Patent application number | Description | Published |
20080210635 | Process and system for removal of contaminants from industrial streams - A method and system for removing from an aqueous system which is contaminated therewith: (1) mercury present as colloids, ions and/or organically bound compounds, and (2) hydrocarbons solubilized, dispersed, and/or emulsified in the said system. Pursuant to the invention the aqueous system to be treated (such as “produced water”) is passed successively through three filtration stages. The first filtration stage is provided with absorption media which effects reduction/removal of dispersed organically bound mercury species and of the dispersed and partially dissolved hydrocarbon phases, as well as of some colloidal mercury and other dissolved metallic species. The second filtration stage utilizes a salt modified reticulated granular filtration media for reduction/removal of slightly dissolved hydrocarbon phases, mercury in colloidal and ionic form and other dissolved metals. The third filtration stage is a polishing stage, which serves to further reduce by electroless or voltaic reduction residual elemental mercury and/or residual colloidal and ionic mercury. At this third stage metallic mercury is incorporated into a metallic matrix from which the mercury may preferably be recovered. | 09-04-2008 |
20090139918 | Visual bilgewater quality indicator - A visual bilgewater quality indicator for use in a bilgewater filtration system which includes a filtration stage for removing oily contaminants. The quality indicator utilizes one or more filtration status chambers which are provided with a fluorescent or phosphorescent dye or pigment treated filtration media. The status chamber has a transparent outer wall. Flow through the status chamber is from the outer lateral wall toward its central axis, whereby oily contaminants in the flow collect selectively at the outer portions of the filtration media which are highly visible to an observer. Oil droplets as small as one micron, are captured and immobilized by the primary filter and are instantly visible against the background of the exemplary dye. If two status chambers are used in series, due to the ability of the infused media to permanently capture oil without re-entrainment, the second chamber is always kept transparent until complete loading and supersaturating breakthrough at the primary chamber. Oily droplet visibility can be further enhanced with ultraviolet illumination. | 06-04-2009 |
20100000409 | Process and system for separating finely aerosolized elemental mercury from gaseous streams - A method and apparatus for practicing the method are provided for separating droplets of finely aerosolized elemental mercury from a gaseous stream in which the droplets are dispersed. In the method a gold plated metallic capillary surface is contacted with the gaseous stream, causing the aerosolized droplets to deposit on the capillary surface and by capillary action to coalesce with other of such droplets to form increasingly large drops of mercury. The surface is oriented to allow the mercury to flow by gravitational forces and capillary action to the lowermost portions of the surface, at which it accumulates, and is then collected at a suitable vessel. | 01-07-2010 |
20110198276 | SYSTEM FOR REMOVAL OF CONTAMINANTS FROM INDUSTRIAL STREAMS - A method and system for removing from an aqueous system which is contaminated therewith: (1) mercury present as colloids, ions and/or organically bound compounds, and (2) hydrocarbons solubilized, dispersed, and/or emulsified in the said system. Pursuant to the invention the aqueous system to be treated (such as “produced water”)is passed successively through three filtration stages. The first filtration stage is provided with absorption media which effects reduction/removal of dispersed organically bound mercury species and of the dispersed and partially dissolved hydrocarbon phases, as well as of some colloidal mercury and other dissolved metallic species. The second filtration stage utilizes a salt modified reticulated granular filtration media for reduction/removal of slightly dissolved hydrocarbon phases, mercury in colloidal and ionic form and other dissolved metals. The third filtration stage is a polishing stage, which serves to further reduce by electroless or voltaic reduction residual elemental mercury and/or residual colloidal and ionic mercury. At this third stage metallic mercury is incorporated into a metallic matrix from which the mercury may preferably be recovered. | 08-18-2011 |
20120184039 | METHOD AND SYSTEM FOR ANALYZING CONCENTRATIONS OF DIVERSE MERCURY SPECIES PRESENT IN A FLUID MEDIUM - A method for facilitating removal of mercury from a primary fluid stream of interest which is contaminated with organically-bound, elemental, and ionic mercury species. The stream is analyzed to establish the relative content of the organically-bound, elemental, and ionic mercury species present therein by forming a diverted side stream from the primary stream, and passing the side stream successively through three in series filter stages, the first captures organically bound mercury, the second captures elemental mercury, and the third captures ionic mercury. The side stream flow through the filter stages is continued for a predetermined period, and upon conclusion of the period the quantity of mercury collected at each of the filtration stages is determined. This data is then utilized to determine the capacity of the three different filtration stages required to reduce the mercury content in the mam stream to a desired level. | 07-19-2012 |
