The production method includes a drying step of drying a particulate crosslinked hydrogel polymer obtained by polymerizing a monomer, which is a material of a water-absorbent resin, using a heating device to obtain dried particles. The heating device includes: a rotary container that contains the particulate crosslinked hydrogel polymer therein and rotates; and a plurality of heating tubes that are located within the rotary container, extend in an axial direction of the rotary container, and rotate together with the rotary container. A gel temperature of the particulate crosslinked hydrogel polymer to be subjected to the drying step, the gel temperature being measured by a contact thermometer, is not lower than 50 C.

A machine for the heating of granular material at high temperature, wherein a vessel is divided into compartments by vessel dams and vibrated in a direction perpendicular or Cross Axis to the vessel longitudinal axis. The vessel is vibrated by counter rotating rotary vibrators to create a Cross Axis vibration causing a circular cascading movement of the granular material within the vessel. The vessel is surrounded by a furnace heated by electric power or a combustible gas.

The present invention relates to an improved food waste dryer utilizing waste heat, which includes a main frame, a dryer drum with an access door, to be positioned in the main frame, and an agitator positioned in the dryer drum. The improved food waste dryer comprises: a waste heat supply unit, a heating jacket positioned on the outer surface of the dryer drum, with a hot-air inlet to receive the waste heat from the waste heat supply unit and a hot-air outlet to discharge the waste heat inside the dryer drum, and a condensation system positioned in the main frame, to remove moisture included in the interior air of the dryer drum to increase the drying efficiency of the food waste dryer utilizing waste heat.

The present invention relates to an improved food waste dryer utilizing waste heat, which includes a main frame, a dryer drum with an access door, to be positioned in the main frame, and an agitator positioned in the dryer drum. The improved food waste dryer comprises: a waste heat supply unit, a heating jacket positioned on the outer surface of the dryer drum, with a hot-air inlet to receive the waste heat from the waste heat supply unit and a hot-air outlet to discharge the waste heat inside the dryer drum, and a condensation system positioned in the main frame, to remove moisture included in the interior air of the dryer drum to increase the drying efficiency of the food waste dryer utilizing waste heat.

The inventive concept relates to a sludge drying apparatus, and more particularly to a sludge drying apparatus that may improve an efficiency of drying sludge that is sewage deposit residues and simplify a drying process.

A method of cooking a snack food, the method comprising the steps of: a. providing a bed comprising a plurality of particles, wherein the particles are composed of, comprise or consist of a material which is magnetic and/or electroconductive; b. heating the particles in the bed to form a cooking medium in the form of a heated bed of particles, wherein in step b the particles are heated at least partially by electromagnetic induction; c. providing a plurality of snack food precursor elements in the cooking medium thereby to cook the elements to form a plurality of cooked snack food pieces, wherein the heated particles transfer heat into the elements by thermal conduction; and d. separating the plurality of snack food pieces and the cooking medium.

A method of cooking a snack food, the method comprising the steps of: a. providing a bed comprising a plurality of particles; b. heating and moving the particles in the bed to form a mobile cooking medium in the form of a heated, mobile bed of particles; c. providing a plurality of snack food precursor elements in the cooking medium thereby to cook the snack food precursor elements to form a plurality of cooked snack food pieces, wherein the heated, mobile particles transfer heat into the snack food precursor elements by thermal conduction; and d. separating the plurality of snack food pieces and the cooking medium.

A coat drying device dries a wet-coated film that is coated on a continuously transported coating object having first and second parts, where the second part has a greater heat capacity than the first part. The coat drying device includes a heat source and a heat source moving device. The heat source provides thermal energy primarily to a coating surface of a second part. The heat source moving device moves the heat source to the second part such that a spacing between the second part and the heat source is maintained within a predetermined range.

A coat drying device dries a wet-coated film that is coated on a continuously transported coating object having first and second parts, where the second part has a greater heat capacity than the first part. The coat drying device includes a heat source and a heat source moving device. The heat source provides thermal energy primarily to a coating surface of a second part. The heat source moving device moves the heat source to the second part such that a spacing between the second part and the heat source is maintained within a predetermined range.

The present disclosure provides an apparatus for thermal treatment of a pre-defined amount of organic waste. The apparatus includes a plurality of chambers to receive the pre-defined amount of organic waste. Further, the apparatus includes a double wall to encapsulate each of the plurality of chambers. Furthermore, the apparatus includes an auger accommodated within the cylindrical hollow body of each of the plurality of chambers. Moreover, each of the plurality of chambers has a cylindrical hollow body. The cylindrical body has a first diameter of a first section and a second diameter of a second section. In addition, each of the plurality of chambers is connected in succession for a continuous movement of the pre-defined amount of organic waste along a longitudinal axis. Further, the plurality of chambers includes a feed material inlet and a processed material outlet attached at a second end of the plurality of chambers.