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 digester system comprising a primary digester tank containing a primary feed material portion, a secondary digester tank containing a secondary feed material portion, a first conduit connected between the primary digester tank and the secondary digester tank to define a primary tank lower opening within the primary digester tank and a secondary digester tank lower opening within the secondary digester tank, and a flow control valve configured to allow or prevent flow of fluid through the first conduit. When the flow control valve is configured to allow flow of fluid through the first conduit, a portion of the primary feed material portion flows from the primary digester tank to the secondary digester tank to form the secondary feed material portion.

An organic composition for decomposing bodily remains including a composite mixture of compost, peat, sulfur, and gypsum. The composite mixture is configured to combine with the bodily remains to decompose the bodily remains. The combined mixture has a reduced pH for reducing the detrimental effects of the bodily remains on the environment.

An organic composition for decomposing bodily remains including a composite mixture of compost, peat, sulfur, and gypsum. The composite mixture is configured to combine with the bodily remains to decompose the bodily remains. The combined mixture has a reduced pH for reducing the detrimental effects of the bodily remains on the environment.

Disclosed herein is a process, comprising: combining one or more additives with a feedstock to obtain a first mixture, the feedstock comprising a fibrous material and water, the fibrous material comprising lignin, cellulose, and hemicellulose; and conditioning the first mixture to obtain a liquid product and a dry pulp product. Also disclosed herein are condition processes and machines for use with the same. Also disclosed herein are liquid products, dry pulp products, and fibrous pellets made by the disclosed processes, and methods of using the same.

An organic fertilizer with one or more natural ingredients is provided. The organic fertilizer includes molasses to provide additional nutrients to the soil that are readily available for plant intake such as providing sugars to increase microorganism activity. An aromatic ingredient is provided to mask the unwanted odors of other fertilizer components.

An organic fertilizer with one or more natural ingredients is provided. The organic fertilizer includes molasses to provide additional nutrients to the soil that are readily available for plant intake such as providing sugars to increase microorganism activity. An aromatic ingredient is provided to mask the unwanted odors of other fertilizer components.

An organic composition for decomposing bodily remains including a composite mixture of compost, peat, sulfur, and gypsum. The composite mixture is configured to combine with the bodily remains to decompose the bodily remains. The combined mixture has a reduced pH for reducing the detrimental effects of the bodily remains on the environment.

An organic composition for decomposing bodily remains including a composite mixture of compost, peat, sulfur, and gypsum. The composite mixture is configured to combine with the bodily remains to decompose the bodily remains. The combined mixture has a reduced pH for reducing the detrimental effects of the bodily remains on the environment.

The invention concerns a method for extracting valuable materials from organic compounds contained in waste or chemical elements contained therein.

The method comprises the following steps carried out in succession: a) mixing the waste (1) with a base so that a liquid medium is formed, b) heating the medium in a reactor (3) to a temperature of 100 C. to 140 C. in order to hydrolyse the organic compounds contained in the medium, and withdrawing (c) the vapour which is formed, b1) transferring (c) the vapour from the reactor (3) to a washing tower (4), b2) adding sulphuric acid or phosphoric acid (c) to the vapour in order to form ammonium sulphate(s) or ammonium phosphate(s), wherein a solution is obtained in the bottom of the washing tower (4) and the vapour is withdrawn from the head of the washing tower (4), b3) transferring (e) the solution obtained in step b2) to an electrochemical cell (6) with a cathode chamber and an anode chamber and electrolysing the solution, whereupon in the anode chamber, sulphuric acid or phosphoric acid is obtained for step b2), b4) recycling (c) the sulphuric acid or phosphoric acid obtained from the anode chamber to the washing tower and withdrawing (f) valuable materials formed in the cathode chamber, in particular an ammoniacal solution, c) transferring (d) the liquid medium remaining in the reactor (3) in step b) to a separating device (5) in order to separate any solid inorganic phase which is contained in the liquid medium.