The present disclosure provides a method for preparing a fermented soybean paste and a fermented soybean paste prepared thereby, the method comprising: a mixing step for mixing a Traditional Korean fermented soybean paste and a modified Korean fermented soybean paste to prepare a mixed fermented soybean paste; a first aging step for primarily aging the mixed fermented soybean paste at room temperature; and a second aging step for secondarily aging mixed fermented soybean paste, which has gone through the primary aging at low temperature. According to the method for preparing a fermented soybean paste and a fermented soybean paste prepared thereby, of the present disclosure, a distinctive deep and pleasant flavor of the Traditional Korean fermented soybean paste due to the combinative fermentation is maintained by mixing the traditional Korean fermented soybean paste and the modified Korean fermented soybean paste, and the protein degradation rate is increased using the high protease activity of the modified fermented soybean paste, thereby shortening the aging time and increasing the savory taste. In addition, according to the method for preparing a fermented soybean paste of the present disclosure, the mixed fermented soybean paste having gone through primary aging is secondarily aged at a low temperature, thereby preventing browning during the process, so that a fermented soybean paste with high preference can be produced, and the preparation time is relatively short while a pleasant flavor of the Traditional Korean fermented soybean paste is maintained, so that a fermented soybean paste with excellent quality can be mass-produced.

The present disclosure provides a method for preparing a fermented soybean paste and a fermented soybean paste prepared thereby, the method comprising: a mixing step for mixing a Traditional Korean fermented soybean paste and a modified Korean fermented soybean paste to prepare a mixed fermented soybean paste; a first aging step for primarily aging the mixed fermented soybean paste at room temperature; and a second aging step for secondarily aging mixed fermented soybean paste, which has gone through the primary aging at low temperature. According to the method for preparing a fermented soybean paste and a fermented soybean paste prepared thereby, of the present disclosure, a distinctive deep and pleasant flavor of the Traditional Korean fermented soybean paste due to the combinative fermentation is maintained by mixing the traditional Korean fermented soybean paste and the modified Korean fermented soybean paste, and the protein degradation rate is increased using the high protease activity of the modified fermented soybean paste, thereby shortening the aging time and increasing the savory taste. In addition, according to the method for preparing a fermented soybean paste of the present disclosure, the mixed fermented soybean paste having gone through primary aging is secondarily aged at a low temperature, thereby preventing browning during the process, so that a fermented soybean paste with high preference can be produced, and the preparation time is relatively short while a pleasant flavor of the Traditional Korean fermented soybean paste is maintained, so that a fermented soybean paste with excellent quality can be mass-produced.

A food condiment slice, method of using, composition and method for making, and methods for manufacturing are described. The food condiment slices are used with sandwiches, other food products, and beverages. The food condiment slices may have different structures such as face-fused, side-fused, face-fused-side-fused, woven, and chopped. The food condiment slices are formed from condiments such as catsup, ketchup, mustard, mayonnaise, barbecue sauce, steak sauce, jellies, jam, preserves, butter, margarine, marinades, creamers, and syrups. More than one food condiment can be integrated into a single food condiment slice. The food condiment slices eliminate the need and inconvenience of using and carrying spreadable, squeezable, and pourable food condiments. Also included are beverage condiment slices or discs such as coffee or tea dairy and non-dairy creamers.

A food condiment and method of preparing such condiment is provided. The food condiment may be used as salad dressings, marinades, dipping sauces, and the like. The food condiment includes mayonnaise, ketchup, mustard, pepper, crab seasoning, dried parsley; spice seasoning, salt, soy sauce, and hot sauce. The ingredients may be intermixed in a variety of mixing orders. In one intermixing method, the oil based ingredients and the water based ingredient are mixed with an emulsifier to create a stable emulsion at room temperature.

