Abstract: The present invention relates to a separation matrix comprised of a porous or non-porous support to which ligands have been immobilised, wherein said ligands comprise at least one aliphatic sulfamide. The invention also relates to a chromatography column that contains the described separation matrix, as well as to a method of isolating immunoglobulins, such as IgG, Fab fragments, fusion proteins containing immunoglobulins etc, by adsorption to a separation matrix that comprises the aliphatic sulfamide ligands of the invention.
Type:
Application
Filed:
March 20, 2008
Publication date:
May 13, 2010
Applicant:
GE HEALTHCARE BIO-SCIENCES AB
Inventors:
Jean-Luc Maloisel, Bo-Lennart Johansson
Abstract: A method for removing a contaminant from a fluid system comprises contacting the fluid system with an inversely fluidized material, for example a particulate aerogel, thereby removing at least a portion of the contaminant from the fluid system. The method can be used to remove oil or other organic materials from wastewater streams. It can be conducted in a fluidized bed, which includes nanoporous particles and a fluidizing medium, wherein the nanoporous particles have a density lower than that of the fluidizing medium.
Abstract: A fluid (e.g. liquid) treatment cartridge assembly for holding solid (particulate) matter therein for contact with a fluid (e.g. a liquid medium). The cartridge comprises an outer cylindrical housing component, having a first cylindrical axis, and an inner tubular component disposed within the cylindrical housing component. The outer cylindrical housing component includes a plurality of wall panels which are interconnected by slider interlock means disposed and configured such that adjacent wall panels are slide interlocked thereby.
Type:
Application
Filed:
January 30, 2008
Publication date:
April 15, 2010
Inventors:
Jean-Francois Tellier, Richard Blain, Serge Fraser, Alain Scuvee
Abstract: The invention relates to a process and a device for enriching water, in particular drinking water, with magnesium ions. In order to enable enrichment of water with magnesium ions in exchange for calcium ions and/or heavy metal ions during treatment of water, and in particular of drinking water, it is proposed according to the invention to pass the water through an ion exchanger which contains a weakly acidic ion exchange material, wherein at least a part of its ion exchange capacity is loaded with magnesium ions.
Abstract: Among flocculating agents reacting in a neutral region and also leaving treated water also in neutral region, a flocculating agent is proposed, which can be used simply and may carry out effective cleaning of mud water in particular. A flocculating agent is proposed, which is a flocculating agent in powder form and exhibiting a pH of 5 to 9 when added to pure water, containing in a mixed state an acidic powder comprising porous particles obtained by adsorbing a metal constituent and an alkaline powder comprising porous particles obtained by adsorbing calcium phosphate.
Abstract: The present invention relates to mixed-modal anion-exchange materials composed of a support on which a ligand is immobilized. The ligand combines at least one basic domain based on cyclic monobasic derivatives with two or more rings as anion-exchange domain and at least one non-ionic binding domain. The basic domain is ionized under the conditions of use and may contain secondary, tertiary, or quaternary nitrogen forming a weakly (WAX) or strongly (SAX) basic anionic exchange domains. The non-ionic binding domain allows adjustment of the overall hydrophobicity/hydrophilicity of the material and represents a second binding site for the solute to be separated. Binding to this second binding site is based on reversed phase (RP), hydrophobic interaction (HIC) or hydrophilic interaction (HILIC).
Abstract: Water filters and methods of filtering fluids (e.g., water) to produce treated water such as potable water. Specifically, water filters comprising activated carbon, fiber composites, or combinations thereof that are operable to remove heavy metals and/or viruses from fluids to produce potable water. The water filters may comprise at least one carbon filter comprising activated carbon particles, and at least one fiber composite filter comprising electropositive metallic fibers having dimensions of between 5 nm and 100 nm. The fiber composite filter may be disposed upstream of the carbon filter, downstream of the carbon filter, or both.
Abstract: Provided for herein is a process for separating a hydrocarbon-rubber from a hydrofluorocarbon diluent comprising contacting a polymer slurry comprising the hydrocarbon-rubber dispersed within the hydrofluorocarbon diluent with a hydrocarbon solvent capable of dissolving the hydrocarbon-rubber, to produce a first liquid phase and a second liquid phase, and separating the first liquid phase from the second liquid phase.
