Extracts of beta-glucan-rich Saccharomyces cerevisiae yeast cell walls, and the use thereof in the method of preventing mycotoxicoses caused by mycotoxin deoxynivalenol, in particular in a method of preventing liver and intestinal damage, and immunotoxic effects caused by this mycotoxin. The extracts of beta-glucan-rich Saccharomyces cerevisiae yeast cell walls include -glucans and mannans, wherein the -glucans are present in the form of a mixture of -1,3-glucans and -1,6-glucans.

The invention refers to a method of preparing of a silage good having improved quality, to an ensiling process employing the method or the silage good, and an apparatus of preparing of a silage good having improved quality. The method includes applying a first model on determined parameters to determine an ensilability index number and applying a second model on the determined parameters to determine a retention index number for a harvested good. The method can further include determining types and amounts of ensiling additives to be added to the harvested good for controlling the ensiling process depending on the ensilability index number and the retention index number and supplying the determined additives to the harvested good to obtain the silage good.

The invention refers to a method of preparing of a silage good having improved quality, to an ensiling process employing the method or the silage good, and an apparatus of preparing of a silage good having improved quality. The method includes applying a first model on determined parameters to determine an ensilability index number and applying a second model on the determined parameters to determine a retention index number for a harvested good. The method can further include determining types and amounts of ensiling additives to be added to the harvested good for controlling the ensiling process depending on the ensilability index number and the retention index number and supplying the determined additives to the harvested good to obtain the silage good.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in the process stream by applying non-condensable media to create density differences and then using a mechanical device to separate the solids from the liquids based on the density difference. The process produces the liquids and solids, which may be further processed to create valuable animal feed products.

A process to remove the glucosinolates of oilseed meals, such as Brassica carinata oilseed meals, is provided. In one embodiment, exogenous myrosinase is used to convert the glucosinolates to volatile isothiocyanate compounds, which can then be removed under conditions of mild heat and negative pressure. In another embodiment, heat and pressure are used to remove glucosinolates from Brassica carinata oilseed. The processed meals may contain less than 80% of their starting levels of glucosinolates and may be suitable for use in various applications, including as animal feeds.