A method of processing organics having a relocatable trailer transporting a hopper, an infeed conveyor, an organics separation unit, an organics conveyor, an inorganics waste conveyor, and a control panel between processing locations of organic material. The control panel regulates the operation of the infeed conveyor, the organics separation unit, the organics conveyor and the inorganics waste conveyor. Following completion of processing the components carried on the trailer may be cleaned and the trailer supporting the processing components may be moved to another processing location.

A media declassification device receives a media component such as an SSD or magnetic disk drive, and eradicates any remnants of sensitive data stored thereon by physical agitation and dismantling the media component. A cutting wheel or die rotates in close tolerance to an interior surface of a cutting chamber, and cutters or protrusions on the cutting wheel engage the media component against a leading edge of the cutting chamber for shearing and/or cutting fragments of the media component into the cutting chamber. A screen at an opposed side of the cutting chamber has apertures that limit a maximum size of particles passing out of the cutting chamber.

A media declassification device receives a media component such as an SSD or magnetic disk drive, and eradicates any remnants of sensitive data stored thereon by physical agitation and dismantling the media component. A cutting wheel or die rotates in close tolerance to an interior surface of a cutting chamber, and cutters or protrusions on the cutting wheel engage the media component against a leading edge of the cutting chamber for shearing and/or cutting fragments of the media component into the cutting chamber. A screen at an opposed side of the cutting chamber has apertures that limit a maximum size of particles passing out of the cutting chamber.

An erecting angle regulating part 50 is provided to regulate an erecting direction upper limit angle θl of a crushing hammer 13 at a predetermined angle (e.g., approximately 50°) during driving of a rotary drive shaft 17.

An erecting angle regulating part 50 is provided to regulate an erecting direction upper limit angle θl of a crushing hammer 13 at a predetermined angle (e.g., approximately 50°) during driving of a rotary drive shaft 17.

A grinding, separating, and discharging of hard to grind parts of a material mixture of components with different grindability from a spiral jet mill, wherein the hard to grind parts are discharged from the process chamber via at least one additional discharge nozzle. A spiral jet mill for comminuting and classifying grinding material, including at least one process chamber, wherein this at least one process chamber is enclosed by a housing, at least one grinding material feeding, which leads into the at least one process chamber, at least two grinding nozzles, a fine material outlet, which is radially enclosed by a separator wheel, wherein at least one discharge nozzle is assigned to the process chamber.

A grinding, separating, and discharging of hard to grind parts of a material mixture of components with different grindability from a spiral jet mill, wherein the hard to grind parts are discharged from the process chamber via at least one additional discharge nozzle. A spiral jet mill for comminuting and classifying grinding material, including at least one process chamber, wherein this at least one process chamber is enclosed by a housing, at least one grinding material feeding, which leads into the at least one process chamber, at least two grinding nozzles, a fine material outlet, which is radially enclosed by a separator wheel, wherein at least one discharge nozzle is assigned to the process chamber.

A system for preparing smokeable material comprising a wall providing an upper chamber and a lower chamber with a grate between the chambers. Feed smokeable material in the upper chamber has its size reduced with a size reducer a sufficient amount that it can pass through the grade into the lower chamber as fill smokeable material. A support below the lower chamber is provided for supporting a wrapper. There is an opening in the lower chamber for fill smokeable material to pass into the wrapper. An axially moveable tamper can tamp the fill smokeable material in the wrapper. Biasing means bias the wall and tamper into the upper position. A mechanism is provided for moving the tamper from its upper position to its lower position against the biasing means for tamping the smokeable material in the wrapper.

A system for preparing smokeable material comprising a wall providing an upper chamber and a lower chamber with a grate between the chambers. Feed smokeable material in the upper chamber has its size reduced with a size reducer a sufficient amount that it can pass through the grade into the lower chamber as fill smokeable material. A support below the lower chamber is provided for supporting a wrapper. There is an opening in the lower chamber for fill smokeable material to pass into the wrapper. An axially moveable tamper can tamp the fill smokeable material in the wrapper. Biasing means bias the wall and tamper into the upper position. A mechanism is provided for moving the tamper from its upper position to its lower position against the biasing means for tamping the smokeable material in the wrapper.

A method is provided for destructively processing an airbag inflator having an outer housing, a propellant housed within the outer housing, and a membrane disposed between the propellant and an inner surface of the outer housing. The method includes rupturing the membrane, exposing the propellant to a liquid, and permitting the propellant to mix with the liquid to form a liquid-propellant mixture. The method may further include removing at least a portion of the liquid from the liquid-propellant mixture to produce an at least partially solidified material that includes the propellant.