The present invention provides an apparatus for steaming animal fodder comprising a body defining a chamber in which the animal fodder may be placed. The body comprises an upper part and a lower part configured to be placed together to form the chamber. The apparatus further comprises a conduit configured to carry steam to an aperture configured to allow the steam to pass into the chamber. The body is formed from an expanded polymer foam.

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.

An animal feed tenderizing system that includes: a conveyor trough; a press wheel, where the press wheel is positioned within the conveyor trough and adapted to roll over animal feed; a motor, wherein the motor is engaged with the press wheel and provides a means to rotate the press wheel; and a wheel base, where the wheel base supports the trough. The press wheel is preferably made of steel. The trough is adapted to receive animal feed, wherein the animal feed is hay. The means to rotate the press wheel may include a pulley system attached to a motor, where the motor is a hydraulic motor. The press wheel is adapted to compress animal feed to enable rehydration of the animal feed.

Systems and methods for preparing and dispensing single serving gelatin-based food products in an efficient and cost-effective way. A gelatin-based product making device includes a container receiving portion configured to removably receive one or more disposable dry ingredients containers that store dry ingredients used to make the gelatin-based products. The device is operative to automatically mix the dry ingredients with a liquid, heat the mixture, and rapidly cool the mixture to form a batch of gelatin-based product. The device includes a dispenser operative to dispense single servings of the gelatin-based product into cups that may be provided to consumers.

Systems and methods for preparing and dispensing single serving gelatin-based food products in an efficient and cost-effective way. A gelatin-based product making device includes a container receiving portion configured to removably receive one or more disposable dry ingredients containers that store dry ingredients used to make the gelatin-based products. The device is operative to automatically mix the dry ingredients with a liquid, heat the mixture, and rapidly cool the mixture to form a batch of gelatin-based product. The device includes a dispenser operative to dispense single servings of the gelatin-based product into cups that may be provided to consumers.

A livestock food product that includes at least one or more plant-based agricultural feeds containing at least one or more plant residues of at least one or more noxious and/or invasive plants. The one or more residues containing no more than 10% of the naturally occurring amount, by weight, of at least one noxious compound that was present in the one or more noxious and/or invasive plants, the naturally occurring amount being the amount of the at least one noxious compound that was present in the noxious and/or original plants while they were alive. The one or more noxious and/or invasive plants including at least one of hemp, tumbleweed, sagebrush, or cheat grass. These plants fibers contain valuable nutrients and flourish under semiarid conditions in abundance. Proper harvesting techniques, bioprocessing can make these plant valuable resources available to mankind environmentally and economically.

A livestock food product that includes at least one or more plant-based agricultural feeds containing at least one or more plant residues of at least one or more noxious and/or invasive plants. The one or more residues containing no more than 10% of the naturally occurring amount, by weight, of at least one noxious compound that was present in the one or more noxious and/or invasive plants, the naturally occurring amount being the amount of the at least one noxious compound that was present in the noxious and/or original plants while they were alive. The one or more noxious and/or invasive plants including at least one of hemp, tumbleweed, sagebrush, or cheat grass. These plants fibers contain valuable nutrients and flourish under semiarid conditions in abundance. Proper harvesting techniques, bioprocessing can make these plant valuable resources available to mankind environmentally and economically.

The invention consists of an animal feed formulation based on tropical legumes and grasses with a high protein content, said formulation comprising, inter alia, a combination of grains, a first protein source, forage, a second protein source, a third protein source and a fourth mineral source. One of the protein sources can comprise Canavalia Canavalia ensiformis. The animal feed formulation can also include a forage legume of the Stylosanthes genus. In addition, the animal feed formulation can include a tropical fodder of the Brachiaria or Panicum genera. The synergistic combination of forage legumes and tropical fodder results in a balanced feed with a high concentration of tropical raw materials, which is easy to produce and affordable. Similarly, the invention also comprises a method for producing the feed in pellet form, based on the formulation described above, from which the anti-nutritional factors derived from Canavalia Canavalia ensiformis have been eliminated.

A method and system are provided for preparing micro-ingredient feed additives for use in designated feed rations. A micro-ingredient system of the invention includes a plurality of bins that store designated micro-ingredients therein. A master controller of the delivery system provides signals to control system components based on programmed commands corresponding to micro-ingredient batches to be prepared. Slide gate mechanisms are used to prevent loss of micro-ingredients delivered to a receiving receptacle of the system. During delivery of the micro-ingredients to the receptacle and during processing, the micro-ingredients can become airborne and subsequently lost. The slide gate mechanisms also provide controlled access to the receiving receptacle to prevent system errors such as contamination of ingredients in the receptacle, or improper batching of a prescribed micro-ingredient mixture to be delivered to a designated feed ration.

A method and system are provided for preparing micro-ingredient feed additives for use in designated feed rations. A micro-ingredient system of the invention includes a plurality of bins that store designated micro-ingredients therein. A master controller of the delivery system provides signals to control system components based on programmed commands corresponding to micro-ingredient batches to be prepared. Slide gate mechanisms are used to prevent loss of micro-ingredients delivered to a receiving receptacle of the system. During delivery of the micro-ingredients to the receptacle and during processing, the micro-ingredients can become airborne and subsequently lost. The slide gate mechanisms also provide controlled access to the receiving receptacle to prevent system errors such as contamination of ingredients in the receptacle, or improper batching of a prescribed micro-ingredient mixture to be delivered to a designated feed ration.