The present invention relates to a method for three-dimensional microwave air-jet drying of persimmon slices, comprising steps of grading and cleaning, slicing, microwave heating, steam de-astringency, hot-air reverse primary drying, negative-pressure intermittent secondary drying, cooling and packaging. In the present invention, high-temperature (60-70 C.) high-pressure annularly sprayed citric acid and 40% alcohol vapor (rotating at 360) are adopted to remove astringency of persimmons, wherein high temperature causes more intense Brownian motion of liquid molecules; high pressure improves permeation and diffusion speed of de-astringency liquid in the persimmon slices; citric acid plays a membrane breaking role on persimmon cell membranes; and 40% alcohol vapor is allowed to rapidly diffuse into cells, so that tannin is polymerized into insoluble gel from a soluble state, thereby achieving a uniform and rapid de-astringency effect.

Dehydration and drying are some of the oldest methods of preserving food and other biological materials such as proteins and both live and dead live microorganisms or their metabolites. The invention disclosed herein seeks a method of further improving the process of preserving biological material by combining the freezing or freeze-drying process with a partial infrared dehydration step. By using infrared radiation energy to perform simultaneous blanching and dehydration, the drying speed is greatly increased and better cellular and molecular integrity is maintained. The invention herein is also particularly useful in connection with cannabis and hemp.

Dehydration and drying are some of the oldest methods of preserving food and other biological materials such as proteins and both live and dead live microorganisms or their metabolites. The invention disclosed herein seeks a method of further improving the process of preserving biological material by combining the freezing or freeze-drying process with a partial infrared dehydration step. By using infrared radiation energy to perform simultaneous blanching and dehydration, the drying speed is greatly increased and better cellular and molecular integrity is maintained. The invention herein is also particularly useful in connection with cannabis and hemp.

The present invention relates to a manufacturing method for dried bulbs and tubers, the method comprising the steps of: punching and perforating the surface of bulbs and tubers with microneedles; placing the perforated bulbs and tubers in a test tube; and freeze-drying the perforated bulbs and tubers placed in the test tube. According to the features of the present invention, the nutritional values of bulbs and tubers can be increased, high-quality products can be provided to a consumer through simple processing, and dried bulbs and tubers having a high restoration rate while having a significantly extended expiration date can be provided.

The present invention relates to a manufacturing method for dried bulbs and tubers, the method comprising the steps of: punching and perforating the surface of bulbs and tubers with microneedles; placing the perforated bulbs and tubers in a test tube; and freeze-drying the perforated bulbs and tubers placed in the test tube. According to the features of the present invention, the nutritional values of bulbs and tubers can be increased, high-quality products can be provided to a consumer through simple processing, and dried bulbs and tubers having a high restoration rate while having a significantly extended expiration date can be provided.

A method and apparatus for pasteurizing and drying cannabis plant materials using a microwave-vacuum chamber. The pasteurizing and drying are carried out with no use of ionizing radiation and with rapid drying. Pasteurization is done at a temperature and for a time period that are sufficient to reduce microorganisms to an acceptably low level, while not significantly reducing the psychoactive compounds in the material. In the process, the pressure inside a vacuum chamber is reduced to a first pressure less than atmospheric. The material is maintained in the vacuum chamber at the first pressure at a pasteurizing temperature while irradiating the material with microwave radiation. The pressure is then reduced to a second pressure lower than the first pressure and the material is maintained in the vacuum chamber at the second pressure for a time period at a dehydrating temperature lower than the pasteurizing temperature while irradiating the material with microwave radiation. The pasteurizing and dehydrating steps can be done in the reverse order.

The present invention relates to the field of food dehydration and production of snacks. In particular, the invention relates to a method for drying vegetables using microwaves in order to produce an improved dried product. The invention also relates to said dried vegetables and to the use thereof in the agro-food industry.

The present invention relates to the field of food dehydration and production of snacks. In particular, the invention relates to a method for drying vegetables using microwaves in order to produce an improved dried product. The invention also relates to said dried vegetables and to the use thereof in the agro-food industry.

Methods and systems for processing foods includes providing a flexible package. A pre-processed food product (e.g., raw food) is provided and is processed by rapidly heating the food product. This processed food product is delivered into the flexible package for consumption by a user. Additionally, in other embodiments, methods and systems for processing frozen food products to shelf stable or refrigerated products are provided. A frozen food product is provided, converted to a pumpable state, and then processed by rapidly heating the food product. This processed food product is then delivered into a package.

Methods and systems for processing foods includes providing a flexible package. A pre-processed food product (e.g., raw food) is provided and is processed by rapidly heating the food product. This processed food product is delivered into the flexible package for consumption by a user. Additionally, in other embodiments, methods and systems for processing frozen food products to shelf stable or refrigerated products are provided. A frozen food product is provided, converted to a pumpable state, and then processed by rapidly heating the food product. This processed food product is then delivered into a package.