The present invention refers to an animal feed additive effective as broad-spectrum preservative, said feed additive comprises as active ingredients propionic acid, glyceryl propionates, hexanoic acid and optionally minor amounts of an alkali metal salt and/or a C7-C12 fatty acid. The present invention also refers to the use of said animal feed additive as a mould and/or yeast inhibitor and to the use of said animal feed additive as an inhibitor of aerobic bacteria. In a further aspect, the present invention refers to the use of said animal feed additive to protect an animal feed from aerobic deterioration.

A method for manufacturing a wet food product for animals can include mixing solid animal feed components with a sauce or sauce components in a temperature-controllable process reactor and sterilising the mixture by heat treatment in the process reactor. The mixing and sterilising can occur at the same time. Embodiments can utilize an apparatus that can include a reactor to receive solid animal feed components and a sauce or sauce components, a temperature control device to control the temperature of the reactor (e.g. at least one wall of the reactor), a mixing device to mix the components located in the reactor (e.g. an agitator within the reactor, etc.), and a control device to control the mixing device to mix the components in the process reactor and to control the temperature control device to sterilise the components or mixture in the reactor.

A method for manufacturing a wet food product for animals can include mixing solid animal feed components with a sauce or sauce components in a temperature-controllable process reactor and sterilising the mixture by heat treatment in the process reactor. The mixing and sterilising can occur at the same time. Embodiments can utilize an apparatus that can include a reactor to receive solid animal feed components and a sauce or sauce components, a temperature control device to control the temperature of the reactor (e.g. at least one wall of the reactor), a mixing device to mix the components located in the reactor (e.g. an agitator within the reactor, etc.), and a control device to control the mixing device to mix the components in the process reactor and to control the temperature control device to sterilise the components or mixture in the reactor.

A pet food product includes a food substrate manufactured by extrusion, baking or other process involving heat. The pet food product includes less than 10% of hemp oil by weight, and preferably less than 5% by weight. The hemp oil has cannabinoids, including acidiccannabinoids. The acidic cannabinoids have a concentration of less than 100 parts per million, and preferably between 10-40 parts per million in the hemp oil. The acidic cannabinoids include cannabidiolic acid (CBD-A) and cannabidiol (CBD) in a ratio of at least 1:1, and preferably 3:1, or greater. An antioxidant is added to the hemp oil to inhibit oxidation of the acidiccannabinoids including the (CBD-A). The pet food product includes a second oil blended with the hemp oil. The antioxidant and the second oil cooperate to inhibit oxidation of the acidic cannabinoids.

A pet food product includes a food substrate manufactured by extrusion, baking or other process involving heat. The pet food product includes less than 10% of hemp oil by weight, and preferably less than 5% by weight. The hemp oil has cannabinoids, including acidiccannabinoids. The acidic cannabinoids have a concentration of less than 100 parts per million, and preferably between 10-40 parts per million in the hemp oil. The acidic cannabinoids include cannabidiolic acid (CBD-A) and cannabidiol (CBD) in a ratio of at least 1:1, and preferably 3:1, or greater. An antioxidant is added to the hemp oil to inhibit oxidation of the acidiccannabinoids including the (CBD-A). The pet food product includes a second oil blended with the hemp oil. The antioxidant and the second oil cooperate to inhibit oxidation of the acidic cannabinoids.

The invention relates to a food biopreservative composition comprising a consortium of lactic acid bacteria comprising at least one homofermentative lactic acid bacteria; at least one heterofermentative lactic acid bacteria and an activating agent. The biopreservative composition inhibits the growth of pathogens such as Salmonella, E. coli, Staphylococcus aureus, Listena monocytogenes, Aspergillus niger and Aspergillus flavus and can prolong the shelf-life of processed and unprocessed food.

A wildlife supplement and a related method of controlling supplement consumption, reducing mold in a supplement and/or administering a therapeutic agent, with a particular level of sodium, to an animal in the wild at a remote location is provided. The feed supplement can include sodium in an amount of 5% to 80% by weight, and optionally a feed ingredient, attractant, and/or a mineral supplement. The feed supplement can be applied in a remote area, optionally distal from any livestock feeding area. Consumption of the feed supplement by the animal can be self-regulated by the animal via the sodium content. Mold and/or bacterial growth can be limited via the sodium content. The sodium content can entice animals to consume a therapeutic agent in a controlled manner to orally self-vaccinate, treat and/or prevent a disease or condition.

A wildlife supplement and a related method of controlling supplement consumption, reducing mold in a supplement and/or administering a therapeutic agent, with a particular level of sodium, to an animal in the wild at a remote location is provided. The feed supplement can include sodium in an amount of 5% to 80% by weight, and optionally a feed ingredient, attractant, and/or a mineral supplement. The feed supplement can be applied in a remote area, optionally distal from any livestock feeding area. Consumption of the feed supplement by the animal can be self-regulated by the animal via the sodium content. Mold and/or bacterial growth can be limited via the sodium content. The sodium content can entice animals to consume a therapeutic agent in a controlled manner to orally self-vaccinate, treat and/or prevent a disease or condition.

A method for producing charcoal particles or pellets which use different additives as binders for the biochar pellets. The method includes producing a mixture with charcoal and additives selected from nanocrystalline cellulose, nanocrystalline fibrils, bentonite, and polyvinyl acetate. The mixture is created by mixing one or more of the additives with charcoal or bentonite. The mixture is then processed in a pelletizer device. While processing, the surface of the mixture is sprayed with a liquid. Once turned into pellets by way of the pelletizer device, the resulting pellets are then dried by applying heat to the pellets. The liquid can be water or a solution of water and sodium borate.

The present invention pertains to a method for manufacturing a feed product comprising the steps of: providing a lactylate product, wherein the lactylate product comprises at least 30 wt, % of C10-C16-fatty acid lactylates, in liquid form at a first location; transferring lactylate product in the liquid form to a transport unit; transporting the lactylate product in the transport unit to a second location, with the lactylate product being in solid form, in liquid form, or in an intermediate state during transport; if the lactylate product is solidified or partly solidified, converting the lactylate product to the liquid form in the transport unit; removing the lactylate product from the transport unit in liquid form at the second location; and, contacting the lactylate product in liquid form with a feed product.