This invention pertains to the development of a drone that can pour a variety of chemical agents such as oxidizers, silica gelling agents, enzymes, and neutralizers onto areas contaminated with chemical and biological weapons of mass destruction. These decontaminants are known to be effective at destroying both chemical and biological weapons of mass destruction simultaneously. The use of a drone to destroy the chemical and biological weapons of mass destruction is highly beneficial since it allows the exposed toxic areas to be remotely decontaminated without the presence of humans. Some of these methods of decontamination are non-toxic and environmentally friendly so it can also be used to pour or spray these agents on humans that are exposed to chemical and biological weapons of mass destruction to safely destroy these agents. The drone will be designed as a transformable robot which can lift the container containing the decontaminant in the ground mode and fly over to the contaminated site which is either outdoors or indoors using its flight mode. The transformable robot would pour the different decontaminant solutions on the contaminated areas or contaminated humans to simultaneously destroy chemical and biological warfare agents. They can also be used to decontaminate chemical or biological weapons of mass destruction found separately at sites.

This invention pertains to the development of a drone that can pour a variety of chemical agents such as oxidizers, silica gelling agents, enzymes, and neutralizers onto areas contaminated with chemical and biological weapons of mass destruction. These decontaminants are known to be effective at destroying both chemical and biological weapons of mass destruction simultaneously. The use of a drone to destroy the chemical and biological weapons of mass destruction is highly beneficial since it allows the exposed toxic areas to be remotely decontaminated without the presence of humans. Some of these methods of decontamination are non-toxic and environmentally friendly so it can also be used to pour or spray these agents on humans that are exposed to chemical and biological weapons of mass destruction to safely destroy these agents. The drone will be designed as a transformable robot which can lift the container containing the decontaminant in the ground mode and fly over to the contaminated site which is either outdoors or indoors using its flight mode. The transformable robot would pour the different decontaminant solutions on the contaminated areas or contaminated humans to simultaneously destroy chemical and biological warfare agents. They can also be used to decontaminate chemical or biological weapons of mass destruction found separately at sites.

An accelerated process for the complete destruction of a matrix material, such as a matrix material including cement and/or asbestos-containing materials (ACMs), is disclosed. The process comprises forming a slurry or suspension by combining the matrix material with an acid solution (including, for instance, acid waste, which can also be neutralized by the process), causing acid-based chemical reactions in the slurry that cause the destruction of the matrix material. Simultaneously to the chemical reactions, the slurry or suspension is subjected to cavitation, which synergistically cooperates with the chemical reactions to accelerate matrix material destruction. The matrix material can be ground and polarized prior to being submerged in the acid solution to form the slurry. The slurry can be subjected to hydrothermal treatment. Inert secondary raw materials (SRMs) that are non-hazardous to the environment and human health can be obtained from the process.

The present invention is directed towards a composition for decontaminating surfaces contaminated with toxic chemicals/substances, comprising at least one type of metal oxyhydroxide such as zirconium hydroxide, Zr(OH).sub.4, optionally with added water for hydration of the solid, mixed into a carrier liquid used for application to a contaminated surface.

The present invention is directed towards a composition for decontaminating surfaces contaminated with toxic chemicals/substances, comprising at least one type of metal oxyhydroxide such as zirconium hydroxide, Zr(OH).sub.4, optionally with added water for hydration of the solid, mixed into a carrier liquid used for application to a contaminated surface.

A system and method for the validation and deactivation of liquid narcotic medications. The system includes a two (2) compartment assembly having a first compartment, wherein the liquid narcotic medications are tested to determine (or validate) the composition of the liquid narcotic medication and a second compartment operatively connected to the first compartment, wherein the liquid narcotic medications can be deactivated, if necessary.

A system and method for the validation and deactivation of liquid narcotic medications. The system includes a two (2) compartment assembly having a first compartment, wherein the liquid narcotic medications are tested to determine (or validate) the composition of the liquid narcotic medication and a second compartment operatively connected to the first compartment, wherein the liquid narcotic medications can be deactivated, if necessary.

A method for efficiently decontaminating surfaces is provided comprising applying an indicator to a surface wherein the indicator provides an observable or machine readable response when a contamination is present on the surface, wherein the response is located relative to a location of the contamination; and decontaminating the location of the contamination, and optionally rechecking the location of the initial contamination post decontamination to ensure that the surface is free of contamination.

The invention is directed to systems and methods for the recycling of lithium ion batteries or the like. The system methods include comminution and destruction of used batteries, controlling the explosive reaction of the battery components during processing, and processing the materials into a suitable form for sampling and recycling.

The invention is directed to systems and methods for the recycling of lithium ion batteries or the like. The system methods include comminution and destruction of used batteries, controlling the explosive reaction of the battery components during processing, and processing the materials into a suitable form for sampling and recycling.