A method for manufacturing a processed asphalt suspension is provided. The method includes dry grinding shingle waste material to a particle size of less than 1 cm, forming ground recycled shingle material, introducing virgin asphalt into a heated slurry tank and mixing the ground recycled shingle material with the virgin asphalt in the heated slurry tank, forming a mixed asphalt slurry, introducing the mixed asphalt slurry into a wet grinding machine, and recovering a processed asphalt suspension comprising particles having a size no greater than about 200 microns. Roofing and paving products manufactured from the processed asphalt suspension are also provided.

Methods and systems for reducing an average particle size of blackwater solids is disclosed. A vessel is configured to receive a blackwater stream through a one-way inlet. The one-way inlet is configured to allow the blackwater stream into the vessel and prevent backflow. The blackwater stream contains blackwater solids and water. A device in a bottom portion of the vessel is configured to receive the blackwater and comminute the blackwater solids. A recirculating pump is configured to recirculate the blackwater stream under pressure through the device until the average particle size of the blackwater solids is reduced below a size threshold, resulting in a sized blackwater stream.

A system and method for processing objects having chemical contaminates includes a shredding module arranged to shred the objects to form a plurality of shredded fragments, each having the chemical contaminates, and a separating module arranged to separate the chemical contaminates from the shredded fragments.

A system and method of processing bone is disclosed. A tissue separator is utilized to separate tissue comprising at least one of muscle, periosteum and connective tissue from bone in a safe, sterile and efficient manner. In one aspect, the particle reducer can include an impeller positioned with respect to a cutting surface on a drum. At least one of the impeller and the drum is rotated by a power source such that harvested tissue frictionally engages the cutting surface. In another aspect, a source of pressurized fluid can be directed at tissue to separate bone from non-bone tissue.

Provided is a water absorbent resin that is useful to sanitary materials such as a disposable diaper, a sanitary napkin, and a blood absorbent for medical use each having a higher liquid permeability and a higher water absorbing speed. Further provided is a water absorbent resin powder that is useful to sanitary materials such as a disposable diaper, a sanitary napkin, and a blood absorbent for medical use each having increased in absorbency of a liquid and in heat retaining property. A gel grinding device to be used to produce a water absorbent resin, includes: a screw; a feed opening; an extrusion opening; a porous plate; and a barrel, the barrel including a return preventing member provided on an inner surface thereof, and the return preventing member satisfying at least one of specific parameters.

A tissue mincer includes a canister defining a chamber and an opening, a lid configured to cover the opening, and a tissue cutter. The tissue cutter includes a shaft and a blade assembly. The shaft includes a proximal portion that is configured to be rotated and a distal portion extending into the chamber when the tissue mincer is assembled. The distal portion is coupled to the blade assembly. The blade assembly includes a first disk, at least one blade spaced from the distal portion of the shaft by the first disk, and a disk retainer that encloses at least a portion of the blade. The blade can rotate relative to at least the first disk when the proximal portion of the shaft rotates. The blade includes at least one cutting edge that is configured to cut tissue as the blade rotates.

The invention discloses a pulverizing and packaging device for crushing glass, comprising a casing, wherein the casing is provided with an opening chamber with an opening upward, and the working chamber is provided with a collecting mechanism, and the collecting mechanism can collect common garbage. The working chamber is further provided with a pulverizing mechanism capable of pulverizing the crushed glass, and the lower side of the pulverizing mechanism is provided with a packing mechanism, and the working chamber is further provided There is a closing mechanism, The device is simple to operate, after the broken glass is thrown in, the glass is temporarily stored, and the cover is covered. After the glass is crushed into the garbage bag, the device can automatically pack the garbage bag, avoiding the contact between the person and the glass, and reducing the glass. The possibility of scratching.

Apparatuses for pulverizing a solid dosage form and for distributing, dissolving and/or suspending a solid dosage form in an extraction fluid, as well as related methods and processes for producing extracted solid dosage forms using such methods are disclosed.

Static plant for preparing feed mixes for ruminant livestock, having a conveyor unit for conveying the feed mix ingredients, chain and/or screw feeders, feeders with weight sensors and supplementary conveyor belt, silos of solid ingredients, and silos of liquid ingredients, independently supplying via the conveyor unit, with dual flow, two or more high-capacity mixers.

A method for forming a powder from an evaporite mineral feedstock, the feedstock comprising at least 50% by mass of particles having a diameter exceeding 10mm, the method comprising introducing the feedstock to a high pressure grinding roll press configured so as to generate an output 40% or more of which by mass has a diameter less than 400 m.