Type:
Grant
Filed:
June 23, 2006
Date of Patent:
December 8, 2009
Assignee:
ExxonMobil Chemical Patents Inc.
Inventors:
Michael F. McDonald, Scott T. Milner, D. Shaffer Timothy, N. Webb Robert, D. Hembree Richard
Abstract: A method and an apparatus for performing condensate demineralization which are capable of producing a high-purity treated water containing low concentrations of sulfate ions and nitrate ions derived from TOC eluted from a cation exchange resin and anion exchange resin.
Abstract: Hydrophilic cross-linked polymeric membranes, when prepared according to the process of the present invention, are unique in character in as much as the steady state permeability of the membrane has been altered by blending and cross-linking polyalkyl amines and polyalcohols. To obtain desired results, the compositions must contain at least 10% polyalkyl amines, with preferred amounts of polyalkyl amines in the composition being in excess of 40%, with over 50% polyalkyl amine concentration by weight.
Type:
Grant
Filed:
February 22, 2006
Date of Patent:
November 24, 2009
Assignee:
The United States of America as represented by the Admin. of Environmental Prot. Agcy
Inventors:
Leland Vane, Ravi Ponangi, Vasudevan Namboodiri
Abstract: A bioretention system and method are provided for removing phosphorus, nitrogen and other materials from effluent such as wastewater and stormwater. The system and method can include a filtration media comprising water treatment residuals and other fill such as soil. Plants can be growing in the soil. The system can also include a drainage system to regulate outflow, to function during both low and high throughputs of water.
Abstract: Packed bed reactors that have a series of alternating layers of packing. A first packing layer has open body packing elements randomly packed in a layer up to about 10 packing elements deep; and a second packing layer has porous support elements of hydrophobic foam. The porous support elements are randomly packed up to about 10 porous support elements deep. Further, the packing elements of the first layer include substantially cylindrical shapes and the porous support elements of the second layer include substantially rectilinear shapes. In some embodiments, the second layer supports microbial organisms in a biological reactor, and the first layer of open body packing provides fluid flow spaces to facilitate fluid flow and distribution, mass transfer, and to minimize channeling.
Abstract: Filtering medium based on activated carbon which is characterized in that it comprises three superposed layers, respectively an inner layer and two outer layers, the inner layer consisting of 80 to 95% by dry weight of activated carbon, the balance for 100% consisting of organic and/or inorganic chemical fibres, the first outer layer comprising from 45 to 95% by dry weight of organic and/or inorganic chemical fibres, the balance for 100% consisting of activated carbon and/or of a material having a density of less than 0.9, the second outer layer comprising from 5 to 25% by dry weight of activated carbon, the balance for 100% consisting of organic and/or inorganic chemical fibres, and in that the weight of the inner layer is between 40 and 200 g/m2 and the weight of the outer layers is between 10 and 100 g/m2.
Type:
Grant
Filed:
October 9, 2003
Date of Patent:
August 25, 2009
Assignee:
Ahlstrom Corporation
Inventors:
Kay Rökman, Hanna Rahiala, Pascale Escaffre, Valérie Chauve, Joseph Dussaud, Menno Dufour, Gilles Gauthier
Abstract: A quick, economical and environmentally friendly, “green”, process for the continuous purification of biodiesel (fatty acid alkyl esters (FAAE)) is described using a powdered, granulated or extruded adsorbent. The adsorbent is contained in a column system and is regenerated for reuse multiple times. The process employs an adsorbent such as, but not limited to, carbon, silica, clay, zeolite or a metal silicate contained in a column to remove the impurities from fatty acid alkyl esters (FAAE) or crude biodiesel in a continuous process. The process utilizes the adsorbent column system for the purification of biodiesel, rather than water or filtration, to remove soaps and other impurities entrained in a crude biodiesel.
Type:
Application
Filed:
February 5, 2009
Publication date:
August 13, 2009
Inventors:
James R. Munson, Brian S. Cooke, Bryan L. Bertram
Abstract: An apparatus (10) for treating a fluid to be injected into a subterranean hydrocarbon-bearing formation comprises a desalination system (12) having a fluid inlet (16) for receiving a first feed fluid (18) and a first fluid outlet (22) for delivering a first product fluid (20). The apparatus (10) also includes a selective ionic species removal plant (30) having a fluid inlet (36) for receiving a second feed fluid (34) and a fluid outlet (40) for delivering a second product fluid (38), wherein the second product fluid (38) has a preferred ionic concentration. A mixer (46) is provided for mixing at least a portion of the first product fluid (20) and at least a portion of the second product fluid (38) to provide a third or injection product fluid (48). Accordingly, injection fluid can be created which has a preferred ionic concentration suitable for injecting into a well (28).
