A food preservation apparatus includes: a case body, forming an accommodating space inside, and including an inlet and an outlet in communication with the accommodating space; a transfer apparatus, including a conveyor belt and a drive assembly; at least one electric field generation apparatus, configured to generate a local electric field, the electric field generation apparatus being located in the accommodating space, and including an insulating substrate and a plurality of electrode plates, where the insulating substrate is disposed on an inner side wall surface of the case body on a different side from the part of the conveyor belt, and the plurality of electrode plates is arranged at intervals on the insulating substrate in the direction from the inlet to the outlet; and a control apparatus, electrically connected to the drive assembly and the plurality of electrode plates.

A food preservation apparatus includes: a case body, forming an accommodating space inside, and including an inlet and an outlet in communication with the accommodating space; a transfer apparatus, including a conveyor belt and a drive assembly; at least one electric field generation apparatus, configured to generate a local electric field, the electric field generation apparatus being located in the accommodating space, and including an insulating substrate and a plurality of electrode plates, where the insulating substrate is disposed on an inner side wall surface of the case body on a different side from the part of the conveyor belt, and the plurality of electrode plates is arranged at intervals on the insulating substrate in the direction from the inlet to the outlet; and a control apparatus, electrically connected to the drive assembly and the plurality of electrode plates.

Disclosed herein is a method for preserving a plant material. The method comprises applying a composition comprising a microwave attractant to the plant material; and then drying the plant material while exposing the plant material to microwave energy, wherein the microwave energy heats the plant material to a temperature effective to inactivate the majority of any browning enzymes in the plant material, and wherein the microwave attractant results in the heating of the plant material occurring at a rate whereby browning of the plant material by the browning enzymes during heating is substantially prevented. Also disclosed are uses of the preserved plant material.

Disclosed herein is a method for preserving a plant material. The method comprises applying a composition comprising a microwave attractant to the plant material; and then drying the plant material while exposing the plant material to microwave energy, wherein the microwave energy heats the plant material to a temperature effective to inactivate the majority of any browning enzymes in the plant material, and wherein the microwave attractant results in the heating of the plant material occurring at a rate whereby browning of the plant material by the browning enzymes during heating is substantially prevented. Also disclosed are uses of the preserved plant material.

The present invention relates to a thawing-apparatus, in which a substance is preferably heated. The present invention further relates to a method to thaw a substance with radio-frequency waves.

The disclosure discloses a method for killing A. Flavus spores by infrared radiation in coordination with essential oil fumigation, and belongs to the technical field of sterilization. The method is to treat A. Flavus spores by medium and short wave infrared radiation in combination with essential oil fumigation. The disclosure provides a method for killing A. Flavus spores by medium and short wave infrared radiation in coordination with essential oil fumigation. On the one hand, air residual heat and energy of medium and short wave infrared radiation are fully used to make a material heated up rapidly, and on the other hand, essential oil on the surface of the material penetrates the cell membrane of A. Flavus spores, and further damages protein on the membrane and internal organelles in combination with the heat effect. The process is easy in operation, low in energy consumption, pollution-free and high in sterilization efficiency, and can be used for purifying bulk grains.

The disclosure discloses a method for killing A. Flavus spores by infrared radiation in coordination with essential oil fumigation, and belongs to the technical field of sterilization. The method is to treat A. Flavus spores by medium and short wave infrared radiation in combination with essential oil fumigation. The disclosure provides a method for killing A. Flavus spores by medium and short wave infrared radiation in coordination with essential oil fumigation. On the one hand, air residual heat and energy of medium and short wave infrared radiation are fully used to make a material heated up rapidly, and on the other hand, essential oil on the surface of the material penetrates the cell membrane of A. Flavus spores, and further damages protein on the membrane and internal organelles in combination with the heat effect. The process is easy in operation, low in energy consumption, pollution-free and high in sterilization efficiency, and can be used for purifying bulk grains.

Provided are roasted cacao beans with high total polyphenol content and reduced bitterness and the like, and a method for roasting raw cacao beans. Roasted cacao beans are obtained by roasting raw cacao beans in a state in which the pressure has been reduced below atmospheric pressure by heating for a prescribed period using microwaves so that the bean surface temperature reaches a temperature in the range of 50-90° C. The microwave heating time is preferably in the range of five to ten minutes.

The dried products of the present invention provide snacks (so-called crispy smoothies) having a particularly high proportion of fruit, which, owing to their production at low temperatures with extensive exclusion of oxygen, are distinguished by a high level of preservation of oxidation- and temperature-sensitive, but valuable, fruit constituents and which have an intense flavor and also a homogeneous appearance which is attractive in terms of color.

The dried products of the present invention provide snacks (so-called crispy smoothies) having a particularly high proportion of fruit, which, owing to their production at low temperatures with extensive exclusion of oxygen, are distinguished by a high level of preservation of oxidation- and temperature-sensitive, but valuable, fruit constituents and which have an intense flavor and also a homogeneous appearance which is attractive in terms of color.