A food condiment and method of preparing such condiment is provided. The food condiment may be used as salad dressings, marinades, dipping sauces, and the like. The food condiment includes mayonnaise, ketchup, mustard, pepper, crab seasoning, dried parsley; spice seasoning, salt, soy sauce, and hot sauce. The ingredients may be intermixed in a variety of mixing orders. In one intermixing method, the oil based ingredients and the water based ingredient are mixed with an emulsifier to create a stable emulsion at room temperature.

Present invention enables to mass-produce rich-taste tamari soy sauce with reasonable costs. First step: Moisturizing soybeans. Second step: Steaming the moisturized soybeans. Third step: Shaping the steamed soybeans into nuggets. Fourth step: Mixing a soy flour and seed koji. Fifth step: Putting the mixture on the nuggets. Sixth step: Incubating the nuggets. Seventh step: Putting the incubated nuggets in salt water. Eighth step: Fermenting the nuggets in the salt water. Ninth step: Pressing moromi (solid component of the fermented product). Tenth step: Settling the liquid obtained by pressing the moromoi. Eleventh step: Optionally filtrating raw tamari soy sauce with a reverse osmosis membrane. Twelfth step: Adjusting concentrations of some constituents of the raw tamari soy sauce. Thirteenth step: Pasteurizing the raw tamari soy sauce. Fourteenth step: Settling the pasteurized tamari soy sauce. Fifteenth step: Filtering the supernatant. Sixteenth step: Bottling the tamari soy sauce.

Present invention enables to mass-produce rich-taste tamari soy sauce with reasonable costs. First step: Moisturizing soybeans. Second step: Steaming the moisturized soybeans. Third step: Shaping the steamed soybeans into nuggets. Fourth step: Mixing a soy flour and seed koji. Fifth step: Putting the mixture on the nuggets. Sixth step: Incubating the nuggets. Seventh step: Putting the incubated nuggets in salt water. Eighth step: Fermenting the nuggets in the salt water. Ninth step: Pressing moromi (solid component of the fermented product). Tenth step: Settling the liquid obtained by pressing the moromoi. Eleventh step: Optionally filtrating raw tamari soy sauce with a reverse osmosis membrane. Twelfth step: Adjusting concentrations of some constituents of the raw tamari soy sauce. Thirteenth step: Pasteurizing the raw tamari soy sauce. Fourteenth step: Settling the pasteurized tamari soy sauce. Fifteenth step: Filtering the supernatant. Sixteenth step: Bottling the tamari soy sauce.

A method for obtaining a food product from a wet mass of waste materials arising from production processes for producing products like beer, whisky, vodka, gin, tequila, liqueurs or citrus-fruit based distillates, cider, sake, soy sauce is provided. An enzyme is added to the waste materials that is suitable for breaking down possible gluten residues in the materials and making the enzyme act for a period between 15 and 30 minutes. The waste materials are boiled for at least 20 minutes. The waste materials are cooled and centrifuged to eliminate most of the water present in the waste materials. The materials are dried at a temperature between 70° C. and 100° C. for a time between 60 and 120 minutes, by a radio frequency dryer so as to obtain, at the end of drying, a product with relative humidity between 14 and 2%. A food product is provided that includes a percentage by weight between 1% and 60% of at least one flour obtainable from waste materials arising from the production processes for producing products like beer, whisky, vodka, gin, tequila, liqueurs or citrus-fruit based distillates, cider, sake, soy sauce, and at least one cereal flour, or vegetable flour, or animal flour, in a percentage by weight between 40% and 99%.

Glucosyl steviol glycosides (GSG) compositions are prepared from steviol glycosides of Stevia rebaudiana. The GSG compositions can be used as sweeteners in various consumables including foods, beverages, cosmetics and pharmaceuticals.

Glucosyl steviol glycosides (GSG) compositions are prepared from steviol glycosides of Stevia rebaudiana. The GSG compositions can be used as sweeteners in various consumables including foods, beverages, cosmetics and pharmaceuticals.