Abstract: A filter device for filtering liquid passing there through, the filter device comprising a housing (101) for securing to a source (3) of the liquid and having a liquid accommodating duct (10) there through for accommodating the liquid. The duct (10) extends from an upstream end for communicating with the liquid source (3), to a downstream end terminating in an outlet (14) through which the liquid is discharged from the filter device, wherein the filter device incorporates a filter element (110, 111, 113) for substantially removing bacteria from the liquid passing there through.
Type:
Application
Filed:
December 12, 2008
Publication date:
July 30, 2009
Applicant:
Aqua-Nu Filtration Systems Limited
Inventors:
Patrick FARRELLY, Sean McCormack, Robert Verkerk, David Maybin
Abstract: Exemplary systems and methods relating to water treatment are described. One implementation filters water through a moving bed media filter sufficient to decrease the water's turbidity. This implementation simultaneously disinfects the filtered water and at least a portion of the moving bed media filter with ultra violet (UV) energy.
Abstract: The present invention generally includes a septage treatment system comprising: (a) a primary treatment process system comprising: (1) a receiving station to pump the septage from a vehicle; (2) equalization tank(s) to receive septage from the receiving station; and (3) two or more mixing and odor control tanks to generate waste activated sludge; (b) a primary settling tank to generate waste activated sludge; (c) a secondary treatment process system comprising: (1) aeration tank(s) to receive waste activated sludge from the primary treatment process system and to generate water effluent; and (d) a tertiary treatment process system comprising: (1) wetland ditch(es) to receive water effluent from the aeration tank and to generate filtered water effluent; (2) wetland pond(s) to receive filtered water effluent from the wetland ditch(es) and to generate filtered water effluent; and (3) an aquaculture hydroponics and sand bed greenhouse to generate filtered water effluent.
Abstract: A portable system for on-site monitoring and treatment of water comprising a protective enclosure adapted to be positioned proximate a site of collected water, an internal fluid flow system disposed within the enclosure comprising a first conduit extending from a dirty water inlet on the enclosure to a pair of dirty water outlets and a second conduit extending from a return water inlet on the enclosure to a filtered water outlet and a clean water outlet. Probes are provided in the conduits for monitoring fluid parameters therein and communicating those parameters to a controller within the enclosure. The controller compares the measured parameter levels with predetermined acceptable levels and actuates valve members in said conduits in response to the measured parameter levels to selectively communicate the respective conduits with respective outlets for the treatment of water passing through the system.
Abstract: A portable system for on-site monitoring and treatment of water comprising a protective enclosure adapted to be positioned proximate a site of collected water, an internal fluid flow system disposed within the enclosure comprising a first conduit extending from a dirty water inlet on the enclosure to a pair of dirty water outlets and a second conduit extending from a return water inlet on the enclosure to a filtered water outlet and a clean water outlet. Probes are provided in the conduits for monitoring fluid parameters therein and communicating those parameters to a controller within the enclosure. The controller compares the measured parameter levels with predetermined acceptable levels and actuates valve members in said conduits in response to the measured parameter levels to selectively communicate the respective conduits with respective outlets for the treatment of water passing through the system.
Abstract: A process for removing hydrogen peroxide in water which comprises bringing water for treatment containing hydrogen peroxide into contact with a catalyst for decomposing hydrogen peroxide obtained by depositing nano-colloid particles of a metal of a platinum group which have an average diameter of 1 to 50 nm to be supported on a support; and an apparatus for removing hydrogen peroxide which comprises an apparatus for decomposing hydrogen peroxide packed with a catalyst obtained by depositing nano-colloid particles of a metal of a platinum group which have an average diameter of 1 to 50 nm to be supported on a support, a means for supplying water which supplies water for treatment containing hydrogen peroxide to the apparatus and a means for discharging water which discharges the water from the apparatus after being brought into contact with the catalyst. Hydrogen peroxide in water for treatment can be removed rapidly and surely.
