Patent application number | Description | Published |
20100047824 | CITRUS FRUIT PEELING PROCESS - An efficient process for enzymatically peeling citrus fruit applies a vacuum to perforated fruit and, while maintaining that vacuum, introduces an enzyme solution to the perforated fruit. The fruit is infused with the enzyme by releasing the vacuum pressure. After incubating the enzyme, the albedo of the fruit is weakened and the citrus peel can be readily removed. The peeled fruit may be divided into sections and the encompassing membrane removed. | 02-25-2010 |
20110203351 | Citrus Fruit Peeling Process - An efficient process for enzymatically peeling citrus fruit applies a vacuum to perforated fruit and, while maintaining that vacuum, introduces an enzyme solution to the perforated fruit. The fruit is infused with the enzyme by releasing the vacuum pressure. After incubating the enzyme, the albedo of the fruit is weakened and the citrus peel can be readily removed. The peeled fruit may be divided into sections and the encompassing membrane removed. | 08-25-2011 |
20110217435 | FRUIT AND VEGETABLE PESERVATION PROCESS - An HPP method for preserving a food item such as a fruit or vegetable may include the steps of: (a) placing a prepared fruit and/or vegetable in a container having a capacity less than about two gallons; (b) filling the container with a pH modifying solution or sauce to establish a pH in the container in the range of about 2 to about 6, and preferably about 4; (c) dearation; (d) sealing the container; and (e) applying pressure to the container in the range of about 2,000 to about 120,000 psi, preferably about 90,000 psi, for a time period in the range of about 1 to about 20 minutes, preferably about 5 minutes at a temperature in the range not lower than freezing and not greater than about 230° F. | 09-08-2011 |
20120064201 | GALVANIC PACKAGE FOR FRUITS AND VEGETABLES AND PRESERVATION METHOD - A package for fruits and vegetables having galvanic functionality is formed by using two or more metals with different galvanic activity properties on the surface of a nonmetallic substrate. The metals may be deposited electrolytically, by vacuum, autocatalytically, or by other methods. The metals are selected to create a galvanic reaction after the package is filled with a low pH food product and its associated liquids, juices, brine, etc. The package may extend the shelf-life of the food product contained therein, for example, by making metal ions available to the food product. | 03-15-2012 |
20120276258 | FRUIT AND VEGETABLE PESERVATION PROCESS - An HPP method for preserving fruits may include the steps of: (a) placing a prepared fruit in a container having a capacity less than about two gallons; (b) filling the container with a pH modifying solution to establish a pH in the container in the range of about 2 to about 6, and preferably about 4; (c) deaeration; (d) adding a modifying medium such as a sweetener; (e) vacuum infusion of the solution into the prepared fruit; (f) sealing the container; and (g) applying pressure to the container in the range of about 2,000 to about 120,000 psi, preferably about 90,000 psi, for a time period in the range of about 1 to about 20 minutes, preferably about 5 minutes at a temperature in the range not lower than freezing and not greater than about 230° F. | 11-01-2012 |
20130052314 | Methods for Sterilizing, Stabilizing and Packaging Harvested Produce - Disclosed are methods for processing harvested produce such as fruits and vegetables, where the sterilization, stabilization and packaging is done in such a manner that it allows for longer retention of freshness, texture, flavor and overall quality than is possible with conventional retort processes and packaging. One specific embodiment discusses sterilizing and packaging harvested produce into a bulk storage container, comprising the steps of cleaning, dicing and blanching said produce, thereby creating pre-processed produce; adding water, at least one acid or salt, and at least one carbohydrate, to said pre-processed produce to form a mixture of pre-processed produce and a liquid packing medium; processing said mixture in an ohmic processing vessel to form a sterilized mixture suitable for aseptic packaging in said container, without first packaging said mixture. | 02-28-2013 |
20130078339 | High Pressure Processing of Pathogenostat-Treated Food Articles - The disclosure relates to method of treating foodstuffs such as whole or cut vegetables or fruits or cuts of meat in a manner that reduces the load of human or other animal pathogens in the foodstuff, preferably without substantially altering its appearance, one or more of its organoleptic properties, or some combination of these. The method includes contacting the foodstuff with a pathogenostatic fluid such as an acidic solution, preferably at a reduced pressure, and thereafter subjecting the foodstuff to an HPP process. Foodstuffs treated in this manner can be packaged in the presence of the pathogenostatic fluid, in the presence of a sauce, or in the presence of substantially no liquid. Packaged foodstuffs treated as described herein exhibit beneficial properties, such as retention of taste, appearance, and texture and extended shelf life, relative to non-treated foodstuffs. | 03-28-2013 |
20130184359 | Processes for Extracting Colors from Hibiscus Plants - Processes are provided for extracting color comprising anthocyanin and antioxidants from hibiscus flowers. Dried or wet flowers or flower particles are soaked in water to release color from the flowers. The released anthocyanin and antioxidants are suspended in water and separated from the solid components using centrifugation, filtration, water flotation, pressing, or any combination of separation techniques. The hibiscus color may be concentrated into a color concentrate and stabilized with a stabilizing agent, such as, for example, a sugar alcohol having a 2 to 12 carbon backbone, at a pH value in the range of about 2 to about 6. Residual hibiscus color in the solid hibiscus components may be collected by mixing the components with water and then separating the residual hibiscus color using any one or more separation techniques. The residual hibiscus color may also be concentrated and stabilized with the hibiscus color or the color concentrate. | 07-18-2013 |
20130230633 | FRUIT AND VEGETABLE PRESERVATION PROCESS - An HPP method for preserving a food item such as a fruit or vegetable may include the steps of: (a) placing a prepared fruit and/or vegetable in a container having a capacity less than about two gallons; (b) filling the container with a pH modifying solution or sauce to establish a pH in the container in the range of about 2 to about 6, and preferably about 4; (c) dearation; (d) sealing the container; and (e) applying pressure to the container in the range of about 2,000 to about 120,000 psi, preferably about 90,000 psi, for a time period in the range of about 1 to about 20 minutes, preferably about 5 minutes at a temperature in the range not lower than freezing and not greater than about 230° F. | 09-05-2013 |
20130236611 | GALVANIC PACKAGE FOR FRUITS AND VEGETABLES AND PRESERVATION METHOD - A package for fruits and vegetables having galvanic functionality is formed by using two or more metals with different galvanic activity properties on the surface of a nonmetallic substrate. The metals may be deposited electrolytically, by vacuum, autocatalytically, or by other methods. The metals are selected to create a galvanic reaction after the package is filled with a low pH food product and its associated liquids, juices, brine, etc. The package may extend the shelf-life of the food product contained therein, for example, by making metal ions available to the food product. | 09-12-2013 |
20140248406 | Fruit Product Containing Sugar Alcohol - A processed fruit product, for example a citrus fruit product, including a packing liquid, containing little or no sugar, and optionally containing one or more artificial sweeteners, further comprising an amount of a sugar alcohol effective to maintain integrity and/or texture of the fruit. | 09-04-2014 |