Various waste fractions from meat, gravy, and animal feed industries, that are difficult to recycle, as well as wastes, for example, from fishing and fish processing, are often challenging to separate for further processing into products. The hygienic and otherwise safe and economical utilization of these, consistent with ecologically sustainable development, requires the development of new methods. According to the method and apparatus of this invention, with the help of microbes and their enzymes, for example, bone and tissue waste, as well as protein, fat material or materials containing blood matte, that have been separated during meat processing, can be fractioned into new raw materials. Gained products can be, for example, energy fractions and gases, waxes and various organic fertilizers and soil improvement substances.

Disclosed herein are microbial consortia and compositions including microbes, for example, for use in agricultural or biodegradation applications. In some embodiments, soil, plants, and/or plant parts (such as seeds, seedlings, shoots, roots, leaves, fruit, stems, or branches) are contacted with a disclosed microbial consortia or composition including microbes. The microbial consortia or microbe-containing compositions may be applied to soil, plant, and/or plant parts alone or in combination with additional components (such as chitin, chitosan, glucosamine, amino acids, and/or liquid fertilizer). In additional embodiments, the disclosed microbial consortia or compositions including microbes are used in methods of degrading biological materials, such as chitin-containing biological materials.

Disclosed herein are microbial consortia and compositions including microbes for use in agricultural or biodegradation applications. In some embodiments, soil, plants, and/or plant parts (such as seeds, seedlings, shoots, roots, leaves, fruit, stems, or branches) are contacted with a disclosed microbial consortia or composition including microbes. The microbial consortia or microbe-containing compositions may be applied to soil, plant, and/or plant parts alone or in combination with additional components (such as chitin, chitosan, glucosamine, amino acids, and/or liquid fertilizer). In additional embodiments, the disclosed microbial consortia or compositions including microbes are used in methods of degrading biological materials, such as chitin-containing biological materials.

It is a manufacturing method (10) of organic fertilizer (FG) obtained from the disposal of fish such as carcasses and viscera; said manufacturing method (10) of organic fertilizer (FG) consists of two sequential operational stations, namely the feeding station (FT), which is connected to the controlled hydrolysis station (ETH) using a set of equipment (CP) fed by steam, compressed air, fuel gas, water-soluble lewis acid, drinking water stored in tanks, reservoirs, chiller, among other equipment used to obtain the organic fertilizer (FG).

Disclosed is a method of producing a fertilizer from a marine source.

The present invention concerns a method for recovering phosphorus by thermochemical reaction of a phosphorus-containing material such as an alternative fuel, for example, in the presence of calcium-containing particles in a moving bed reactor and subsequent separation of fines enriched with phosphorus from the moving bed reactor. Furthermore, the present invention concerns the use of a recyclable material obtained by the method as a fertilizer or fertilizer additive.

The present invention concerns a method for recovering phosphorus by thermochemical reaction of a phosphorus-containing material such as an alternative fuel, for example, in the presence of calcium-containing particles in a moving bed reactor and subsequent separation of fines enriched with phosphorus from the moving bed reactor. Furthermore, the present invention concerns the use of a recyclable material obtained by the method as a fertilizer or fertilizer additive.

The present invention is located in the field of industrial biotechnology and sustainable agriculture, referring to a process of renewable origin for the production of fertilizer from by-products of animal origin, with an innovative raw material, animal blood in natura. The invention aims at the use of raw materials such as animal blood, both in natura form and in the form of blood meal, also considering a synergistic mixture of blood meal with in natura blood, to obtain fertilizers with innovative characteristics. The synergy promoted by the stages of the developed process, combined with the qualities of the selected raw materials, promoted the development of products with high levels of free natural amino acids, total organic carbon and organic matter. The developed fertilizer product can be applied in liquid form, as a liquid fertilizer, both in soil and in foliar form, as well as in solid form, after the introduction of a drying step at the end of processing. The product adds, depending on the chemical composition obtained, both fertilizer and soil conditioning agent characteristics. The invention results in sustainable products with high added value.

Methods for the chemical dissolution of human and other cadavers, such as pets as an example, using ethanolic potassium hydroxide (KOH) or ethanol-water solutions of KOH at atmospheric pressure are described. After acid neutralization, to a neutral pH range, the resulting solutions may be applied to the earth for disposal as fertilizer, or further treated using hydrogen peroxide. Use of ethanol has been found to reduce the dissolution time of the cadavers to approximately two hours for high concentrations of KOH.

Methods for the chemical dissolution of human and other cadavers, such as pets as an example, using ethanolic potassium hydroxide (KOH) or ethanol-water solutions of KOH at atmospheric pressure are described. After acid neutralization, to a neutral pH range, the resulting solutions may be applied to the earth for disposal as fertilizer, or further treated using hydrogen peroxide. Use of ethanol has been found to reduce the dissolution time of the cadavers to approximately two hours for high concentrations of KOH.