Provided herein is a method of preparing a palatability enhancer for a food composition comprising: a) combining an animal fat, one or more edible agents, an alkaline agent and water at a temperature of up to 45 C. to form a mixture, wherein the edible agents are selected from amino acids, sugars, vitamins, flavorants and flavor precursors, b) heating the mixture to a temperature of 96 C. to 99 C. for at least 35 minutes, and c) obtaining a palatability enhancer from the mixture, wherein the palatability enhancer comprises animal fat in an amount of at least about 80 wt %, and wherein the method is conducted under ambient pressure. Further provided is a method of enhancing the palatablity of a food composition and a method of reducing the odor of animal fat.

The invention discloses a liquefaction device of hard bone, comprising: outer cavity having upper end detachably sealed with upper cover, and lower end openable/closable sealed with lower sealing cover, first liquefaction cavity coaxially slidably disposed in outer cavity, stainless steel cage disposed coaxially in first liquefaction cavity, second liquefaction cavity fixed to outer sidewall of outer cavity such that lower end portion of outer cavity is located in second liquefaction cavity. The invention also provides a method for co-production of bone collagen polypeptide and ultrafine bone powder based on liquefaction device, including: selecting hard bones, crushing; performing first-stage and second-stage liquefaction to obtain liquid phase and solid phase; centrifuging, concentrating, drying liquid phase to obtain bone collagen polypeptide; drying, coarsely and superfine pulverizing solid phase to obtain ultrafine bone powder. The invention has effects of simplifying process, improving production efficiency, and reducing production and equipment investments.

The present invention is directed to soy protein products, very low in, or free of, beany flavour notes and useful for the fortification of food and beverage products and prepared without the use of salt in the process. The soy protein products of the present invention are obtained by extracting soy protein source with water to form an aqueous soy protein solution, at least partially separating the aqueous soy protein solution from residual soy protein source, adjusting the pH of the aqueous soy protein solution to a pH of about 1.5 to about 3.6 to solubilize at least a portion of the protein and form an acidified soy protein solution then separating the acidified soy protein solution from the acid insoluble solid material. The acidified soy protein solution may be dried following optional concentration and diafiltration to form a soy protein product, which may be an isolate. The acid insoluble solid material may be washed with acidified water and then dried to form another soy protein product. These products may be dried at the acidic pH at which they were prepared or may be adjusted in pH before drying.

It is disclosed a process for cooking agave pi?as (102) to produce distilled beverages comprising the step of placing a plurality of portions of agave pi?as in an autoclave (101), increasing the temperature inside the autoclave in order to start the cooking of the agave pi?as (102) with injection or production of steam inside said autoclave, draining at least one batch of liquid solution from the plurality of portion of the agave pi?as (102) from the autoclave (101), cooling of the agave, either within or outside of the autoclave. The process is characterized in comprising at least one step of removing gaseous content from said autoclave.

Refined poultry fat comprising less than about 300 ppm of minerals and metals, wherein the refined poultry fat is resistant to bacterial growth when challenged with a bacterial species. The refined poultry fat is prepared from rendered poultry fat by a process comprising introducing moisture into the rendered poultry fat product to form a hydrated poultry fat product; (b) agitating and heating the hydrated poultry fat product such that droplets of water are dispersed throughout and coalesce with water-soluble impurities and/or particulate impurities in the hydrated poultry fat product to form a plurality of water-laden particles; and (c) removing the plurality of water-laden particles. The refined poultry fat can be used as an ingredient in the animal food industry, or can be used in the renewable energy industry.

The present invention discloses a method for efficiently and mildly reducing ovalbumin allergenicity. The present invention promotes the exposure of the ovalbumin allergenic site to the molecular surface by repeated freezing and thawing pretreatment, and combines transglycosylase and trypsinase for synergistic treatment to reduce the ovalbumin sugar chain and epitope to achieve the purpose of significantly reducing the allergenicity of ovalbumin and egg foods. Compared with other traditional methods such as high temperature and high pressure and other physical means to reduce egg allergenicity, the method significantly improves the specificity and effectiveness of egg desensitization, and minimizes the damage to the nutrition and quality of egg proteins, and is an efficient and mild egg desensitization method. The method has the prospects of being applied to the industrial development of low-allergenicity egg products.

The present invention is directed to soy protein products, very low in, or free of, beany flavor notes and useful for the fortification of food and beverage products and prepared without the use of salt in the process. The soy protein products of the present invention are obtained by extracting soy protein source with water to form an aqueous soy protein solution, at least partially separating the aqueous soy protein solution from residual soy protein source, adjusting the pH of the aqueous soy protein solution to a pH of about 1.5 to about 3.6 to solubilize at least a portion of the protein and form an acidified soy protein solution then separating the acidified soy protein solution from the acid insoluble solid material. The acidified soy protein solution may be dried following optional concentration and diafiltration to form a soy protein product, which may be an isolate. The acid insoluble solid material may be washed with acidified water and then dried to form another soy protein product. These products may be dried at the acidic pH at which they were prepared or may be adjusted in pH before drying.

Disclosed herein is a method for processing green coffee beans, including: (1) loading unroasted green coffee beans on a mesh-like plate, placing in a container the mesh-like plate having the green coffee beans loaded thereon, introducing water into the bottom of the container so as to be spaced apart from the lower surface of the mesh-like plate, and closing the lid of the container to seal the container; (2) placing the sealed container in a heating cabinet, and then steaming the green coffee beans at low temperature for 10 to 12 days while maintaining the internal temperature of the heating cabinet at 70 to 80 C.; and (3) opening the lid of the container, and then drying the steamed green coffee beans for 4 to 6 days while maintaining the internal temperature of the heating cabinet at 38 to 43 C.

An example implementation of the subject matter described within this disclosure is a lupine processing apparatus with the following features. A tank is configure to receive a portion of lupines for processing. The tank has an outer surface that defines a receiving cavity within the tank. The tank includes a fluid inlet at a bottom end of the tank. The inlet is configured to receive fluid into the tank. A fluid outlet is at a top end of the tank. The fluid outlet is configured to receive fluid from the tank. A motor is attached to the tank. An agitator is rotatably coupled to the motor. The agitator is configured to be rotated by the motor. A heater is fluidically connected to the fluid inlet. The heater is configured to increase a temperature of the fluid.

An object of the present invention is to provide, for example, a packaged tea beverage in which paper odor is suppressed, and a method for producing the same, as the paper odor occurs in packaged tea beverages containing a JCM5805 strain. The present invention relates to a packaged tea beverage obtainable by a production method comprising a step of including a JCM5805 strain in a tea extract liquid having a tea polyphenol concentration of 10 mg or more/100 mL, and performing a treatment of heating to 100? C. or higher.