A vegetable treatment method includes a step A of cutting vegetables as a treatment target into eating sizes; a step B of putting the vegetables in a container basket after the step A is performed; a step C of, while keeping the container basket completely submerged in a cleaning tank filled with a cleaning solution, moving the container basket at a moving speed of 0.15 to 0.7 m/min or circulating the cleaning solution in a stream at 3 to 10 L/min for 5 to 10 minutes after the step B is performed; and a step D of, while keeping the container basket completely submerged in a sterilization tank filled with a bactericide solution, moving the container basket at a moving speed of 0.15 to 0.7 m/min or circulating the bactericide solution in a stream at 3 to 10 L/min for 3 to 10 minutes after the step C is performed.

The present disclosure features dried vegetable noodles having an increased shelf life and methods of making dehydrated vegetable noodles. The noodles are dry, shelf stable cut vegetable noodles (cut from whole produce, not extruded) and are lower in carbohydrate calories and higher in nutritional value than traditional grain-based noodles. The process results in a food safe, extended shelf stable singularized noodle that is nutritious, convenient and versatile.

The present application relates to a processed food distributable at room temperature comprising (a) a first food part comprising a paste, a leafy vegetable, or a combination thereof; and (b) a second food part comprising at least one selected from the group consisting of a meat, a seaweed, a seafood, a root vegetable, a fruit vegetable, and a mushroom, wherein the first and second food parts are separately packaged.

The present application relates to a processed food distributable at room temperature comprising (a) a first food part comprising a paste, a leafy vegetable, or a combination thereof; and (b) a second food part comprising at least one selected from the group consisting of a meat, a seaweed, a seafood, a root vegetable, a fruit vegetable, and a mushroom, wherein the first and second food parts are separately packaged.

The embodiments herein relate to a composition of real fruit drink concentrate, a method of making the real fruit drink concentrate and a method of making hot as well as cold real fruit drinks. The real fruit drink concentrate comprises a plurality of fruits, spices, herbs, flowers, lemon juice, sugar and water. The method of preparing a real fruit drink concentrate comprises preparing a mixture. The mixture is prepared by mixing fresh or frozen fruit pieces, spices, sugar, lemon juice and a quantity sufficient water in a container. The mixture is cooked in a pre-heated oven at 420° F. till the caramelization of fruits and sugar occurs. A boiling water is added to the mixture and cooked again. The total cooking time is 45 minutes and the boiling water is added after at least ⅔.sup.rd of the total cooking time. The mixture is canned. The canning is done by using a boiling water bath for 5-10 minutes. The mixture is stored in sealed jars in a cool dark place.

Systems and methods for storing post-climacteric fruit are described. The system is scalable for home or commercial use and extends the storage life of fruit sensitive to over-ripening and spoilage because of the emission of ethylene gas. The described systems circulate and remove the ethylene gas, emitted by the fruit, from within an enclosure containing the fruit. Also, the system may store the fruit at an average temperature that extends the storage life of the fruit. The systems accomplish these objectives by thermally cycling the temperature of the air/gas within the enclosure containing the fruit about a desired storage temperature. The change in temperature may cause the air to expand and contract. Mechanisms allow the expanding and contracting air to exchange the gas within the enclosure with the air outside the enclosure, inducing the flushing of the ethylene gas.

Systems and methods for storing post-climacteric fruit are described. The system is scalable for home or commercial use and extends the storage life of fruit sensitive to over-ripening and spoilage because of the emission of ethylene gas. The described systems circulate and remove the ethylene gas, emitted by the fruit, from within an enclosure containing the fruit. Also, the system may store the fruit at an average temperature that extends the storage life of the fruit. The systems accomplish these objectives by thermally cycling the temperature of the air/gas within the enclosure containing the fruit about a desired storage temperature. The change in temperature may cause the air to expand and contract. Mechanisms allow the expanding and contracting air to exchange the gas within the enclosure with the air outside the enclosure, inducing the flushing of the ethylene gas.

A food package comprising a container having a sealed top layer and comprising a fresh, preservative-free food product comprising chickpeas, such as hummus, which includes no preservatives and exhibits a total yeast and mold counts of less than 10 CFU/g at 28 days after production when stored at 2° C. to 8° C. The package includes a headspace between the fresh hummus and the top sealing layer, the headspace comprising a modified atmosphere which is nitrogen rich, such as 70% N.sub.2:30% CO.sub.2.

The present invention relates to the field of processing food. Particularly, the present invention relates to a method of preparing a fruit-containing product using high pressure pasteurization. The fruit-containing product obtained by the method of the invention is microbiologically safe and can be stored at ambient temperatures. The fruit-containing product according to the invention can be used to feed babies and infants during mixed diet introduction.

The present invention relates to the field of processing food. Particularly, the present invention relates to a method of preparing a fruit-containing product using high pressure pasteurization. The fruit-containing product obtained by the method of the invention is microbiologically safe and can be stored at ambient temperatures. The fruit-containing product according to the invention can be used to feed babies and infants during mixed diet introduction.