Methods and devices heat or cool viscous materials, such as meat emulsions useful for producing food and other products. The devices include a heat exchanger including a first plate, a second plate attached to the first plate, and a first spacer and a second spacer arranged between the first plate and the second plate. The first plate, the second plate, the first spacer, and the second spacer define at least one temperature controlled passaged for a product to pass through the heat exchanger. The heat exchanger can be used in a system including one or more of a grinder, a mixing tank, an emulsifier device, a positive displacement pump, or a cutting device.

Provided is a method for producing fermented blood sausage having high antioxidant activity, comprising (1) preparing hemoglobin antioxidant peptide through Plastein reaction; (2) brining and primarily fermenting livestock or poultry meat; (3) deodoring and breaking livestock or poultry blood; (4) filling and secondary fermentation; (5) obtaining a finished product after drying. Compared with prior arts, the present disclosure uses Plastein reaction of blood to prepare a highly active antioxidant peptide, the fermented blood sausage has a total antioxidant capacity up to 6.89 U/mg protein, with an increase rate of 58%. The blood was deodorized, and total amount of free amino acids in secondary fermentation by lactic acid bacteria in combination with yeasts reached 12.74 mg/g, with an increase rate of 42%, providing the fermented blood sausage with better flavor and chewiness. The present disclosure also provides a new approach to comprehensive utilization of livestock or poultry blood resources.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

The present invention relates to the use of an anthocyanin and/or betanin as a colourant in a food product, plant extracts as a source of anthocyanins and/or betanins, compositions comprising the plant extracts and processes using the anthocyanins and/or betanins or compositions described herein.

The present invention relates to the use of an anthocyanin and/or betanin as a colourant in a food product, plant extracts as a source of anthocyanins and/or betanins, compositions comprising the plant extracts and processes using the anthocyanins and/or betanins or compositions described herein.

The present invention addresses the problem of providing a textured protein material which can enhance the fibrous texture of a processed food such as a product including meat or fish meat or a product including a vegetable raw material as a substitute therefor, has a high speed of water absorption, and can be used with ease. In this invention, it was found that a textured protein material having a favorable fibrous texture and a high speed of water absorption can be produced through the following steps (A) to (C), namely: (A) introducing a raw material including a protein raw material and water in an extruder, kneading and pressurizing and heating the raw material, and extruding the raw material under normal pressure from a die placed at an outlet of the extruder to organize the raw material and yield an organized product having a water content of 15-70 wt %; (B) cutting the organized product obtained in the step (A) perpendicularly to the direction of extrusion; and (C) slicing the organized product obtained in the step (B) into a flat shape using a circular slicer of a horizontal rotation type.

Process and an apparatus adapted to carry out the process steps for producing sausage products, which includes the following steps: Comminuting raw meat with fat, adding seasoning, salt and further additives, mixing in order to produce a raw sausage mass, filling the raw sausage mass into sausage casings or boxes to form encased sausage, first warming and fermenting the formed encased sausage, second warming the encased sausage mass to a temperature of approximately 42° C., immediately subsequently cooling the cooked fermented sausage mass to −1° C. or below with vacuum being applied, and cutting of the dried and cooled encased sausage to obtain a cut and cooled sausage product.

An example modular meal system includes two or more modular meal components. Example modular meal components include a tray, a meal component disposed within the tray, and a sauce component disposed within the tray. The meal component is selected from a protein component, a starch component, a vegetable component, an appetizer component, and a dessert component. Each modular meal component is configured and/or formulated to reach at least 165° F. or at least 167° F. when heated from frozen for a heating time period within the range of from about 20 minutes to about 60 minutes and at a heating temperature within the range of about 350° F. to about 450° F.

A bacon analogue or a reconstructed bacon product having a first component with about 42% lean meat, such as a lean pork muscle and about 58% fat and a second component with at least about 85% lean meat, such as a lean pork muscle is provided. The bacon analogue may have a ratio of first to second components of between about 35:65 to about 65:35 and a total fat percentage of about 28% to about 48%. In another configuration, the ratio of first to second components is about 25:75 to about 75:25. In one approach, the bacon analogue is free from alginate binders and free of emulsified meat. In one configuration, the first and the second components are ground to a size of about 0.125-inch to 0.5-inch. After the first and second components are separately mixed and cured, the components are pumped together into a marbled slab having an appearance similar to a pork-belly, which may then be sliced.

The invention relates to a method for producing a hydrocolloid with an improved water-binding ability in which the hydrocolloid is treated in a mixture with water in a high pressure homogenization process at at least 100 MPa.