An acoustic apparatus and method for using a combination of low-frequency and high-frequency vibration of dried food, grain being an example, such that there are a large number of collisions among the individual grain particles for destroying microorganisms that reside on the surface or just below the surface of the grain, are described. Embodiments of the invention permit bulk and continuous processing of the food. It is expected that such collisions do not produce any chemical changes in the food, nor should it have any adverse effects on the taste thereof. Embodiments of the apparatus are applicable to destruction of airborne microorganisms.

Soft plant foods and a method of producing the same are revealed. The method includes steps of (a) providing a plant food; (b) immersing the plant food in a decomposition-enhancing enzyme solution; (c) performing a plurality of instances of high-pressure treatment on the plant food immersed in the decomposition-enhancing enzyme solution; (d) allowing the plant food having finished step (c) to react at 40 to 65° C. for 20 to 60 minutes; and (e) applying a pressure of at least 400 MPa on the plant food having finished step (d) for 3 to 10 minutes. The method is effective in speeding up the production process and preventing loss of nutrients of the plant foods.

An apparatus for sterilising material comprising a first pressure vessel, in which the pressure vessel has a vessel infeed and a vessel outlet. The vessel infeed and vessel outlet are adapted to form respective seals with the pressure vessel such that a desired pressure can be maintained in the pressure vessel, and wherein pressure vessel is depressurised such that the material deposited in the pressure vessel is sterilised and at least a portion of the inner surfaces of the pressure vessel are sterilised, such that the material deposited into the pressure vessel can be stored therein for a predetermined period.

Soft plant foods and a method of producing the same are revealed. The method includes steps of (a) providing a plant food; (b) immersing the plant food in a decomposition-enhancing enzyme solution; (c) performing a plurality of instances of high-pressure treatment on the plant food immersed in the decomposition-enhancing enzyme solution; (d) allowing the plant food having finished step (c) to react at 40 to 65 C. for 20 to 60 minutes; and (e) applying a pressure of at least 400 MPa on the plant food having finished step (d) for 3 to 10 minutes. The method is effective in speeding up the production process and preventing loss of nutrients of the plant foods.

The disclosure discloses delicious low-glycemic index formula rice and its application, and belongs to the technical field of food. The low-GI formula rice comprises low-GI rice, rice and coarse cereals; the mass ratio of the low-GI rice to the rice to the coarse cereals is (3-5):(0-2):5; and the coarse cereals comprise 15-25 parts of mung beans, 8-15 parts of black rice, 10-15 parts of oat milled rice with embryo, 5-10 parts of black sticky rice and 3-10 parts of tartary buckwheat. Exogenous addition is avoided, all used raw materials are natural, through reasonable matching of the low-GI rice, the rice and the coarse cereals, the content of GI value can be neutralized, furthermore, an effect of improving the viscosity and elasticity of cooked rice processed from the low-GI formula rice can be improved, mouthfeel can also be enriched, and the quality and mouthfeel of the cooked rice processed from the low-GI formula rice are slightly different from those of cooked rice; and the GI value of the product is less than 55, so that diabetic patients can eat the high-taste-value low-GI formula rice as staple food at ease.

An acoustic apparatus and method for using a combination of low-frequency and high-frequency vibration of dried food, grain being an example, such that there are a large number of collisions among the individual grain particles for destroying microorganisms that reside on the surface or just below the surface of the grain, are described. Embodiments of the invention permit bulk and continuous processing of the food. It is expected that such collisions do not produce any chemical changes in the food, nor should it have any adverse effects on the taste thereof. Embodiments of the apparatus are applicable to destruction of airborne microorganisms.

An acoustic apparatus and method for using a combination of low-frequency and high-frequency vibration of dried food, grain being an example, such that there are a large number of collisions among the individual grain particles for destroying microorganisms that reside on the surface or just below the surface of the grain, are described. Embodiments of the invention permit bulk and continuous processing of the food. It is expected that such collisions do not produce any chemical changes in the food, nor should it have any adverse effects on the taste thereof. Embodiments of the apparatus are applicable to destruction of airborne microorganisms.

Provided is an innovative method for sterilization or inactivation treatment of heat-resistant spore-forming bacteria that demonstrates a sufficient sterilization effect in a reliable manner and that can be implemented using simple equipment by reducing the heat resistance of heat-resistant spore-forming bacteria by the effect of decompression treatment in a high-pressure process, and by carrying out a heat sterilization treatment after a predetermined resting time has elapsed after the decompression to thereby sterilize and inactivate heat-resistant bacteria that have reduced heat resistance. A method for sterilizing or inactivating heat-resistant spore-forming bacteria by performing, as a pretreatment of a heat sterilization treatment, a high-pressure treatment in which a hydrostatic pressure of 50 MPa or more and 200 MPa or less is applied to an object under a temperature of 50 C. or less, and a decompression treatment for decompression is carried out, after which the object having undergone the decompression treatment is subjected to the heat sterilization treatment after a predetermined resting time has elapsed after a variation in hydrostatic pressure by the decompression has occurred.