A system for neutralizing prescription drugs, narcotics and other harmful substances, including a staging area for an initial collection and sorting of prescription drugs, narcotics and other harmful substances to be neutralized, a containment chamber assembly operatively connected to the staging area for granulating the prescription drugs, narcotics and other harmful substances, a waste grinder/vacuum assembly operatively connected to the containment chamber for destroying any packaging that contained the prescription drugs, narcotics and other harmful substances, and a neutralizing assembly operatively connected to the containment chamber for neutralizing the granulated prescription drugs, narcotics and other harmful substances, with a neutralizing agent.

A homogenized and integrated device with a coaxial line and double-high pressure cylinder, includes a long oil cylinder, two main connecting sleeves, two high pressure cylindrical homogenized main bodies, two auxiliary connecting sleeves and two short oil cylinders. The two main connecting sleeves, two high pressure cylindrical homogenized main bodies, two auxiliary connecting sleeves and two short oil cylinders are respectively and symmetrically arranged at two ends of the long oil cylinder and are assembled with the long oil cylinder along a same axial line. Each high pressure cylindrical homogenized main body is integrally connected with the long oil cylinder by virtue of one of the main connecting sleeves. Each high pressure cylindrical homogenized main body is integrally connected with the corresponding short oil cylinder by virtue of one of the auxiliary connecting sleeves.

A homogenized and integrated device with a coaxial line and double-high pressure cylinder, includes a long oil cylinder, two main connecting sleeves, two high pressure cylindrical homogenized main bodies, two auxiliary connecting sleeves and two short oil cylinders. The two main connecting sleeves, two high pressure cylindrical homogenized main bodies, two auxiliary connecting sleeves and two short oil cylinders are respectively and symmetrically arranged at two ends of the long oil cylinder and are assembled with the long oil cylinder along a same axial line. Each high pressure cylindrical homogenized main body is integrally connected with the long oil cylinder by virtue of one of the main connecting sleeves. Each high pressure cylindrical homogenized main body is integrally connected with the corresponding short oil cylinder by virtue of one of the auxiliary connecting sleeves.

Various wear resistance designs may be applied to a reactor configured to facilitate chemical reactions, and/or comminution using shockwaves created in a supersonic gaseous vortex. The reactor may include a rigid chamber having a substantially circular cross-section. A first gas inlet may be configured to introduce a high-velocity gas stream into the chamber. A first replaceable wear part may be disposed in the chamber to absorb wear impact caused by the gas stream. In some implementations, the first replaceable wear part may be a cylindrical rod continuously fed into the chamber. In some implementations, the first replaceable wear part may be coated with, or composed of, a catalytic material, and/or may be electrically isolated from the rest of the reactor. In some implementations, a second gas inlet may be disposed to steer the gas stream to a desired area within the chamber to even out the wear impact.

Provided herein are devices, systems, and methods for disposal of needles. In particular, provided herein are devices, systems, and methods for safe and efficient disposal of medical and research needles.

Provided herein are devices, systems, and methods for disposal of needles. In particular, provided herein are devices, systems, and methods for safe and efficient disposal of medical and research needles.

The invention regards to a device for comminuting ore and/or slag, which comprises an ore feed unit for feeding ore to be comminuted to a first comminuting means. The first comminuting means being composed of at least two comminuting elements that can be moved relative to each other, which elements form at least one comminuting space for the ore to be comminuted with each other such that, by a relative movement in the form of a rotation around the rotational axis of at least one of the two comminuting elements. The ore to be comminuted is pulverised in that one or more accelerating elements, in particular protrusions, are provided on at least one of the comminuting elements. The accelerating elements being arranged in particular on the end face of one of the two comminuting elements and accelerating and comminuting the ore to be comminuted by the rotation of one of the two comminuting elements. Between the two comminuting elements and/or in at least one of the two comminuting elements, an intermediate space is provided through which during the rotation the pulverised ore can be conveyed away outwards from the centre of the rotation and from the two comminuting elements. An outlet unit for outletting ore comminuted by the first comminuting means is provided which is connected to the intermediate space. The outlet unit is connected with a separating means, by means of which the comminuted ore is separated into two portions. A first portion of the comminuted ore comprises a particle size, which is essentially larger as a predefined particle size of a second portion of comminuted ore. The first portion of the comminuted ore is guided to the first comminuting means or to a second comminuting means and the second portion of the comminuted ore is guided to a floation means.

Apparatus for reducing a particle size of a precursor powder material by fluid energy impact according to one embodiment of the invention may include a housing defining an interior milling cavity therein having a peripheral wall. A powder feed inlet operatively associated with the housing introduces the precursor powder material into the interior milling cavity. A feed gas inlet operatively associated with the powder feed inlet introduces a feed gas into the interior milling cavity. A product discharge outlet operatively associated with the housing removes a milled powder product from the interior milling cavity. An oil injection nozzle assembly operatively associated with the product discharge outlet injects oil into a particle-laden product stream from the product discharge outlet.

A method for treating process material using a plurality of autoclaves, wherein each of the plurality of autoclaves cycles through the following steps: introducing a steam from one or more of the plurality of autoclaves to the interior of the vessel; increasing the temperature within the vessel by adding heat to the interior of the vessel using an indirect heat source; reducing the temperature and pressure within the vessel by venting a portion of the steam within the interior of the vessel to another one of the plurality vessels; increasing the temperature within the vessel by continuing to add heat to the interior of the vessel using the indirect heat source; reducing a moisture content of the process material in the interior of vessel to a predetermined value by conveying the steam to another one of the plurality of vessels.

A pill crushing device pulverizes pills and then transfers the pulverized pills out of the device with minimal transfer loss and spillage. The device includes a pill chamber and may include a storage portion. The pill chamber forms a threaded connection with the storage portion that enables detachment. The storage portion stores the pill and operates the crushing mechanism. The pill is pulverized in the pill chamber. The pill chamber is disposed beneath the storage portion. A first spoon retains the pill and carries the pulverized pill out of the chamber along a longitudinal opening of the pill chamber. An optional second spoon detachably attaches to the first spoon to carry supplemental compositions to the pulverized pill.