There is disclosed a method of producing a soil remediant from liquid organic waste material in which the liquid organic waste material is concurrently pasteurised and digested by thermophilic aerobic digestion in the liquid phase in a single digester vessel. The organic waste material in the digester is maintained continuously at a temperature of at least 70 C. for at least an hour and theliquid organic waste material comprises at least 70% water and can be pumped. After a period of at least an hour a small amount of pasteurised organic waste material is removed and a corresponding amount of fresh organic waste material is added to the single digester vessel such that the temperature is maintained in a comfort zone of the thermophilic bacteria. In a preferred embodiment the thermophilic aerobic digestion is facilitated by micro-organisms including crenarchaeota. The liquid organic waste material can be combined with a microporous adsorbent. Also disclosed is a soil remediant comprising a microporous adsorbent and liquid organic waste material from the novel method. The microporous adsorbent may be a volcaniclastic sedimentary rock or diatomite or of vegetable origin such as biochar. The microporous adsorbent may be a powder or a granular material and may have particle sizes up to 2000 microns.

A facility for the recycling of biomaterial with a fermentation stage, whereby the fermentation stage has a fermentation chamber for the production of biogas through anaerobic fermentation of the biomaterial, and with a hygiene stage that is positioned downstream from the fermentation stage, whereby the hygiene stage has a hygienization chamber for the reception and the thermal hygienization of biomaterial discharged from the fermentation stage. A process for the recycling of biomaterial by zymosis is also provided, whereby biogas is produced in a fermentation stage through anaerobic fermentation of the biomaterial, whereby the biomaterial is, after flowing through the fermentation stage, conveyed to a hygiene stage in which the biomaterial thermal is hygienized, and whereby the biomaterial is, after flowing through the hygiene stage, made available as recyclable agricultural, hygienized fermentation residue.

A facility for the recycling of biomaterial with a fermentation stage, whereby the fermentation stage has a fermentation chamber for the production of biogas through anaerobic fermentation of the biomaterial, and with a hygiene stage that is positioned downstream from the fermentation stage, whereby the hygiene stage has a hygienization chamber for the reception and the thermal hygienization of biomaterial discharged from the fermentation stage. A process for the recycling of biomaterial by zymosis is also provided, whereby biogas is produced in a fermentation stage through anaerobic fermentation of the biomaterial, whereby the biomaterial is, after flowing through the fermentation stage, conveyed to a hygiene stage in which the biomaterial thermal is hygienized, and whereby the biomaterial is, after flowing through the hygiene stage, made available as recyclable agricultural, hygienized fermentation residue.

A device, system, and method for residue use in livestock farming, comprising a conveyor device for conveying animal excrement along a conveyor section, wherein the conveyor section has a larva-introducing portion for metering in larvae and/or larva eggs, an excrement-introducing portion for metering in animal excrement depending on one or more process parameters, and a larva-separating portion for separating the larvae, and methods for use thereof.

A device, system, and method for residue use in livestock farming, comprising a conveyor device for conveying animal excrement along a conveyor section, wherein the conveyor section has a larva-introducing portion for metering in larvae and/or larva eggs, an excrement-introducing portion for metering in animal excrement depending on one or more process parameters, and a larva-separating portion for separating the larvae, and methods for use thereof.

Streptobacillus is grown on purified chitin obtained by fermentation of micronized shrimp or crab shell material and purification using alkaline media. The chitin is biodegraded by the Streptobacillus and produces plant growth hormones or auxins. From 25 to 50% of the biomass is converted to the auxins. Since the soil amendment including the auxins has a low trace metal content, the soil amendment does not contribute to metal uptake by the treated growing plants. For example, Cannabis plants with a reduced trace metal content can be grown in soil media provided with the soil amendment with an 8 to 10 fold increase in root mass and root growth rates in order to comply with legal limits on the content of trace metals in the plants.

Streptobacillus is grown on purified chitin obtained by fermentation of micronized shrimp or crab shell material and purification using alkaline media. The chitin is biodegraded by the Streptobacillus and produces plant growth hormones or auxins. From 25 to 50% of the biomass is converted to the auxins. Since the soil amendment including the auxins has a low trace metal content, the soil amendment does not contribute to metal uptake by the treated growing plants. For example, Cannabis plants with a reduced trace metal content can be grown in soil media provided with the soil amendment with an 8 to 10 fold increase in root mass and root growth rates in order to comply with legal limits on the content of trace metals in the plants.

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.

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 system and method for preparing a microbial supplement, and applying the supplement to plants, trees and other items to promote their growth. The supplement comprises seawater, including microbes that naturally exist in seawater. Seawater is harvested containing microbes in an inactive or dormant state. The seawater undergoes a filtration, mineralization and oxygenation process to reduce sodium chloride levels, to increase the levels of desirable minerals in the seawater and to oxygenate the seawater to keep the microbes alive, though in a dormant or inactive state. The microbes are maintained in an inactive or dormant state through the preparation process, but become active when the supplement is applied to plants or trees, thereby promoting agricultural growth.