An adsorbent and photocatalytic decontamination gel consisting of a colloidal solution comprising, preferably consisting of: 8% to 30% by weight, preferably 10% to 30% by weight, more preferably 15% to 20% by weight, better still 15% to 20% by weight, the value 15% being excluded, even better still 16% to 20% by weight, for example 20% by weight of TiO.sub.2, optionally doped, relative to the weight of the gel; optionally 0.01% to 10% by weight, preferably 0.1% to 5% by weight, relative to the weight of the gel, of at least one dye and/or of at least one pigment; optionally 0.1% to 2% by weight, relative to the weight of the gel, of at least one surfactant; optionally 0.05% to 5% by weight, preferably 0.05% to 2% by weight, relative to the weight of the gel, of at least one superabsorbent polymer; and the balance of solvent.

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.

Hazardous article handing and logistics information system for geological sciences and other purposes, comprising a liquid hazardous article logistics container (A), a Beidou satellite navigation system (B) and a remote control terminal (C). The liquid hazardous article logistics container consists of an outer protective sleeve (1), a liquid storage main body part (2), a main body outer cover part (3), a stabilizer storage mechanism (4), a main body base part (5), a control display part (6), a main body inner cover mechanism (7) and a neutralizer storage and releasing mechanism (8). Various liquid hazardous articles can be kept in a good storage environment, the whole logistics process is tracked and monitored in real time, and a liquid hazardous article logistics container can be controlled to release a neutralizer in an emergency.

Hazardous article handing and logistics information system for geological sciences and other purposes, comprising a liquid hazardous article logistics container (A), a Beidou satellite navigation system (B) and a remote control terminal (C). The liquid hazardous article logistics container consists of an outer protective sleeve (1), a liquid storage main body part (2), a main body outer cover part (3), a stabilizer storage mechanism (4), a main body base part (5), a control display part (6), a main body inner cover mechanism (7) and a neutralizer storage and releasing mechanism (8). Various liquid hazardous articles can be kept in a good storage environment, the whole logistics process is tracked and monitored in real time, and a liquid hazardous article logistics container can be controlled to release a neutralizer in an emergency.

A method of employing an assembly containing a shelf-stable formulation for decontaminating skin exposed to nerve agents in a package forming a first chamber and a second chamber separated by a barrier with water located in the first chamber and a dry sponge and diacetylmonoxime or derivatives thereof, located in the second chamber, wherein the diacetylmonoxime is distributed within the sponge, the method comprising opening the barrier between the first and second chambers, shaking the package to move the water into sponge until the sponge is wet, tearing open the package, removing the sponge and wiping the sponge on skin. Preferably polyethylene glycol is distributed in the sponge and wiping the sponge on the skin leaves a mixture of diacetylmonoxime and polyethylene glycol on the skin.

A method of employing an assembly containing a shelf-stable formulation for decontaminating skin exposed to nerve agents in a package forming a first chamber and a second chamber separated by a barrier with water located in the first chamber and a dry sponge and diacetylmonoxime or derivatives thereof, located in the second chamber, wherein the diacetylmonoxime is distributed within the sponge, the method comprising opening the barrier between the first and second chambers, shaking the package to move the water into sponge until the sponge is wet, tearing open the package, removing the sponge and wiping the sponge on skin. Preferably polyethylene glycol is distributed in the sponge and wiping the sponge on the skin leaves a mixture of diacetylmonoxime and polyethylene glycol on the skin.

A waste disposal system for receiving pharmaceutical waste material including at least one of a solid phase pharmaceutical waste material and a liquid phase pharmaceutical waste material is provided. The waste receiver includes a receiver body defining an opening. The waster receiver further includes an inner surface defining a container volume in fluid communication with the opening, and an outer surface opposite the inner surface. The outer surface defines a lock passageway separate from the opening. The system further includes a bracket adapted to be secured to a fixed surface and a locking assembly coupled to the bracket and adapted to releasably secure the waste receiver to the fixed surface. The locking assembly includes a lock housing sized to be removably positioned at least partially within the lock passageway.

A waste disposal system for receiving pharmaceutical waste material including at least one of a solid phase pharmaceutical waste material and a liquid phase pharmaceutical waste material is provided. The waste receiver includes a receiver body defining an opening. The waster receiver further includes an inner surface defining a container volume in fluid communication with the opening, and an outer surface opposite the inner surface. The outer surface defines a lock passageway separate from the opening. The system further includes a bracket adapted to be secured to a fixed surface and a locking assembly coupled to the bracket and adapted to releasably secure the waste receiver to the fixed surface. The locking assembly includes a lock housing sized to be removably positioned at least partially within the lock passageway.

A method and system for in-basin neutralization is provided. More specifically, neutralizer is added to a basin in excess of an amount of neutralizer suitable to neutralize a treatment solution in a reservoir in fluid communication with the basin. A first portion of the treatment solution is added to the basin and is contacted with the first portion of the treatment solution to form a secondary solution. The first portion of the treatment solution is neutralized with the neutralizer. A first portion of the secondary solution is removed from the basin. A second portion of the treatment solution is added to the basin. The second portion of the treatment solution is contacted with a second portion of the secondary solution remaining the basin to form a tertiary solution. The second portion of the treatment solution is neutralized with neutralizer in the second portion of the secondary solution.