20120273401 | VISUAL BILGEWATER QUALITY INDICATOR - A visual bilgewater quality indicator for use in a bilgewater filtration system which includes a filtration stage for removing oily contaminants. The quality indicator utilizes one or more filtration status chambers which are provided with a fluorescent or phosphorescent dye or pigment treated filtration media. The status chamber has a transparent outer wall. Flow through the status chamber is from the outer lateral wall toward its central axis, whereby oily contaminants in the flow collect selectively at the outer portions of the filtration media which are highly visible to an observer. Oil droplets as small as one micron, are captured and immobilized by the primary filter and are instantly visible against the background of the exemplary dye. If two status chambers are used in series, the second chamber is always kept transparent until complete loading and supersaturating breakthrough at the primary chamber. | 11-01-2012 |
20120315240 | VISCOELASTIC ANTIMICROBIAL COMPOSITIONS AND METHODS - Viscoelastic compositions capable of preventing microbial proliferation and capable of capturing microbrial membrane and cell wall decomposition products are provided, the compositions including reaction products of drying oils and semi-drying oils and methacrylate polymers. The compositions are capable of absorption or incorporation of lipopolysaccharide and protein membrane materials and endotoxins. | 12-13-2012 |
20120316251 | PROCESS FOR PRODUCING COMPOSITIONS FOR USE IN REMOVAL OF DISPERSED, SOLUBILIZED, AND/OR EMULSIFIED UNDESIRED SPECIES FROM WATER AND GASES - Disclosed is a method of making coagulant and viscoelastic compositions for use in removal of dispersed, solubilized, and emulsified oils and hydrocarbons and other noxious species from water and air. The composition comprises thermal reaction products of blends of fatty acids derived, isolated and purified from drying and semi-drying oils such as linseed, safflower, and tung oil with a polymer such as for example poly(isobutyl methacrylate) and can include a solvent. The product of the invention facilitates cohesion of oils and hydrocarbons independent of agitation and temperature and may be used in both salt and fresh water, air and other gaseous streams. | 12-13-2012 |
20130167719 | Visual Quality Indicator for Gaseous Streams - A visual indicator device and method for determining the presence of oily contaminants in a gaseous stream are provided. The device includes a filtration status chamber for receiving and discharging the gaseous stream, and a transparent wall enabling viewing of the chamber interior. A fluid-pervious filtration media within the chamber is infused with an absorption composition at which the contaminant on contact with the media is immobilized. The media has a surface viewable through a transparent wall of the filtration status chamber, and the stream flow path is such as to cause the stream to impinge at the media via the said surface, whereby the contaminants collect selectively at the media surface and are therefore highly visible through the transparent wall. | 07-04-2013 |
20130175000 | Visual Quality Indicator for Aqueous Streams - A visual indicator device and method for determining the presence of oily contaminants in an aqueous stream are provided. The device includes a filtration status chamber for receiving and discharging the aqueous stream, and a transparent wall enabling viewing of the chamber interior. A fluid-pervious filtration media within the chamber is infused with an absorption composition at which the contaminant on contact with the media is immobilized. The media has a surface viewable through a transparent wall of the filtration status chamber, and the stream flow path causes the stream to impinge at the media via the surface, whereby the contaminants collect selectively at the media surface and are highly visible through the transparent wall. | 07-11-2013 |
20140373715 | PROCESS AND SYSTEM FOR SEPARATING FINELY AEROSOLIZED ELEMENTAL MERCURY FROM GASEOUS STREAMS - A method and apparatus are provided for separating droplets of finely aerosolized elemental mercury from a fluid stream in which the droplets are dispersed, particularly a gaseous stream. In the method, a precious metal wire capillary surface or precious metal-coated wire capillary surface is contacted with the gaseous stream, causing the aerosolized droplets to deposit on the capillary surface and by capillary action to coalesce with other of such droplets. The surface is oriented to allow the mercury to flow by gravitational forces and capillary action to the lowermost portions of the surface, where it accumulates and can be collected. Metallic capillary surfaces comprised of finely braided strands of silver, gold, palladium, platinum, or rhodium wire, or wire coated with one or more of these metals, are particularly preferred. | 12-25-2014 |