Abstract: Novel material for chromatographic separations, processes for its preparation, and separations devices containing the chromatographic material. In particular, the disclosure describes porous inorganic/organic hybrid particles having a chromatographically-enhancing pore geometry, which desirably may be surface modified, and that offer more efficient chromatographic separations than that known in the art.
Type:
Application
Filed:
January 15, 2009
Publication date:
May 21, 2009
Applicant:
Waters Investments Limited
Inventors:
Zhiping Jiang, Raymond P. Fisk, John O'Gara, Thomas H. Walter, Kevin D. Wyndham
Abstract: An ion exchange resin tower including a tank, a supply line, an output line, and a plurality of sampling tubes is provided. The supply line guides a liquid into the tank, such that an ion exchange occurs between the liquid and the ion exchange resin in the tank. The processed liquid is guided out of the tank via the output line. The sampling tubes are disposed on a sidewall of the tank to sample the liquid flowing through the resin.
Type:
Application
Filed:
February 5, 2008
Publication date:
May 7, 2009
Applicant:
AU OPTRONICS CORPORATION
Inventors:
Ching-Wei Chu, Cheng-Wen Li, Chien-Chang Yang, Chang-Lung Pan
Abstract: There is provided a method or a system for purification of water from neutral and anionic organic contaminants using either a mixture of a complex of an organic cation adsorbed on clay as a micelle, and a granular material or a complex of an organic cation adsorbed on clay as a micelle. There is also provided a column accommodating the mixture of a complex of an organic cation adsorbed on clay as a micelle, and a granular material.
Type:
Application
Filed:
January 18, 2006
Publication date:
May 7, 2009
Applicant:
Yissum Research Development Company of The Hebrew University of Jerusalem
Abstract: The present invention provides for Troika acids attached to a macroporous resin and Methods of preparing the same, including direct attachment of a Troika acid, and attachment of a Troika acid precursor followed by generation of the Troika acid in situ. Methods of functionalizing a resin to facilitate attachment are also described. Multiple Troika acids, comprising a pair of Troika acids joined together are described. Synthetic routes to both microporous and macroporous resins modified by introduction of a suitable Troika-type acid have been designed and validated. In a preferred embodiment, a macroporous Troika resin removes Cu2+ and Ni2+ from aqueous solution with high affinity, and is selective against Mg2+ or Ca2+. The materials of the present invention have advantages for metal removal from power plant waste water.
Type:
Grant
Filed:
September 30, 2004
Date of Patent:
May 5, 2009
Assignee:
The University of Southern California
Inventors:
Charles E. McKenna, Boris A Kashemirov, Isabelle Favier, Thomas D. Wolfe
Abstract: A water container that is detachably mounted in a steam cleaner body. The water container includes a water container body with a water inlet on the bottom thereof, whereby the water container body can be filled with water and the water can be discharged from the water container body through the water inlet, and an ion exchange unit formed in the water container body to remove hardness components included in water when the water container is filled with water and when water is discharged from the water container.
Abstract: A low-cost, water treatment system and method for reducing arsenic contamination in small community water storage tanks. Arsenic is removed by using a submersible pump, sitting at the bottom of the tank, which continuously recirculates (at a low flow rate) arsenic-contaminated water through an attached and enclosed filter bed containing arsenic-sorbing media. The pump and treatment column can be either placed inside the tank (In-Tank) by manually-lowering through an access hole, or attached to the outside of the tank (Out-of-Tank), for easy replacement of the sorption media.
Type:
Grant
Filed:
May 1, 2008
Date of Patent:
April 7, 2009
Assignee:
Sandia Corporation
Inventors:
Patrick V. Brady, Brian P. Dwyer, James L. Krumhansl, Joseph D. Chwirka
Abstract: A filter medium comprises a mass of elongate, differently orientated, shape-sustaining elongate elements comprising a sponge material, the different orientation of the elements causing these to form a self-supporting open network which provides substantial interstitial space between the elements, this space preferably being larger than the total volume of the elements themselves. The sponge material may be cellulose or PVA. The elements may be tubular, or they may have a reinforcing core to retain their shape. The reinforcing core may be of stiff synthetic plastic material. Filtration apparatus comprises such a mass of filter medium in a tank with ports for admitting air for filtering and exhausting filtered air. The tank may be separated into several sections by perforated screens supporting respective layers of filter medium.
