Disclosed are methods and systems for the conversion of poultry waste into useful products. Some embodiments are directed to a process for forming a product solution from poultry waste. The process includes providing a feedstock that contains greater than 60 percent poultry waste, and anaerobically digesting the feedstock to produce a digestate that has a solids content of about 5% to about 15% by weight. The process also includes separating and classifying the digestate into multiple high solids fractions and a first filtrate. The process also includes adding the high solids fractions to an acid solution to form a slurry that is then separated and classified into multiple second solids fractions and a second filtrate. The process also includes clarifying the first and second filtrates to produce a first and a second centrate. The process also includes mixing the first centrate with the second centrate to form the product solution.

A combined organomineral NPKSi-humate fertilizer having at least one particulate mineral NPK fertilizer is provided, which has at least one nutrient compound of nitrogen, phosphorous or potassium; and a particulate humic substance based silicon fertilizer, having chelates of monosilicic acid-humate compounds. The application also relates to a method of production of the combined organomineral NPKSi-humate fertilizer.

A combined organomineral NPKSi-humate fertilizer having at least one particulate mineral NPK fertilizer is provided, which has at least one nutrient compound of nitrogen, phosphorous or potassium; and a particulate humic substance based silicon fertilizer, having chelates of monosilicic acid-humate compounds. The application also relates to a method of production of the combined organomineral NPKSi-humate fertilizer.

Disclosed are methods and systems for the conversion of poultry waste into useful products. Some embodiments are directed to a process for forming a product solution from poultry waste. The process includes providing a feedstock that contains greater than 60 percent poultry waste, and anaerobically digesting the feedstock to produce a digestate that has a solids content of about 5% to about 15% by weight. The process also includes separating and classifying the digestate into multiple high solids fractions and a first filtrate. The process also includes adding the high solids fractions to an acid solution to form a slurry that is then separated and classified into multiple second solids fractions and a second filtrate. The process also includes clarifying the first and second filtrates to produce a first and a second centrate. The process also includes mixing the first centrate with the second centrate to form the product solution.

The invention provides for methods, devices, and systems for pyrolyzing biomass. A pyrolysis unit can be used for the pyrolysis of biomass to form gas, liquid, and solid products. The biomass materials can be selected such that an enhanced biochar is formed after pyrolysis. The biomass can be pyrolyzed under specified conditions such that a selected biochar core is formed. The pyrolysis process can form a stable biochar core that is inert and/or resistant to degradation. The biochar or biochar core can be functionalized to form a functionalized biochar or functionalized biochar core. Functionalized can include post-pyrolysis treatments such as supplementation with microbes or physical transformations including annealing and/or activation.

The invention provides for methods, devices, and systems for pyrolyzing biomass. A pyrolysis unit can be used for the pyrolysis of biomass to form gas, liquid, and solid products. The biomass materials can be selected such that an enhanced biochar is formed after pyrolysis. The biomass can be pyrolyzed under specified conditions such that a selected biochar core is formed. The pyrolysis process can form a stable biochar core that is inert and/or resistant to degradation. The biochar or biochar core can be functionalized to form a functionalized biochar or functionalized biochar core. Functionalized can include post-pyrolysis treatments such as supplementation with microbes or physical transformations including annealing and/or activation.

A method for improving nutrient density in crops. The crops may be fed to animals to improve health of the animals and/or to improve bioavailability of such nutrients in animals. The method may include providing a humic substance from an organic material, combining the humic substance with at least one nutrient, and growing crops using the combination of humic substance and at least one nutrient. The method may further include feeding the crops to animals. The combination of humic substance and at least one nutrient may be mixed before growing the crops. The at least one nutrient may include copper, magnesium, manganese, cobalt, zinc, and/or phosphate, among others.

A method for improving nutrient density in crops. The crops may be fed to animals to improve health of the animals and/or to improve bioavailability of such nutrients in animals. The method may include providing a humic substance from an organic material, combining the humic substance with at least one nutrient, and growing crops using the combination of humic substance and at least one nutrient. The method may further include feeding the crops to animals. The combination of humic substance and at least one nutrient may be mixed before growing the crops. The at least one nutrient may include copper, magnesium, manganese, cobalt, zinc, and/or phosphate, among others.

Encapsulated seeds, processes for making encapsulated seeds and processes for establishing and improving seed beds and seed bed germination. The encapsulated seeds improve soil productivity through enhancements in soil fertility, soil condition/tilth, and control of soil moisture.

Encapsulated seeds, processes for making encapsulated seeds and processes for establishing and improving seed beds and seed bed germination. The encapsulated seeds improve soil productivity through enhancements in soil fertility, soil condition/tilth, and control of soil moisture.