A waste disposal system (30) with a waste receiver (32) for receiving pharmaceutical waste material. A locking assembly (34) is secured to a fixed surface and actuated from a locked configuration to an unlocked configuration. A lock cylinder of the locking assembly may extend forward of a front wall (44) of a receiver body (36) of the waste receiver to engage a locking feature of a cover (82) in the locked configuration. A cover retention feature (124) may prevent axial decoupling of the cover from the receiver body. The receiver body may be formed from two shells (62,64). A reaction agent (150) is positioned within the container volume and spaced apart from a bottom wall of the receiver body. The reaction agent may be positioned within the container volume between the lock passageway (94) and/or a solid receiver volume, and opposing sidewalls of the receiver body. A support may maintain the position of the reaction agent within the container volume.

A waste disposal system (30) with a waste receiver (32) for receiving pharmaceutical waste material. A locking assembly (34) is secured to a fixed surface and actuated from a locked configuration to an unlocked configuration. A lock cylinder of the locking assembly may extend forward of a front wall (44) of a receiver body (36) of the waste receiver to engage a locking feature of a cover (82) in the locked configuration. A cover retention feature (124) may prevent axial decoupling of the cover from the receiver body. The receiver body may be formed from two shells (62,64). A reaction agent (150) is positioned within the container volume and spaced apart from a bottom wall of the receiver body. The reaction agent may be positioned within the container volume between the lock passageway (94) and/or a solid receiver volume, and opposing sidewalls of the receiver body. A support may maintain the position of the reaction agent within the container volume.

A biotechnology toilet provided with a decomposing process device and a non-flush toilet bowl attached to a toilet bowl attachment plate that covers the toilet bowl opening of the decomposing process device, in which: the conveying blades are disposed at both ends of the rotation shaft; a circumferential stirring member that stirs an organic waste and a sawdust in a circumferential direction is fastened to each of the rotation shaft between the conveying blade and the internal side face of the process tank; two drive mechanisms are provided on an outer side face of the process tank, the two rotation shafts are driven and rotated by the respective drive mechanisms connected one by one to the respective rotation shafts; the two drive mechanisms are controlled by a single control device of the decomposing process device via different control circuits.

The present invention comprises a method of making and using a remediating composition for remediating contamination resulting from improper use or handling, or natural causes that would otherwise be damaging to, for example, the environment. Sources of contaminants include petroleum products, chemical and nuclear waste spills, biotoxin blooms, or combinations thereof. The method comprises allowing a heat-dried, particulate remediating composition to contact an amount of contaminated material for a time adequate to reduce the level of the contaminant in the contaminated material. Thereafter, testing of the previously contaminated material shows measurably lower amounts (often below measurable levels) of the contaminant, resulting in decontaminated material. Further, testing the newly-contaminated remediating composition shows far lower levels of the contaminants than would be expected when taking into account the original amounts of contaminants and remediating composition, and the amount remaining in the now-decontaminated material. The remediating composition remediates (reverses or stops) environmental damage.

A method of processing waste material including a super absorbent polymer includes: shredding the waste material; applying a salt to the shredded waste material to deactivate the super absorbent polymer; dewatering the waste material following deactivation of the super absorbent polymer; applying a liquid biocide to the shredded waste material. The preferred salt is aluminium sulphate. The step of applying a liquid biocide to the shredded waste is provided after the step of dewatering the waste material in the preferred form.

A biotechnology toilet provided with a decomposing process device and a non-flush toilet bowl attached to a toilet bowl attachment plate that covers the toilet bowl opening of the decomposing process device, in which: the conveying blades are disposed at both ends of the rotation shaft; a circumferential stirring member that stirs an organic waste and a sawdust in a circumferential direction is fastened to each of the rotation shaft between the conveying blade and the internal side face of the process tank; two drive mechanisms are provided on an outer side face of the process tank, the two rotation shafts are driven and rotated by the respective drive mechanisms connected one by one to the respective rotation shafts; the two drive mechanisms are controlled by a single control device of the decomposing process device via different control circuits.

The present disclosure generally relates to systems and methods for fractionating crude biowaste (450) by at least one size separation step (30) and at least one of density separation (150), X-ray separation (160) and optical sorting (170) to form a cleaned biowaste (47) stream enriched in cellulosic material, a waste stream comprising inorganic compounds (151), and a plastics stream (175).

Drug disposal devices and systems for reducing the amount of drug contained in a transdermal drug delivery patch are disclosed. The drug disposal devices contain an adsorbing substance, such as activated carbon, and are capable of adsorbing residual drug from the transdermal patch and preventing back-extraction of the drug. Also disclosed are methods of manufacturing the drug disposal devices and methods of using the drug disposal devices for reducing the amount of drug contained within a transdermal drug delivery patch.

A waste disposal system with a waste receiver for receiving pharmaceutical waste material. A locking assembly is secured to a fixed surface and actuated from a locked configuration to an unlocked configuration. A lock cylinder of the locking assembly may extend forward of a front wall of a receiver body of the waste receiver to engage a locking feature of the cover in the locked configuration. A cover retention feature may prevent axial decoupling of the cover from the receiver body. The receiver body may be formed from two shells. A reaction agent is positioned within the container volume and spaced apart from a bottom wall of the receiver body. The reaction agent may be positioned within the container volume between the lock passageway and/or a solid receiver volume, and opposing sidewalls of the receiver body. A support may maintain the position of the reaction agent within the container volume.

A waste disposal system with a waste receiver for receiving pharmaceutical waste material. A locking assembly is secured to a fixed surface and actuated from a locked configuration to an unlocked configuration. A lock cylinder of the locking assembly may extend forward of a front wall of a receiver body of the waste receiver to engage a locking feature of the cover in the locked configuration. A cover retention feature may prevent axial decoupling of the cover from the receiver body. The receiver body may be formed from two shells. A reaction agent is positioned within the container volume and spaced apart from a bottom wall of the receiver body. The reaction agent may be positioned within the container volume between the lock passageway and/or a solid receiver volume, and opposing sidewalls of the receiver body. A support may maintain the position of the reaction agent within the container volume.