Abstract: To provide particles for water disinfection which are hard to be suspended and are hard to be diffused in water which is suitable for use of disinfecting water and which are capable of developing disinfection effect fully and method of producing the same. Particles for water disinfection in which silver is coated on a garnet surface or a particle surface whose main ingredient is garnet are used. When said particles are used, preferable embodiment of silver is that the granular lumps of silver are carried continuously and discontinuously forming a group on a garnet surface as shown in SEM photographs of FIG. 4. Effective production method of such particles can be conducted by the electroless plating method in which garnet particles are immersed in a mixed solution composed of reducing solution in which at least any one of potassium sodium tartarate, glucose, or acetaldehyde as a reducing agent is dissolved in water, silver nitrate solution, and ammonium solution.
Abstract: An apparatus for use in the treatment of contaminated fluid is provided. The apparatus includes a body portion, made from a mixture of a waste adsorbent material and a binder material, for use in the removal of contaminants. The adsorbent material may be a nanosorbent material manufactured from self-assembled monolayers on mesoporous supports (SAMMS). The binder material, on the other hand, may include any thermoplastic material capable of binding the adsorbent material together to subsequently provide a composite material that can be shaped into a block. A method for treatment of contaminated fluid is also provided.
Abstract: A system and process for treating water are described. Water may be purified by passing feed water through an electrochemical deionization device. The water may be suitable for cooking, washing, and beverage production.
Type:
Grant
Filed:
November 20, 2007
Date of Patent:
January 27, 2009
Assignee:
Siemens Water Technologies Holding Corp.
Inventors:
Frederick Wilkins, Anil Jha, Li-Shiang Liang
Abstract: A method and a plant to remove metals by biosorption from mining or industrial effluents comprising: (a) subject the effluent to at least one first stage of pre-treatment, selecting among: precipitation by pH rising, solvent extraction or solvent extraction on emulsified membranes in order to reduce its load of metals to a concentration level that allows it to be treated by the next stage of biosorption, and (b) subject the liquid that has been previously in the stage of pre-treatment to a second stage of continuous metals removal by biosorption.
Type:
Grant
Filed:
December 4, 2007
Date of Patent:
January 20, 2009
Assignees:
Universidad De Chile, Biotechnologies Del Aqua Ltda.
Inventors:
Davor Cotoras Tadic, Fernando Valenzuela Lozano, Miguel Esteban Zarzar Maza, Pabla Leticia Viedma Elicer
Abstract: Water purification systems include a reverse osmosis unit, a treatment unit, and an electrodeionization unit. A reverse osmosis reject stream from the reverse osmosis unit is treated in the treatment unit and provided to concentrating compartments of the electrodeionization unit.
Type:
Grant
Filed:
May 7, 2004
Date of Patent:
December 30, 2008
Assignee:
GE Mobile Water, Inc.
Inventors:
Abel Queen, Joel Robinson, William Haas
Abstract: The present invention has its object to provide a direct hemoperfusion adsorber packed with an adsorbent made by using a water-insoluble carrier having a relatively readily available particle size distribution, with water-insoluble microparticles having been removed therefrom, without needing any special granulation apparatus or coating apparatus, and method of obtaining a direct hemoperfusion adsorbent having water-insoluble microparticles removed therefrom.
Type:
Application
Filed:
July 20, 2005
Publication date:
December 25, 2008
Applicant:
Kaneka Corporation
Inventors:
Koji Fujita, Masaru Nakatani, Akira Kobayashi, Takehiro Nishimoto
Abstract: A device for dynamic filtration of a pharmaceutical product is provided. The device includes a resin configured to selectively retain one or more components from a mixture having the pharmaceutical product, where the resin is configured to be activated by a medium of the mixture. The device further includes at least one positioning material disposed adjacent to the resin, where the positioning material is configured to provide mechanical support to the resin to at least partially retain the resin in position. In certain embodiments, the device does not require conditioning immediately prior to filtration.
Type:
Application
Filed:
June 22, 2007
Publication date:
December 25, 2008
Applicant:
GENERAL ELECTRIC COMPANY
Inventors:
Andrew Michael Leach, Peter Miller, Eric Telfeyan, David Brandon Whitt
Abstract: Disclosed are sorbent compositions that include a porous titanium dioxide support impregnated with a silver material. The sorbent compositions may be utilized in systems and methods for removing sulfur compounds from hydrocarbon streams such as jet fuel.
