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

Provided herein, inter alia, are engineered phytase polypeptides and fragments thereof with improved thermotolerance as well as methods for producing and using the same for enhancing animal performance on one or more metrics.

Provided herein, inter alia, are engineered phytase polypeptides and fragments thereof with improved thermotolerance as well as methods for producing and using the same for enhancing animal performance on one or more metrics.

There is provided an animal feed composition comprising Polyhalite in a concentration between 0.5%-5% w/w.

There is provided an animal feed composition comprising Polyhalite in a concentration between 0.5%-5% w/w.

Provided is an inorganic composite compound having reduced oxygen and a high reducing ability, which includes elements having a positive atomic valence of a plant-derived component and a sulfur compound. The compound provides a therapeutic treatment effect and a pharmacological effect and is useful to suppress the influence of active oxygen (oxidization) and cannot be produced by a synthetic chemical technique. A method of producing the same is also provided.

Provided is an inorganic composite compound having reduced oxygen and a high reducing ability, which includes elements having a positive atomic valence of a plant-derived component and a sulfur compound. The compound provides a therapeutic treatment effect and a pharmacological effect and is useful to suppress the influence of active oxygen (oxidization) and cannot be produced by a synthetic chemical technique. A method of producing the same is also provided.

This invention relates to the use of the combination of 25-hydroxyvitamin D3 (“25-OH D3”) and antioxidants/anti-inflammatories (ascorbic acid vitamin E and canthaxanthin) to make a premix or feed which can ameliorate various problems observed in poultry which have been subject to overfeeding. Feeds containing the 25-OH D3 and antioxidants/anti-inflammatories and premixes are also provided.

This invention relates to the use of the combination of 25-hydroxyvitamin D3 (“25-OH D3”) and antioxidants/anti-inflammatories (ascorbic acid vitamin E and canthaxanthin) to make a premix or feed which can ameliorate various problems observed in poultry which have been subject to overfeeding. Feeds containing the 25-OH D3 and antioxidants/anti-inflammatories and premixes are also provided.

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.