The invention relates to a method of obtaining vegetable and/or fruit pulp crisp which is easy to eat any time and does not comprise any additive. The invention is a production method of vegetable-fruit pulp crisp, characterized by comprising the process steps of: squeezing fruits-vegetables and thus dewatering the same and obtaining the pulp thereof; adding a concentrated milk product into the obtained pulp; mixing all the contents; shaping the mixture; spreading the shaped products on the tray; freezing the products on the trays; and lyophilization of the frozen products under vacuum.

The present disclosure encompasses compositions prepared from kiwifruit. In particular, the invention encompasses compositions prepared from gold varieties of Actinidia chinensis. Also encompassed are methods of preparing these compositions. Further encompassed are methods of using these compositions, in particular, for treating or preventing disorders of the gastrointestinal system, including amongst others: inflammation, constipation, bowel irregularity, microbiota imbalances, irritable bowel syndrome, and inflammatory bowel disease.

The present invention relates to a method for producing a process flavour comprising: a) preparing a composition comprising a vegetable and a processing aid chosen from sucrose, NaCl and KCl or combinations thereof, b) intimately mixing the composition in an extruder under conditions of temperature and reaction time sufficient for the process flavour to develop, wherein the composition does not comprise yeast, yeast extract or yeast autolysate wherein the amount of vegetable is within the range of 50 to 98% (w/w) of the composition, wherein the water content of the composition before or during step b) is between 1% and 8% w/w based on the total weight of the composition.

The present invention relates to a laver fried snack in a three-dimensional shape and a preparation method therefor. Being easy to eat, the laver fried snack can be readily ingested by anyone irrespective of time and place and can be used as a side dish for meals or for alcoholic beverages. The laver fried snack can be variously configured according to tastes and needs of consumers, such as for persons reluctant to eat due to their dietary habits, or foreigners, the elderly, children, or patients and thus can be easily applied.

Disclosed is a method to prepare myceliated vegetable product which includes culturing fungi in an aqueous media which contains vegetables, fruits, and/or combinations thereof. Examples of vegetables used in the processes of the invention include carrot, spinach, kale, beet, broccoli, and combinations thereof. Fungi used include Lentinula edodes. The resultant myceliated nutrient food product has its flavor, or aroma modulated, such as by decreasing undesirable flavor of bitterness, beet, hay/herbal/grassy or decreasing undesirable aroma of beet or hay/herbal/grassy. Products made according to the invention have a nutritional profile comprising a measurable level of at least one of potassium, calcium, magnesium, iron, selenium, folate, Vitamin D, Vitamin A, Vitamin E, or Vitamin C, and a dose 10 g of the myceliated vegetable product can provide a significant amount of the daily requirement of certain vitamins and minerals. The product can be added to foods and/or beverages to improve the nutrient composition of foods without adding undesirable tastes or aromas.

Provided is a solid composition which is not too hard and excellent in edibility and to which a dry and good crispy texture and a favorable raw material-derived flavor are imparted regardless of a high content of insoluble dietary fiber. A solid composition includes a powder of an edible part and/or an insoluble dietary fiber localized site of one or more selected from the group consisting of dried vegetables, dried grains, dried pulses, and dried fruits is provided. The solid composition contains 3 mass % or more of protein. The solid composition contains 3 mass % or more of insoluble dietary fiber. The moisture content on wet basis is 11 mass % or less. The drying rate (105° C., 5 minutes) is 0.02 g/s.Math.m.sup.2 or more. A 50% integrated diameter of particles in an aqueous dispersion of the solid composition after ultrasonication is more than 5 μm and 600 μm or less.

The present invention relates to a method for producing kimchi seasoning mix includes mixing the raw materials in the powder form and drying the raw materials with hot air, wherein the raw materials include red pepper powder, conventional seasoning, vegetable powder, yeast and vegetable lactic acid bacteria. Accordingly, the taste and aroma of kimchi can be felt without the process of preparing actual kimchi, such as soaking kimchi with pickled cabbage. In addition, as the process of soaking kimchi is omitted, the manufacturing process is greatly simplified. In other words, the time to soak kimchi is not only shortened, but the kimchi soup produced inevitably when actual kimchi is manufactured is omitted.

A method for preserving chopped fresh parsley and extending the storage stability thereof through an admixture of chopped fresh parsley and dried mint, dried parsley, or a combination thereof. The intermixing of chopped fresh parsley with dried mint, dried oregano, or a combination thereof is in the absence of thermal and chemical adulterants, where absorbing moisture released from the chopped fresh parsley is with the dried mint, dried oregano, or a combination thereof such that the water activity of the mixture is less than 0.90, thereby inhibiting microbial growth, enzymatic browning, or a combination thereof, and extending the storage stability of the chopped fresh parsley to at least 48 hours at a temperature range of 33° F. to 75° F. When included in a tabbouleh salad dish, the resultant mixture extends the storage stability of the tabbouleh salad to at least 48 hours to beyond 72 hours.

A method for preparing cassava flour with a low content of cyanogenic glycosides is provided. The method includes: washing, peeling, and cutting newly harvested fresh cassava to obtain cassava pellets, cassava shreds, or a cassava pulp as a raw material. The method further includes the following steps: immersing the raw material in a solution containing cellulase and pectinase for 10-30 minutes, and then placing the raw material in warm water with a temperature of 35-50° C. and a pH value of 5.5-6.5 and ultrasonicating for 10-30 minutes at an ultrasonic frequency of 50-80 kHz, to obtain an ultrasonicated raw material; drying and pulverizing the ultrasonicated raw material to obtain cassava flour with a low content of cyanogenic glycosides, a cyanogenic glycoside content of the cassava flour is less than 15 mg/kg.

A method for producing a fermentate including the steps of obtaining a fruit or vegetable extract, treating the extract with a hydrolytic enzyme, mixing the extract with a fermenting microorganism, water, and a growth media to produce a liquid composition; and incubating the liquid composition at a controlled temperature and a controlled pH to produce a fermentate. A method for killing or inhibiting the growth of a contaminating microorganism on or within a food product, and a food product including a fermentate having a cellular mass component from a fermenting microorganism, a fermented fruit or vegetable extract and a hydrolytic enzyme are disclosed. A fermentate produced by any one of the methods described is contemplated. The fermentate may be a concentrated liquid or a dry powder and has the ability to inhibit the growth of a contaminating microorganism by 100% when diluted to less than 5% (w/v).