A process for the application of a predetermined amount of oil to food pieces comprises: (a) providing or receiving a plurality of cut or shaped food pieces; (b) applying an oil-water emulsion to the food pieces for a time sufficient to provide a predetermined amount of oil to the food pieces and so that the food pieces have an initial moisture level after applying the oil-water emulsion; and (c) reducing the initial moisture level, in the absence of frying in oil, to a moisture level of from about 0.2 to about 80% by weight to provide a cooked food product, comprising said predetermined amount of oil, wherein step (c) does not comprises frying the food pieces in hot oil.

A food processing system is provided with: a heating unit equipped with a heating mechanism for indirectly heating food; a cooling unit equipped with an air blowing cooler for cooling the food heated by the heating unit; and a conveyor for transferring the food through the heating unit and the cooling unit. The integrated food processing system allows a large amount of sterilized food having a good texture, good taste and long shelf life to be provided.

A food processing system is provided with: a heating unit equipped with a heating mechanism for indirectly heating food; a cooling unit equipped with an air blowing cooler for cooling the food heated by the heating unit; and a conveyor for transferring the food through the heating unit and the cooling unit. The integrated food processing system allows a large amount of sterilized food having a good texture, good taste and long shelf life to be provided.

A MATZHU is prepared by using leaves of Gramineae (Graminae) and Bambusoideae plant as raw materials, and has a stable emerald color, and has an average powder particle size of 800 to 10,000 meshes, and has a total amount of dietary fiber of ≥60%, a content of lignin of ≥20% and a content of minerals of ≥7%, and comprises at least three or more bamboo leaf characteristic components, such as orientin, isoorientin, vitexin, isovitexin, adenosine, δ-hydroxylysine and p-coumaric acid. The method for the MATZHU preparation comprises, in turn, performing blanching and color protection, drying and superfine grinding the raw materials. By utilizing the thermal stability and the light stability of the MATZHU, the MATZHU may be used as a raw food material, a functional ingredient, or a dietary supplement.

A MATZHU is prepared by using leaves of Gramineae (Graminae) and Bambusoideae plant as raw materials, and has a stable emerald color, and has an average powder particle size of 800 to 10,000 meshes, and has a total amount of dietary fiber of ≥60%, a content of lignin of ≥20% and a content of minerals of ≥7%, and comprises at least three or more bamboo leaf characteristic components, such as orientin, isoorientin, vitexin, isovitexin, adenosine, δ-hydroxylysine and p-coumaric acid. The method for the MATZHU preparation comprises, in turn, performing blanching and color protection, drying and superfine grinding the raw materials. By utilizing the thermal stability and the light stability of the MATZHU, the MATZHU may be used as a raw food material, a functional ingredient, or a dietary supplement.

A MATZHU is prepared by using leaves of Gramineae (Graminae) and Bambusoideae plant as raw materials. The MATZHU has a stable emerald color and an average powder particle size of 800 to 10,000 meshes. The MATZHU also has a total amount of dietary fiber of ≥60%, a content of lignin of ≥20% and a content of minerals of ≥7%. The MATZHU includes at least three or more bamboo leaf characteristic components, such as orientin, isoorientin, vitexin, isovitexin, adenosine, δ-hydroxylysine and p-coumaric acid. The method for the MATZHU preparation includes, in turn, performing blanching and color protection, drying and superfine grinding the raw materials. By utilizing the thermal stability and the light stability of the MATZHU, the MATZHU may be used as a raw food material, a functional ingredient, or a dietary supplement.

A MATZHU is prepared by using leaves of Gramineae (Graminae) and Bambusoideae plant as raw materials. The MATZHU has a stable emerald color and an average powder particle size of 800 to 10,000 meshes. The MATZHU also has a total amount of dietary fiber of ≥60%, a content of lignin of ≥20% and a content of minerals of ≥7%. The MATZHU includes at least three or more bamboo leaf characteristic components, such as orientin, isoorientin, vitexin, isovitexin, adenosine, δ-hydroxylysine and p-coumaric acid. The method for the MATZHU preparation includes, in turn, performing blanching and color protection, drying and superfine grinding the raw materials. By utilizing the thermal stability and the light stability of the MATZHU, the MATZHU may be used as a raw food material, a functional ingredient, or a dietary supplement.

The present invention addresses the problem of providing a novel freezing system and a method for producing frozen ingredients, the system and method being such that the amount of free water after defrosting of the frozen ingredients is lower than with conventional freezing. The present invention solves the above problem by providing an ingredient freezing system comprising two or more freezing units for freezing the ingredient, and a transport unit for transporting the ingredient to the two or more freezing units, the two or more freezing units being configured so as to freeze the ingredient in stages so that the ingredient is frozen at progressively lower temperatures as the ingredient is transported on the transport unit.

The present invention addresses the problem of providing a novel freezing system and a method for producing frozen ingredients, the system and method being such that the amount of free water after defrosting of the frozen ingredients is lower than with conventional freezing. The present invention solves the above problem by providing an ingredient freezing system comprising two or more freezing units for freezing the ingredient, and a transport unit for transporting the ingredient to the two or more freezing units, the two or more freezing units being configured so as to freeze the ingredient in stages so that the ingredient is frozen at progressively lower temperatures as the ingredient is transported on the transport unit.

The present invention refers to a process for the conservation of vegetables which comprises the steps of selecting a vegetable, performing a first immersion of the vegetable in a first solution which is an antioxidant solution comprising citric acid and ascorbic acid, performing a second immersion in a second solution which is an antioxidant solution comprising citric acid, ascorbic acid and sodium chloride, cook in a third solution comprising citric acid, ascorbic acid and sodium chloride, hydrocooling the vegetable with the third solution, perform a third immersion in a fourth solution which is an edible coating solution, bag the vegetable, and perform a seal with active or passive modified atmosphere or a vacuum seal.