Abstract: A composition for binding environmentally-harmful substances in solid or semi-liquid state contains caustic magnesium oxide, non-ferrous metal salts as a hardener, non-ferrous metal oxides catalyzing formation of radial crystalline structures, and optionally water and other additives. A method of stabilization of environmentally-harmful substances binds these substances in the solid state or semi-liquid state in the composition containing caustic magnesium oxide, wherein the environmentally-harmful substances are supplemented by the composition containing caustic magnesium oxide, non-ferrous metal salts as hardener, non-ferrous metal oxides catalyzing formation of radial crystalline structures, and optionally water and other additives. A form of paste is obtained, followed by leaving the mixture for solidification and stabilization of the product.
Abstract: This invention provides a process for the detoxification of chemical agents including chemical warfare agents such as sulfur mustards, nitrogen mustards, nerve agents of G and V type, lewisite and adamsite by reacting the chemical agents with hydroxyl radicals at a pH greater than 7.0 to detoxify the agents and to render them suitable for disposal. The process can be used on-site and can be easily scaled to fairly large sizes.
Abstract: A method for restraining a chemical discharge comprising (a) deploying a binding agent into a receptacle containing a hazardous material in a liquid state upon the occurrence of at least one predetermined event that increases the risk of accidentally discharging or leaking the hazardous material from the receptacle; and (b) contacting the hazardous material with the binding agent to form a composition comprising at least a portion of the hazardous material and the binding agent and having at least one property selected from a solid or semisolid state, a viscosity greater than the viscosity of the hazardous material at ambient conditions, a vapor pressure lower than the vapor pressure of the hazardous material at ambient conditions, and a surface tension greater that the surface tension of the hazardous material.
Type:
Grant
Filed:
June 4, 2008
Date of Patent:
November 29, 2011
Assignee:
Honeywell International Inc.
Inventors:
Rajiv R. Singh, Ian Shankland, Colleen D. Szuch
Abstract: Methods of reducing smoke levels in smoke-affected areas, reducing the level of toxic compounds produced by fires, fire suppression, and increasing flame retardancy. In particular, methods according to the present invention comprise dispersing nanocrystalline particles in the areas affected by smoke for sorption of smoke particulates and toxic compounds produced from a fire. The nanocrystalline particles are also effective for use in methods of fire suppression and flame retardancy.
Type:
Grant
Filed:
October 18, 2005
Date of Patent:
October 2, 2007
Assignee:
NanoScale Corporation
Inventors:
Ravichandra S. Mulukutla, Paul S. Malchesky, Ronaldo Maghirang, John S. Klabunde, Kenneth J. Klabunde, Olga Koper
Abstract: A method of decreasing nitrate nitrogen and volatile organic compounds in soil and groundwater by burying a fatty acid having 10 or more carbon atoms, an alcohol having 12 or more carbon atoms, an ester of a linear saturated fatty acid having 14 or more carbon atoms and a monohydric alcohol, an ester of a linear saturated fatty acid having 14 or more carbon atoms and a polyhydric alcohol, an ester of a fatty acid having 16 or more carbon atoms and glycerine, and the like in soil containing nitrate nitrogen and volatile organic compounds or by contacting groundwater with same. This method allows for on site treatment, high biological denitrification and a decrease in volatile organic compounds secondary pollution by the release of organic matter and nitrogen into the environment.
Type:
Grant
Filed:
April 6, 2005
Date of Patent:
April 18, 2006
Assignee:
Matsushita Electric Industrial Co., Ltd.
Inventors:
{umlaut over (K)}oichiro Murasawa, Hitoshi Komoda, Masaru Makino