Type:
Application
Filed:
April 30, 2008
Publication date:
November 20, 2008
Applicant:
Auburn University
Inventors:
Bruce Tatarchuk, Hongyun Yang, Sachin Nair
Abstract: An apparatus for improving the characteristics of wetting water in offset printing comprises, in an operatively and functionally intercoupled relationship, a device for supplying the wetting water, a device for filtering the supplied wetting water, designed to provide an actively filtered wetting water, a plurality of magnets adapted to subject the filtered wetting water to a continuous and strong magnetic processing, a pH controlling device, adapted to control the wetting water pH at a preset acid pH value, and a device adapted to control the wetting water electrical conductivity at a set conductivity value.
Abstract: A wastewater treatment system including a biological reactor is disclosed. At least one controlled-reaction-volume module is provided to the biological reactor. The at least one controlled-reaction-volume module includes a fixed-film media for supporting a biological growth. At least one mixer, such as, for example, a high momentum mixer, for communicate a fluid to the at least one controlled-reaction-volume module so that wastewater and the biological growth communicate to thereby treat the wastewater.
Type:
Grant
Filed:
November 22, 2005
Date of Patent:
November 4, 2008
Assignee:
Entex Technologies Inc.
Inventors:
Richard L. Pehrson, Wayne J. Flournoy, Sarah B. Hubbell
Abstract: A portable system for on-site monitoring and treatment of water comprising a protective enclosure adapted to be positioned proximate a site of collected water, an internal fluid flow system disposed within the enclosure comprising a first conduit extending from a dirty water inlet on the enclosure to a pair of dirty water outlets and a second conduit extending from a return water inlet on the enclosure to a filtered water outlet and a clean water outlet. Probes are provided in the conduits for monitoring fluid parameters therein and communicating those parameters to a controller within the enclosure. The controller compares the measured parameter levels with predetermined acceptable levels and actuates valve members in said conduits in response to the measured parameter levels to selectively communicate the respective conduits with respective outlets for the treatment of water passing through the system.
Abstract: Methods and apparatus to capture and release microbe particles using amino-functionalized silica substrates are described. An example apparatus adapted to capture a microbe particle includes a silica substrate and a positively charged material to at least partially coat the silica substrate. The positive charged material includes an aminopropyl functional group.
Type:
Application
Filed:
February 19, 2008
Publication date:
October 2, 2008
Inventors:
Hsueh-Chia Chang, Zilin Chen, Fu-Chih Hsu, David Battigelli
Abstract: The present invention provides a macroporous copolymer having large pores, typically in the range of 5,000-200,000 ? and a typical breaking weight of at least 175 g/bead. The macroporous copolymers can be made using an interpenetrating polymer network (IPN) techniques. These macroporous copolymers may also form macroporous resins. The present invention also provides methods of using the macroporous copolymers and resins.
Type:
Application
Filed:
March 26, 2008
Publication date:
October 2, 2008
Applicant:
THE PUROLITE COMPANY
Inventors:
James A. Dale, Vladimir Sochilin, Luc Froment
Abstract: The present invention relates to a method for the demineralization of water using a combination of a monodisperse cation filter operated as a lift bed and a monodisperse anion filter operated in the cocurrent flow procedure, and also devices which comprise such a lift bed in combination with at least one cocurrent flow filter and if appropriate a trickling degasser and/or a mixed-bed filter.
Abstract: Systems, methods, and devices for preparation of water for various uses including blood treatment are described. In embodiments, fluid is passed either by pump or passively by gravity feed, through various filtration elements from a fluid source to a treatment fluid container. The latter forms a batch that may be used during treatment. The advantage of forming the batch before treatment is that the rate of filtering needn't match the rate of consumption during treatment which provides multiple benefits and liabilities to overcome, as discussed herein. Mechanisms for preparing pure water for infusion or medicaments are described such as elimination of chlorine and colloidal aluminum. Also various control mechanisms to help avoid contamination are describe.
