| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 588317000 | By hydrolysis (EPO/JPO) | 12 |
| 20100137672 | DEGRADATION OF PHOSPHATE ESTERS BY MOLYBDOCENE AND TUNGSTOCENE DERIVATIVES - Degradation of phosphate esters, particularly neurotoxins and pesticides, is performed using metallocene derivatives, more particularly molybdocene and tungstocene derivatives. A metallocene derivative is hydrolyzed and then reacted with a phosphate ester. The preferred metallocene derivatives are molybdocene and tungstocene derivatives. The phosphate esters can include, but are not limited to, VX, VE, VG, VM, GB, GD, GA, GF, parathion, paraoxon, triazophos, oxydemeton-methyl, chlorpyrifos, fenitrothion and pirimiphos-methyl, representing both chemical warfare agents as well as pesticides and insecticides. | 06-03-2010 |
| 20110028774 | Hypernucleophilic Catalysts For Detoxification Of Chemical Threat Agents - A polymeric hypernucleophilic catalyst is effective for hydrolytic destruction of chemical threat agents under mild conditions, e.g., near neutral pH and at ambient temperatures. The polymeric hypernucleophilic catalysts are particularly useful to affect rapid destruction of chemical threat agents on sensitive surfaces such as paint, metal, rubber, plastic, fabric, wood, and skin. Catalyst formulations such as creams, lotions, sprays, foams, powders, or gels, and articles such as filters, wipes, membranes, yarns, fabrics, and articles of clothing, may be used for detoxification of or prophylactic protection against chemical threat agents. | 02-03-2011 |
| 20110034751 | HYDROLYSIS SYSTEM AND PROCESS FOR DEVICES CONTAINING ENERGETIC MATERIAL - A system for chemically disposing energetic material enclosed in assembled devices includes a porous basket. The porous basket forms an enclosed chamber for receiving the assembled devices. Further, the basket is supported by a rotatable basket arm that is, in turn, connected to a lifting arm. In addition to these structures, the system includes a tank that holds a hydrolysis solution. The tank is positioned to allow the lifting arm to submerge the basket into the solution. After submersion, the basket arm rotates the basket in the solution to flow the hydrolysis solution into contact with the assembled devices therein. As a result, the assembled devices react with the solution so that the solution penetrates the assembled devices, allowing the solution to contact and react with the energetic material to render the energetic material non-energetic. | 02-10-2011 |
| 20110040138 | SYSTEM AND METHOD FOR TREATING INFECTIOUS WASTE MATTER - A system and method is provided for producing a safely disposable end product from waste matter containing undesirable materials, such as infectious, biohazardous, hazardous, or radioactive elements. The method comprises the steps of providing a highly alkaline solvent, immersing the waste matter containing the undesirable materials within the highly alkaline solvent, and heating the solvent. The waste matter containing the undesirable materials is allowed to remain within the solvent until digested, thereby forming a solution void of any infectious or biohazardous elements and/or containing a decreased concentration of radioisotope. | 02-17-2011 |
| 20110124945 | DEACTIVATING AN EXPLOSIVE COMPOSITION USING A CHEMICAL - A method of deactivating an explosive composition provided in an explosive cartridge, which method comprises exposing the explosive composition to a deactivating agent that renders the explosive composition insensitive to detonation, wherein the deactivating agent is a chemical. | 05-26-2011 |
| 20110130612 | DISPOSAL OF HUMAN REMAINS - An alkaline hydrolysis unit, and method of using the same to dispose of a cadaver, the alkaline hydrolysis unit comprising: a chamber for receiving a cadaver to be chemically decomposed, the chamber including a head-receiving part intended to receive the head of a cadaver; a recirculation pump fluidly connected to the chamber of the alkaline hydrolysis unit and adapted to recirculate fluids within the chamber; a head retaining means locatable in the chamber for retaining the head of the cadaver in the head-receiving part of the chamber; and at least one recirculation jet fluidly connected to the recirculation pump and positioned to aim fluid from the recirculation pump at the head-receiving part of the chamber. | 06-02-2011 |
| 20120136193 | APPARATUS AND METHOD FOR HYDROLYZING BIOLOGICAL MATERIAL - Apparatus and method for hydrolyzing biological material for safe disposal thereof without the necessity of incineration or use of disinfectants are described. An alkaline solution having a concentration and an amount effective for hydrolyzing the biological material is brought into contact therewith by means of rotating paddles which both pound the biological material into small pieces and thoroughly mix the alkaline solution with the material under pressure and at elevated temperature. Following the hydrolysis of the biological material, a chosen portion of the water is removed from the alkaline solution and from the liquefied biological material, such that the resulting product solidifies when cooled. The present safe disposal of the biological material does not require incineration thereof, the addition of disinfectants thereto, or the discharge of liquid effluent containing processed biological material into the sewage system. | 05-31-2012 |
| 20120245402 | CADAVER DISPOSAL SYSTEMS AND TECHNIQUES - Apparatus and a method for decomposing a body of a deceased person, as an alternative to traditional cremation. The apparatus includes a primary vessel where the body is treated with a highly basic solvent to render the body into skeletal remains and liquid remains. A clamp is applied to the skull during processing for solvent access to the skull. A secondary vessel is used to receive the liquid remains from the primary vessel and further treat them. During this further treatment, the skeletal remains left in the primary vessel after the liquefied portion has been transferred to the secondary vessel, can be treated to be decolorized and deodorized, and then returned to the decedent's next of kin as ash-like material. | 09-27-2012 |
| 20130123562 | System and Method for Disposal of Mutagen Waste - An assembly and method for processing human waste includes providing a supporting base having an opening within which a waste reservoir is affixed. The assembly may be installed on or below a rim of a toilet bowl. Solidification and pathogen killing materials are provided. The materials are deposited in the reservoir either prior to or upon accumulation of waste in the reservoir. The reservoir with the solidified waste is then sealed and transported to a collection facility. | 05-16-2013 |
| 20140309475 | Waste to Energy By Way of Hydrothermal Decomposition and Resource Recycling - A method and an apparatus for disposing wastes comprising the steps of conducting a hydrothermal decomposition reaction of the wastes, separating the products into a solid fuel and waste water, combusting the solid fuel, scrubbing the combustion gas, generating steam using the heat generated by the combustion, and purifying the waste water, exhibit a high energy-efficiency, while exhibiting a high removal rate of the pollutants generated during the combustion. | 10-16-2014 |
| 20140350321 | PROCESS AND APPARATUS FOR SAFE DISPOSAL OF USED IONIC LIQUID CATALYST - We provide a process and apparatus for preparing a used ionic liquid catalyst for safe disposal, comprising hydrolyzing the used ionic liquid catalyst comprising an anhydrous metal halide with a basic solution at a temperature from −20° C. to 90° C. to produce a hydrolyzed product, evolve a hydrogen halide gas, and dissolve the hydrogen halide gas into the basic solution. | 11-27-2014 |
| 20160175827 | METAL ORGANIC FRAMEWORKS FOR THE CATALYTIC DETOXIFICATION OF CHEMICAL WARFARE NERVE AGENTS | 06-23-2016 |
