An evaporative cooling system for a scrap metal furnace with an afterburner, a rotary kiln and a conveyor that loads scrap metal into the kiln. Pressurized water runs through water lines to two water spray subassemblies. The first subassembly sprays atomized water into a heating duct between the afterburner and a gas recycle return duct. The second subassembly sprays water onto the scrap metal on the conveyor. Water flow through the subassemblies is regulated by one or more water flow controllers, pumps and/or flow sensors, which may be computer controlled. A water heater warms the water to a desired temperature.

A rotary kiln with a stirring function is provided, including a kiln head, a roller and a kiln tail. The roller is obliquely arranged on the kiln head and the kiln tail. The rotary kiln further includes a mounting shaft and stirring mechanisms. Linkage elements are arranged on an inner wall of the roller. The linkage elements are configured to drive the stirring mechanisms to perform a stirring operation. Each of the stirring mechanisms includes a rotating ring sleeve and two limiting slide bases. The rotating ring sleeve is provided with three telescopic frame bodies. A telescopic baffle is arranged in each of the three telescopic frame bodies. A secondary propulsion assembly is arranged in a mounting groove. A sealing cover is arranged at an inner end of the telescopic baffle. The telescopic frame body is communicated with the rotating ring sleeve.

A rotary kiln with a stirring function is provided, including a kiln head, a roller and a kiln tail. The roller is obliquely arranged on the kiln head and the kiln tail. The rotary kiln further includes a mounting shaft and stirring mechanisms. Linkage elements are arranged on an inner wall of the roller. The linkage elements are configured to drive the stirring mechanisms to perform a stirring operation. Each of the stirring mechanisms includes a rotating ring sleeve and two limiting slide bases. The rotating ring sleeve is provided with three telescopic frame bodies. A telescopic baffle is arranged in each of the three telescopic frame bodies. A secondary propulsion assembly is arranged in a mounting groove. A sealing cover is arranged at an inner end of the telescopic baffle. The telescopic frame body is communicated with the rotating ring sleeve.

Porous and easy water soluble amorphous silicon, method and apparatus to produce thereof can be obtained which does not contain tar, crystal, residual agrichemicals, and carcinogens by using only one burning treatment from a plant including silicon abundantly such as rice plant like as rice husks constituting rice, rice straw, rice bran, wheat, corn, grass and horsetails, tea, potato and the like. It is a method of manufacturing an amorphous silicon which is porous and easily soluble in water and which does not contain tar, crystal, residual agrichemicals and carcinogens, which comprising, burning the rice husks, etc. at the temperature range of between 500 C. or more and 700 C. or less, while stirring the rice husks, etc., by introducing at atmospheric gas having a mass of 6.7 times or more and 20 times or less of the weight of the rice husks, etc., oxygen gas having a weight of 1.4 times or more and 4 times or less with respect to the weight of the rice husks, etc., or mixed gas of the atmospheric gas and the oxygen gas into the furnace, at the same time as burning, combustion gas generated at the time of combustion rice husks, etc. is discharged from the furnace.

Porous and easy water soluble amorphous silicon, method and apparatus to produce thereof can be obtained which does not contain tar, crystal, residual agrichemicals, and carcinogens by using only one burning treatment from a plant including silicon abundantly such as rice plant like as rice husks constituting rice, rice straw, rice bran, wheat, corn, grass and horsetails, tea, potato and the like. It is a method of manufacturing an amorphous silicon which is porous and easily soluble in water and which does not contain tar, crystal, residual agrichemicals and carcinogens, which comprising, burning the rice husks, etc. at the temperature range of between 500 C. or more and 700 C. or less, while stirring the rice husks, etc., by introducing at atmospheric gas having a mass of 6.7 times or more and 20 times or less of the weight of the rice husks, etc., oxygen gas having a weight of 1.4 times or more and 4 times or less with respect to the weight of the rice husks, etc., or mixed gas of the atmospheric gas and the oxygen gas into the furnace, at the same time as burning, combustion gas generated at the time of combustion rice husks, etc. is discharged from the furnace.

One embodiment of the present disclosure provides a rotary microwave apparatus including: a sintering body; a microwave-permeable cylindrical rotating tube located in the sintering body and configured to mix a powder raw material while rotating in a horizontal direction; and a microwave generator connected to the sintering body and configured to radiate microwaves to the cylindrical rotating tube, wherein the cylindrical rotating tube includes a stirring unit provided on an inner circumferential surface in a longitudinal direction, and configured to mix the powder raw material while being rotated by the cylindrical rotating tube.

One embodiment of the present disclosure provides a rotary microwave apparatus including: a sintering body; a microwave-permeable cylindrical rotating tube located in the sintering body and configured to mix a powder raw material while rotating in a horizontal direction; and a microwave generator connected to the sintering body and configured to radiate microwaves to the cylindrical rotating tube, wherein the cylindrical rotating tube includes a stirring unit provided on an inner circumferential surface in a longitudinal direction, and configured to mix the powder raw material while being rotated by the cylindrical rotating tube.

The present disclosure relates to a spiral baffle system that can adjust the pitch of spiral baffles installed to be spaced apart along the longitudinal direction in the housing during the process of mixing and heating a treatment object inputted and transferred into the housing of the heating furnace.

The present disclosure relates to a spiral baffle system that can adjust the pitch of spiral baffles installed to be spaced apart along the longitudinal direction in the housing during the process of mixing and heating a treatment object inputted and transferred into the housing of the heating furnace.

A multifunctional indirectly heated rotary kiln is provided to perform pyrolysis, calcining, roasting, thermal decomposition, and gasification for a variety of organic and inorganic feedstocks. The kiln operates over a temperature range from 100 degrees to 1,800 degrees Fahrenheit, can run in continuous or batch mode, and allows either co-current or counter-current operation. A feedstock is fed into a kiln and the thermally treated product is extracted. A plurality of paddles is provided at an interior surface of the kiln to allow maximum heat uptake by reactants through extended time in contact with the interior kiln walls. Feed screw and extraction screw assemblies are provided on portable carts to facilitate component swapping when a component becomes full or empty.