Abstract: A filter assembly is provided that includes a hood, a drain manifold, a filter disposed between the hood and the drain manifold, a drainage space that is disposed between and in fluid communication with both the filter medium and the drain manifold, a check valve that is configured to permit air to escape but not to enter the drainage space so that a siphon can be established that draws additional fluid through the filter medium and into the drain manifold, the siphon continuing until air entering the hood disrupts the siphon, and a check valve cap that is configured to permit air to escape the check valve while preserving an air-filled void above the check valve when the filter assembly is submerged.
Type:
Grant
Filed:
April 23, 2007
Date of Patent:
September 2, 2008
Assignee:
Contech Stormwater Solutions Inc.
Inventors:
Daniel W. Aberle, James H. Lenhart, Jr.
Abstract: An aerated biological filtration system (10) for treating waste water includes a treatment vessel (11) of elongated configuration which incorporates a circulating filter bed (23) and a static filter bed (24). The circulating filter bed incorporate a particulate material such as granulated activated carbon having a specific gravity in the range of 1.2 to 1.4 and effective size of 0.6 mm to 1.5 mm. The circulating filter bed is disposed above the static filter bed and an aeration system (27) is disposed between the filter beds. The aeration system is arranged to diffuse air through the circulating bed either continuously or intermittently so as to provide oxygen to micro-organisms attaching to the particulate material and to cause slow circulation of that particulate material. The system has particular application for domestic recycling of grey water.
Abstract: This invention is directed to systems and methods for removing lipids from a fluid or from lipid-containing organisms from a fluid, such as plasma. These systems combine a fluid with at least one extraction solvent, which causes the lipids to separate from the fluid or from the lipid-containing organisms. The separated lipids are removed from the fluid. The at least one extraction solvent is removed from the fluid or at least reduced to a concentration enabling the fluid to be administered to a patient without undesirable consequences. Once the fluid has been processed, the fluid may be administered to a patient who donated the fluid or to a different patient for therapy.
Type:
Grant
Filed:
June 28, 2007
Date of Patent:
July 22, 2008
Assignee:
Lipid Sciences, Inc.
Inventors:
David C. Bomberger, Bryan Chavez, Pablo E. Garcia, Eric Hegwer, Thomas P. Low, Ripudaman Malhotra, Jeffrey J. Shimon
Abstract: A plastic fluid flow director for a water treatment system is provided having a plastic substrate with a protective coating that is substantially opaque to UV light. The plastic substrate may be ultra-high molecular weight polyethylene and the UV opaque coating may be unexpanded polytetrafluoroethylene (“PTFE”). The UV opaque coating protects the plastic substrate from UV light, which may be destructive to the plastic, during the water treatment process. The coating is suitable for water contact, does not break down in the presence of ultraviolet light for extended periods, and otherwise works with conventional water treatment systems. The plastic substrate with UV opaque coating is a suitable replacement for a stainless steel fluid flow director.
Type:
Application
Filed:
November 30, 2007
Publication date:
July 3, 2008
Applicant:
ACCESS BUSINESS GROUP INTERNATIONAL LLC
Inventors:
Liane B. Hopaluk, Terry L. Lautzenheiser
Abstract: An anaerobic wastewater treatment system includes a recycle tank, a bioreactor tank and a bioselector for recapturing anaerobic microbial consortia particles escaping from the bioreactor tank and returning them to the bioreactor tank. The bioreactor tank receives recycled wastewater feed from a recycle tank and discharges via an overflow outlet treated wastewater and microbial consortia particles to a bioselector. The bioselector is adapted to separate entrained microbial consortia particles and return a feed to the bioreactor tank which including some of the treated wastewater received from the bioreactor tank and the microbial consortia particles received from the bioreactor tank. The bioselector provides a recycle feed to the recycle tank. Overflow from the bioselector provides an effluent of treated wastewater leaving the system.
Abstract: A wastewater treatment system. Toilet, kitchen, commercial, and industrial process waste is segregated from the total wastewater stream and treated in order to reduce the total nitrogen, phosphorous, pathogens, household hazardous and hazardous wastes and organic carbon released into the environment. Release of treated toilet, kitchen, commercial, and industrial process liquid waste is eliminated. Segregation of toilet, kitchen, and commercial and industrial process wastewater from non-toilet, kitchen, commercial and industrial process wastewater requires separate sewer plumbing and separate storage of the toilet, kitchen, commercial and industrial process wastewater. The non-toilet, non-kitchen, non-commercial & non-industrial process wastewater can be released via a traditional septic tank and drain field or processed for reuse.