A silica formulation comprising cashew nut shell liquid, anacardic acid, cardol, or cardanol, and silica particles, wherein the silica particles have adsorbed therein the cashew nut shell liquid, the anacardic acid, the cardol, or the cardanol, and wherein the silica particles have an average particle diameter of 150 μm or more.

A silica formulation comprising cashew nut shell liquid, anacardic acid, cardol, or cardanol, and silica particles, wherein the silica particles have adsorbed therein the cashew nut shell liquid, the anacardic acid, the cardol, or the cardanol, and wherein the silica particles have an average particle diameter of 150 μm or more.

The current invention relates to a method of isolating lipids from a lipids containing biomass with aid of hydrophobic silica and to an oil and to a delipidated biomass as obtained by such a method.

A pelleting system and method for pelletizing a cellulosic fiber into feed pellets. The pelleting system includes a mixer adapted to combine a shredded cellulosic fiber with at least one additive and a preservative to form a mixture; a pellet feeder for injecting said mixture into a conditioning chamber, the conditioning chamber adapted to apply steam to the mixture to add moisture and heat to said mixture for softening the mixture to facilitate pelletizing; and a pellet mill adapted to compress the mixture to form feed pellets. The final product may be a feed pellet having a compression ratio between about 7 L/D and about 16 L/D and containing between about 9 wt. % moisture and about 12 wt. % moisture.

A pelleting system and method for pelletizing a cellulosic fiber into feed pellets. The pelleting system includes a mixer adapted to combine a shredded cellulosic fiber with at least one additive and a preservative to form a mixture; a pellet feeder for injecting said mixture into a conditioning chamber, the conditioning chamber adapted to apply steam to the mixture to add moisture and heat to said mixture for softening the mixture to facilitate pelletizing; and a pellet mill adapted to compress the mixture to form feed pellets. The final product may be a feed pellet having a compression ratio between about 7 L/D and about 16 L/D and containing between about 9 wt. % moisture and about 12 wt. % moisture.

A feed additive composition for ruminants contains a choline salt, shows high protection in the rumen, and is also superior in dissolution in the lower gastrointestinal tract, and the like. The feed additive composition for ruminants contains:

(A) at least one selected from hydrogenated oil and wax, each having a melting point of higher than 50° C. and lower than 90° C.,
(B) 0.01-6 wt % of a surfactant,
(C) 10-60 wt % of a choline salt,
(D) 1-40 wt % of L-lysine or a salt thereof,
(E) a hygroscopic agent, and
(F) 0.1-3 wt % of a stearic acid metal salt, and the like, all weight percentages being with respect to the composition.

A feed additive composition for ruminants contains a choline salt, shows high protection in the rumen, and is also superior in dissolution in the lower gastrointestinal tract, and the like. The feed additive composition for ruminants contains:

(A) at least one selected from hydrogenated oil and wax, each having a melting point of higher than 50° C. and lower than 90° C.,
(B) 0.01-6 wt % of a surfactant,
(C) 10-60 wt % of a choline salt,
(D) 1-40 wt % of L-lysine or a salt thereof,
(E) a hygroscopic agent, and
(F) 0.1-3 wt % of a stearic acid metal salt, and the like, all weight percentages being with respect to the composition.

Methods form high fat feed blocks having a total fat content of about 7 wt % to 33 wt %. The blocks are formed by blending a pourable composition having a viscosity of at least 1000 cP at 57° C. with high fat pellets having total fat content of at least 40 wt % based on pellet weight, where the pellets include at least one fat having a melt temperature of greater than 60° C. Also disclosed are feed blocks formed by the methods.

Methods form high fat feed blocks having a total fat content of about 7 wt % to 33 wt %. The blocks are formed by blending a pourable composition having a viscosity of at least 1000 cP at 57° C. with high fat pellets having total fat content of at least 40 wt % based on pellet weight, where the pellets include at least one fat having a melt temperature of greater than 60° C. Also disclosed are feed blocks formed by the methods.

Animal nutrition compositions include a carrier and a fermentation product applied to the carrier. Liquid fermentation products are fluidly applied to dry carriers, such as phyllosilicates or other earthen components, while mixing and applying air flow, under appropriate temperature and pH conditions, to bind the fermentation product to the carrier and dry the reaction product to appropriate moisture content. Fermentation products are also mixed with liquid carriers, such as water. Fermentation products include components of a microbial fermentation culture, such as liquid medium, microbial cellular components, and fermentation metabolites produced by microorganisms. Some compositions include a pH buffering agent and/or additional components to further enhance beneficial effects of the composition, such as improved weight gain and feed conversion, reduced gut lesions, harmful gut bacteria count, and decreased mortality. Compositions can be mixed with animal feeds or otherwise administered. Compositions can inhibit fungal growth on animal feeds.