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.

A method for manufacturing an instant egg/edible bird's nest soup with fermented glutinous rice, comprising the steps of preparing the fermented glutinous rice wine, separating the wine juice from the rice dregs, preparing the dehydrated egg droppings/edible bird's nest shreds, vacuum freeze drying and vacuum packing; the instant egg/edible bird's-nest soup with fermented glutinous rice manufactured according to the method of the present invention is easily portable, and can be immediately consumed after being brewed in hot water; the flavor of the brewed egg/edible bird's nest soup with fermented glutinous rice is fresh and sweet; the shape of the rice dregs and the egg droppings/edible bird's nest shreds can be perfectly kept, and the rice dregs and egg droppings/edible bird's nest shreds are soft and good-tasting.

A method for manufacturing an instant egg/edible bird's nest soup with fermented glutinous rice, comprising the steps of preparing the fermented glutinous rice wine, separating the wine juice from the rice dregs, preparing the dehydrated egg droppings/edible bird's nest shreds, vacuum freeze drying and vacuum packing; the instant egg/edible bird's-nest soup with fermented glutinous rice manufactured according to the method of the present invention is easily portable, and can be immediately consumed after being brewed in hot water; the flavor of the brewed egg/edible bird's nest soup with fermented glutinous rice is fresh and sweet; the shape of the rice dregs and the egg droppings/edible bird's nest shreds can be perfectly kept, and the rice dregs and egg droppings/edible bird's nest shreds are soft and good-tasting.

The present disclosure generally relates to various cannabinoid compositions, including cannabinoid nanoparticle dispersions, processes for preparing these compositions, and methods of using these compositions.

System and method for thermally treating a flowable product includes an apparatus comprising a waveguide for providing electromagnetic energy, a conduit for receiving a flowable material, and an applicator for delivering electromagnetic energy from a generator to the waveguide. The waveguide includes first and second arms that each comprise an output that is isolated from the output of the other arm by a phase shift, such that any reflected electromagnetic energy exits the arm through the input port and does not flow into the opposing arm.

System and method for thermally treating a flowable product includes an apparatus comprising a waveguide for providing electromagnetic energy, a conduit for receiving a flowable material, and an applicator for delivering electromagnetic energy from a generator to the waveguide. The waveguide includes first and second arms that each comprise an output that is isolated from the output of the other arm by a phase shift, such that any reflected electromagnetic energy exits the arm through the input port and does not flow into the opposing arm.

A granule preheating device, which preheats a granular food material stored at a low temperature to a predetermined preheating temperature suitable for processing before processing the granular food material with a food processing machine, includes: a housing that accommodates the granular food material, a stirring shaft that rotates a stirring blade to stir the granular food material in the housing, a microwave irradiation device that irradiates microwaves from above the granular food material in the housing, and a control device that controls at least the microwave irradiation device so as to preheat the granular food material being stirred by the stirring shaft until the temperature is uniformly increased to the predetermined preheating temperature of 25 C. or higher and 30 C. or lower suitable for processing within a predetermined preheating time of 10 minutes or less.

A granule preheating device, which preheats a granular food material stored at a low temperature to a predetermined preheating temperature suitable for processing before processing the granular food material with a food processing machine, includes: a housing that accommodates the granular food material, a stirring shaft that rotates a stirring blade to stir the granular food material in the housing, a microwave irradiation device that irradiates microwaves from above the granular food material in the housing, and a control device that controls at least the microwave irradiation device so as to preheat the granular food material being stirred by the stirring shaft until the temperature is uniformly increased to the predetermined preheating temperature of 25 C. or higher and 30 C. or lower suitable for processing within a predetermined preheating time of 10 minutes or less.

The disclosure discloses a microwave processing equipment for continuous flow liquids, and belongs to the technical field of microwave processing. The microwave processing equipment for continuous flow liquids of the disclosure includes a feed preheating section, a microwave heating section and a cooling section. The microwave heating section includes a microwave generation system, a waveguide system, tuners, and a microwave absorption cavity. The waveguide system includes at least two waveguides. Each waveguide is installed at the microwave feed port formed in the outer wall of the microwave absorption cavity according to a predetermined angle. The predetermined angle is greater than or equal to 15 and less than 90. The disclosure provides a specific implementation scheme for microwave processing of flow liquids. In consideration of the reflection action of microwaves, the safety of equipment operation process and the utilization rate of energy are improved by a special waveguide arrangement mode. It can meet the heating requirement of liquid material and a feasible scheme is provided for the application of microwave processing to flow liquids.

A microwave heating system configured for heating a plurality of articles is provided. One or more of the microwave launchers can be offset slightly, such that the microwave energy introduced into the heating chamber is discharged at a launch tilt angle of at least 2. Additionally, each launcher can include a microwave-transparent window disposed between the microwave chamber and the one or more launch openings and at least 50 percent of the chamber-side surface of the window can be oriented at an angle of at least 2 from the horizontal.