a method of preparing high quality homogenous slow-release bio-fertilizer that may include steps of preparing a liquid concentrate comprising nitrogen, potassium, phosphorus, ammonium nitrate, bacteria, one or more wetting agent, natural enzymes, azomite powders, trace mineral and basalt rock powders; adding said liquid concentrate to a biosolid; mixing the liquid concentrate-biosolid composition in a mixing means; and drying said composition. In one embodiment, a bio-fertilizer can be a homogenous organic base fertilizer for plant nutrition and soil fertility. Also, the fertilizer in the present invention can be added for plant nutrition and soil fertility, and concentrated liquid formulations/nutrient supplements can be added to the fertilizer in the present invention.

A food recycler can include a housing defining an interior and an access opening to the interior. A mixing bin can be located within the interior and can have an inlet and an outlet. The food recycler can further include an output bin, the output bin having an inlet. The outlet of the mixing bin can couple or connect to the inlet of the output bin.

A biologically active compost is manufactured using a sterile commodity compost, a set of cultures and inoculants, and a disbursed portion of an earlier biologically active compost. The biologically active compost is manufactured from the sterile commodity compost, infusing it with the cultures and inoculants, and combining it with the disbursed portion of an earlier biologically active compost. The resultant biologically active compost includes a compost substrate suitable for growing biological material, and a microbiome permeating the substrate, the microbiome having a collection of microfauna with a wide biological diversity or other statistical variance. The microbiome includes archaea, aerobic or anaerobic bacteria, amoebae or protozoa, fungi, nematodes, microarthopods, or plant or animal fragments, well in excess of amounts that can survive the thermophilic process for producing the commodity compost.

A biologically active compost is manufactured using a sterile commodity compost, a set of cultures and inoculants, and a disbursed portion of an earlier biologically active compost. The biologically active compost is manufactured from the sterile commodity compost, infusing it with the cultures and inoculants, and combining it with the disbursed portion of an earlier biologically active compost. The resultant biologically active compost includes a compost substrate suitable for growing biological material, and a microbiome permeating the substrate, the microbiome having a collection of microfauna with a wide biological diversity or other statistical variance. The microbiome includes archaea, aerobic or anaerobic bacteria, amoebae or protozoa, fungi, nematodes, microarthopods, or plant or animal fragments, well in excess of amounts that can survive the thermophilic process for producing the commodity compost.

Methods and systems for converting ammonium waste streams into certifiably Organic ammonium salts having a variety of uses in greenhouse gas-reducing activities are herein described. The resulting ammonium salt compositions can be used to enhance crop yield.

The present disclosure provides a joint control method for nitrogen and phosphorus emissions in farmlands, comprising: reducing nitrogen and phosphorus input during crop sowing or planting by applying composite organic material and chemical fertilizer, wherein the composite organic material comprises: 200-250 parts of edible fungi residues, 300-350 parts of charcoal and 5-10 parts of rhamnolipid; constructing a nitrogen-phosphorus retaintion layer by utilizing composite microbial agent in combination with 150 parts of edible fungi residues and 20 parts of straw-based hydrogel; constructing a barrier layer by utilizing composite material, and controlling downward leaching of nitrogen and phosphorus that are not absorbed by crops, wherein the composite material of the barrier layer comprises: 25-35 parts of straw-based hydrogel, 20-30 parts of edible fungi residues, 35-55 parts of bentonite and 5-10 parts of corn flour.

The present disclosure provides a joint control method for nitrogen and phosphorus emissions in farmlands, comprising: reducing nitrogen and phosphorus input during crop sowing or planting by applying composite organic material and chemical fertilizer, wherein the composite organic material comprises: 200-250 parts of edible fungi residues, 300-350 parts of charcoal and 5-10 parts of rhamnolipid; constructing a nitrogen-phosphorus retaintion layer by utilizing composite microbial agent in combination with 150 parts of edible fungi residues and 20 parts of straw-based hydrogel; constructing a barrier layer by utilizing composite material, and controlling downward leaching of nitrogen and phosphorus that are not absorbed by crops, wherein the composite material of the barrier layer comprises: 25-35 parts of straw-based hydrogel, 20-30 parts of edible fungi residues, 35-55 parts of bentonite and 5-10 parts of corn flour.

The present application relates to systems and methods for processing organic material. The methods may include extraction of biochemical nutrients from organic material, such as food scraps. The method can include comminuting the organic material to form a slurry from components comprising liquid and organic material; combining the slurry with microorganisms, such as a yeast, under aerobic conditions to form a mixture of the slurry and yeast; aerating the mixture; and forming a biomass and a nutrient-rich broth, in which the biochemical nutrients are stabilized and anabolized. The systems may, in some embodiments, be configured to perform the methods of processing organic materials.