The present invention relates to a processing apparatus to melt animal fat, in which an animal raw fat material is transported by a means, preferably a pump, through a microwave chamber and thereby heated. The present invention further relates to a method to heat animal raw fat material with radio-frequency waves.

The present invention relates to a susceptor combination comprising: metallic particles; particles of at least two or more semiconductor materials; and one or more alkaline or alkaline earth metal salts; to a susceptor ink composition containing it. It also relates to a laminate comprising a dielectric substrate and the susceptor ink composition printed on the substrate, as well as a microwaveable package comprising the laminate.

The present invention relates to a processing apparatus, in which a dairy product is heated, dried, disinfected and/or pasteurized, sterilized. The present invention further relates to a method to treat a dairy product with radio-frequency wave

A method of preparing the instant whole wheat crisps includes: using whole wheat grains as raw materials, fully soaking the whole wheat grains to make the whole wheat grains absorb water until saturating, and then performing cooking, extruding, sheeting, and microwave vacuum drying to obtain the instant whole wheat crisps. In the present disclosure, no artificial additive is added in the processing process, and the wheat grains are extruded and dried at a low temperature, which conforms to the current trend of clean label foods. Moreover, the whole wheat grains are processed into crisps, which are unadulterated whole wheat foods and conforms to the current trend of whole grains.

Embodiments herein relate to systems and methods for thermally processing packaged food products with highly-uniform electromagnetic energy fields. In an embodiment, a method of thermally processing a packaged food product is included herein. The method can include placing the packaged food product in a heating chamber, the packaged food product comprising a hermetically sealed package and a food material disposed within the package. The method can further include applying electromagnetic energy to the packaged food product from a first electromagnetic energy source from a first direction. The electromagnetic energy can be sufficient to raise the temperature of the food material by at least 50 degrees Fahrenheit with a spatial temperature variation of less than 25 degrees Fahrenheit in less than 120 seconds. Other embodiments are also included herein.

A method of popping popcorn in a microwave having a cooking chamber, an energy source which provides energy to the cooking chamber, a humidity sensor, and a microphone sensor, includes the steps of placing a plurality of popcorn kernels in the cooking chamber. The energy source is operated during a popcorn popping cycle. Popping sounds generated when the popcorn kernels are popped are detected, as is the humidity level in the cooking chamber. The energy source is directed to stop operating when the popping sound and the humidity level satisfy one or more end status indicators. The current disclosure also includes a microwave for carrying out the above described process.

An in-shell egg pasteurization process includes, in a temperature-raising stage (12), raising the temperature of yolk of a plurality of in-shell eggs (40), simultaneously and at least predominantly by means of microwave radiation, to a pasteurization temperature, the temperature-raising stage (12) including a plurality of elongate or longitudinally extending microwave cavities that are isolated from one another so that microwaves fed into an elongate or longitudinally extending microwave cavity do not leak into any other elongate or longitudinally extending microwave cavity. The in-shell eggs (40) are displaced along the lengths of the elongate or longitudinally extending microwave cavities whilst being irradiated with microwaves. In a pasteurization stage (14), the raised temperatures of the in-shell eggs (40) are maintained for a pasteurization time sufficient to pasteurize the in-shell eggs (40).

A method of fabricating a processed food product containing protein includes, while moving a mixture in a tubular body, continuously heat-coagulating the mixture by an interior heating system and shaping the mixture. The mixture contains protein, lipid and water and has flowability. The tubular body includes a heating section and a non-heating section succeeding the heating section. The non-heating section includes a back pressure structure that produces back pressure inside the tubular body.

A method for manufacturing a measuring kit is disclosed. The method for manufacturing a measuring kit includes steps of providing a carrier including a substrate having a surface; coating a silane onto the surface of the substrate; providing an organic molecule; adding the organic molecule onto the carrier; outputting a microwave energy by a coaxial cable; and emitting the microwave energy through a radiator to microwave the carrier and the organic molecule uniformly to coat the organic molecule onto the carrier carrying the silane, wherein the measuring kit is used to apply an enzyme-linked immunosorbent assay.

The presently disclosed subject matter is directed to a system and method of extracting bioactive agents from biomass using continuous microwave-assisted extraction. The disclosed system comprises a plurality of microwave modules that exposes the biomass to continuous microwave energy, and an extraction module to extract bioactive agents from the biomass. In some embodiments, the biomass is exposed to subcritical water treatment in the microwave modules. The disclosed system enables bioactive agent to be extracted effectively, in a relatively short period of time compared to conventional extraction methods and allows for an enhanced extraction yield.