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.

The invention relates to a process for the continuous production of an adsorption product of a nitrooxy-functional organic compound adsorbed on the surface of a particulate adsorbent material, the process comprising the steps of: continuously feeding particulate adsorbent material into an elongated cavity; continuously conveying the material within the cavity in a downstream direction; continuously spraying a liquid adsorbate onto the particulate adsorbent material, wherein the liquid adsorbate comprises the nitrooxy-functional organic compound; continuously agitating the mixture thus obtained to form the adsorption product; and continuously removing the adsorption product from the cavity. The invention further relates to an adsorption product obtained by such process and the use of such adsorption product in ruminant nutrition.

The invention relates to a process for the continuous production of an adsorption product of a nitrooxy-functional organic compound adsorbed on the surface of a particulate adsorbent material, the process comprising the steps of: continuously feeding particulate adsorbent material into an elongated cavity; continuously conveying the material within the cavity in a downstream direction; continuously spraying a liquid adsorbate onto the particulate adsorbent material, wherein the liquid adsorbate comprises the nitrooxy-functional organic compound; continuously agitating the mixture thus obtained to form the adsorption product; and continuously removing the adsorption product from the cavity. The invention further relates to an adsorption product obtained by such process and the use of such adsorption product in ruminant nutrition.

An emulsifier in powder form for animal feeds is described. A process for preparing the animal feed is also described.

An emulsifier in powder form for animal feeds is described. A process for preparing the animal feed is also described.

A mechanism and technology for inhibiting methane production in ruminants, which mixes an oscillating magnet composition 1~3% into the feedstuff, so as to inhibit the generation and reproduction of methanogens in the gastrointestinal tract of ruminants, thereby reducing the production of methane; wherein, the composition weight percentage of the oscillating magnet composition includes 72%~82% a far-infrared natural mineral base material, 10%~20% a biochar, 2%~7% a seaweed element and an activated water agent composed of 0.4%~1% of a natural ore; wherein the far-infrared natural mineral base material emit far-infrared rays, make water molecules cluster smaller, thereby improving the dissolved oxygen in the gastrointestinal tract to inhibit of the generation and reproduction of methanogens.

The invention relates to a process for the continuous production of an adsorption product of a nitrooxy-functional organic compound adsorbed on the surface of a particulate adsorbent material, the process comprising the steps of: continuously feeding particulate adsorbent material into an elongated cavity; continuously conveying the material within the cavity in a downstream direction; continuously spraying a liquid adsorbate onto the particulate adsorbent material, wherein the liquid adsorbate comprises the nitrooxy-functional organic compound; continuously agitating the mixture thus obtained to form the adsorption product; and continuously removing the adsorption product from the cavity. The invention further relates to an adsorption product obtained by such process and the use of such adsorption product in ruminant nutrition.

The invention relates to a process for the continuous production of an adsorption product of a nitrooxy-functional organic compound adsorbed on the surface of a particulate adsorbent material, the process comprising the steps of: continuously feeding particulate adsorbent material into an elongated cavity; continuously conveying the material within the cavity in a downstream direction; continuously spraying a liquid adsorbate onto the particulate adsorbent material, wherein the liquid adsorbate comprises the nitrooxy-functional organic compound; continuously agitating the mixture thus obtained to form the adsorption product; and continuously removing the adsorption product from the cavity. The invention further relates to an adsorption product obtained by such process and the use of such adsorption product in ruminant nutrition.

A composite material 100 of the present invention includes silicon particles or silicon fine particles 10 capable of generating hydrogen, and a metal element (iron (Fe)) 20 supported on, or attached or adsorbed to at least a part of surfaces of the silicon particles or silicon fine particles 10, or chemically bonded to the surfaces. According to the composite material 100, it is possible to exhibit a capability of generating hydrogen much higher than that of silicon particles or silicon fine particles 10 on which the metal element 20 is hardly supported or to which the metal element 20 is hardly attached or adsorbed, or silicon particles or silicon fine particles 10 which are hardly chemically bonded to the metal element.