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.

A process for producing a composition from a biological source, which composition is preserved and, especially pathogen free and is storage stable, preferably at room temperature. Embodiments of the invention provide a process for producing a composition from eggs.

A process for producing a composition from a biological source, which composition is preserved and, especially pathogen free and is storage stable, preferably at room temperature. Embodiments of the invention provide a process for producing a composition from eggs.

This invention aims to decrease the microbial load in liquid food and, at the same time, to reduce the enzyme content in said liquid, in addition to being conducted under temperatures ranging from 6° C. to 50° C. The process works in the following way: The process starts with gasifying the liquid food with pure nitrogen or a nitrogen-carbon dioxide mixture, compressing the gasified liquid to pressure between 250 bar to 500 bar, holding the pressure for at least 300 seconds, then giving an instantaneous decompression. Nitrogen with a carbon content between 1% and 10% may be used to lower the liquids' enzyme content.

This invention aims to decrease the microbial load in liquid food and, at the same time, to reduce the enzyme content in said liquid, in addition to being conducted under temperatures ranging from 6° C. to 50° C. The process works in the following way: The process starts with gasifying the liquid food with pure nitrogen or a nitrogen-carbon dioxide mixture, compressing the gasified liquid to pressure between 250 bar to 500 bar, holding the pressure for at least 300 seconds, then giving an instantaneous decompression. Nitrogen with a carbon content between 1% and 10% may be used to lower the liquids' enzyme content.

The method of the invention is characterized in that in the first phase the device installation is filled with processed liquid product, yielding a low pressure zone and then the processed liquid product is introduced under high pressure into the cavitation process, where moving at a rate of not less than 3 m/s and under pressure of not less than 20 bar is introduced to the cavitation and rotation location of the separated streams of the processed liquid product, which rotating in the further part, in the longitudinal axis of the cavitator, move in the opposite directions, resulting in differential pressure leading to cavitation process with effects characteristic for sterilization and homogenization with heterogeneous parameters, wherein in the next phase a separation takes place into a liquid product, which has a particle size larger than 600 nm and a liquid product which has a particle size smaller than 600 nm, wherein the liquid product of larger particle size is directed to cooling and complementary cavitation reprocessing, and the liquid product of smaller particle size is subjected to particle size analysis control, by which the liquid product, which meets the preset parameters, is directed to the finished product acceptance, and the liquid product which does not meet the acceptance criteria is sent to the next reprocessing. The device of the invention is characterized in that it comprises a low pressure pump (2), which is used to fill the device installation with processed liquid product, wherein in a subsequent operation the particle size analyzer (7) switches the high pressure pump (1) on, introducing at a pressure not less than 20 bar the processed liquid product into the cavitator (3), where the cavitation process takes place, the resulting liquid product having a heterogeneous structure is introduced into the separator centrifuge (4), in which takes place, depending on parameters, the separation of the flow into the heat exchanger (5) and the cavitation reprocessing, and the flow through the valve (6) to the particle size analyzer (7), which directs the liquid product to the reception point.

The method of the invention is characterized in that in the first phase the device installation is filled with processed liquid product, yielding a low pressure zone and then the processed liquid product is introduced under high pressure into the cavitation process, where moving at a rate of not less than 3 m/s and under pressure of not less than 20 bar is introduced to the cavitation and rotation location of the separated streams of the processed liquid product, which rotating in the further part, in the longitudinal axis of the cavitator, move in the opposite directions, resulting in differential pressure leading to cavitation process with effects characteristic for sterilization and homogenization with heterogeneous parameters, wherein in the next phase a separation takes place into a liquid product, which has a particle size larger than 600 nm and a liquid product which has a particle size smaller than 600 nm, wherein the liquid product of larger particle size is directed to cooling and complementary cavitation reprocessing, and the liquid product of smaller particle size is subjected to particle size analysis control, by which the liquid product, which meets the preset parameters, is directed to the finished product acceptance, and the liquid product which does not meet the acceptance criteria is sent to the next reprocessing. The device of the invention is characterized in that it comprises a low pressure pump (2), which is used to fill the device installation with processed liquid product, wherein in a subsequent operation the particle size analyzer (7) switches the high pressure pump (1) on, introducing at a pressure not less than 20 bar the processed liquid product into the cavitator (3), where the cavitation process takes place, the resulting liquid product having a heterogeneous structure is introduced into the separator centrifuge (4), in which takes place, depending on parameters, the separation of the flow into the heat exchanger (5) and the cavitation reprocessing, and the flow through the valve (6) to the particle size analyzer (7), which directs the liquid product to the reception point.

A high temperature food heating device includes a high temperature heating tank composed of three tanks, which are a main tank, a front reserve tank and a reserve tank, each of the front and rear reserve tanks has a first storage part having an opening at the upper part and a second storage part communicating with the first storage part at the lower part of the first storage part and having an opening at the upper part. In the high temperature food heating device, a communication chamber for communicating between a water surface of each of the second storage parts of the front reserve tank and the rear reserve tank and a water surface of the main tank and storing a liquid or a gas inside is provided, and a high pressure gas or a pressurized liquid is supplied from a high pressure fluid supply section into the communication chamber.

A system and methodology for rehydrating perishable items (e.g., flowers, fresh food items, such as fruits, vegetables, other produce, and nuts) during storage and transportation thereof. The osmotic rehydration apparatus includes a pressurized chamber, a humidifier, an ozone generator, an electrostatic sprayer, a reservoir containing saline, and an air compressor. The perishable items are placed in the osmotic chamber under positive pressure. A film of saline solution is applied to the surface of the perishable items via an electrostatic sprayer. The saline/chlorine film on the perishable items is dried, and the osmotic chamber is saturated with ozone gas via an ozone generator. The osmotic chamber is then saturated with tiny pure water droplets via a humidifier or an electrostatic sprayer. The pressure within the chamber is raised to a pressure above atmospheric pressure. The osmotic chamber is then placed inside a cooler at a temperature slightly above freezing.

Provided a household electric appliance with a high/low-pressure function, and the household electric appliance with a high/low-pressure function includes a high/low-pressure forming apparatus, where the high/low-pressure forming apparatus includes a movement apparatus, a pressure forming rod, a pressure forming body, a pressure forming shell and a valve, and the valve includes a pressure suction valve and a pressurization valve. A pressure-resistant shell, a build-in groove, a sealing apparatus and a pressure-resistant build-in door are disposed on a device on a high-pressure compartment or a low-pressure compartment of the household electric appliance. The high-pressure compartment or the low-pressure compartment of the household electric appliance with the high/low-pressure function is integrally provided with or coupled with the high/low-pressure forming apparatus through a high/low-pressure control valve and a pipe.