Liquid Spray Patents (Class 261/115)
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Patent number: 5645802Abstract: A method and apparatus for the treatment of a waste gas containing dust and chemical contaminants are disclosed. The apparatus includes a combination of a cooling/dust-eliminating chamber and a chemical treatment chamber in a single container. The first mentioned chamber is provided with sprayers for the cooling liquid, a perpendicular bulkhead or pipes, a collecting plate for the cooling liquid and gas-dispersing pipes in a special configuration, so that the dust-liquid separation can be efficiently effected without badly affecting the chemical treatment of the gas. Thus, the apparatus can be minimized in size as a whole and made economically attractive.Type: GrantFiled: December 4, 1991Date of Patent: July 8, 1997Assignee: Chiyoda CorporationInventors: Hiroshi Yanagioka, Yoshio Ogawa, Yoshiaki Komatsubara, Kenji Kobayashi
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Patent number: 5616290Abstract: A gas-liquid contacting apparatus in which spray nozzles for spraying slurry solution upward are arranged in a tower body through which gas passes, wherein a liquid inlet portion of the spray nozzle is of a bell shape having a radius of curvature of 0.Type: GrantFiled: May 20, 1996Date of Patent: April 1, 1997Assignees: Mitsubishi Jukogyo Kabushiki Kaisha, Ohji Rubber & Chemicals Co., Ltd.Inventors: Makiichi Ishihara, Takakazu Sunada, Shigeo Hasegawa, Naohiko Ukawa, Toru Takashina, Yukio Kita, Kouichiro Iwashita, Kousuke Yamashita, Junji Ozaki, Kaname Kaneshige
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Patent number: 5595713Abstract: A system for removing SO.sub.2, NO.sub.2, and other contaminants from flue gases uses hydrogen peroxide (H.sub.2 O.sub.2) as the reagent to convert the oxides of sulfur and some of the oxides of nitrogen (NO, NO.sub.2, etc.) to more stable oxidation states. Acids formed as a result of this conversion, namely sulfuric acid (H.sub.2 SO.sub.4) and nitric acid (HNO.sub.3) can then be neutralized with limestone or, alternatively, the sulfuric and nitric acids can be collected and processed for sale as an industrial product.Type: GrantFiled: September 8, 1994Date of Patent: January 21, 1997Assignee: The Babcock & Wilcox CompanyInventors: Wadie F. Gohara, Dennis W. Johnson
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Patent number: 5427608Abstract: A method and apparatus for separating solid and/or liquid particles and/or polluting gas from a gas stream includes two component nozzles by which a washing liquid is finely distributed in a gaseous phase and introduced in the gas stream within a gas washer. The two-component nozzles are distributed over the whole cross section of the washer, preferably on a plane that extends perpendicularly to the gas flow direction.Type: GrantFiled: September 26, 1994Date of Patent: June 27, 1995Assignee: Voest Alpine Industrieanlagenges, m.b.H.Inventors: Werner Auer, Walter Gebert, Franz Parzermair, Harald Furschuss, Sotirios Raptis
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Patent number: 5316737Abstract: Exhaust gases containing oxides of nitrogen and sulfur from a fired process heater, a fossil fuel fired boiler, or a chemical process are diverted from a stack prior to admission to the atmosphere through a duct system containing heat exchangers that reduce the exhaust gas from an elevated temperature, if any, to about ambient temperature. Any heat extracted from the exhaust gas may be transferred to the boiler feed water which would serve to reduce the energy cost of operating a boiler. Once the exhaust gas is cooled to about ambient temperature, the gas is then mixed with an oxidant, such as ozone, at a preselected molar ratio to transform the oxides to higher orders of nitrogen and sulfur oxides to increase the absorbability of the nitrogen and sulfur oxides in a reagent solution. The reagent absorbs the oxidized contaminants from the exhaust gas. The oxides are transformed to dilute acids which are then neutralized to form salts that are acceptable for discharge to a municipal waste water treatment plant.Type: GrantFiled: July 1, 1993Date of Patent: May 31, 1994Assignee: Cannon Boiler Works, Inc.Inventors: Arthur P. Skelley, James C. McMichael, James T. Cobb, Jr., Wesley M. Rohrer, Jr., Phillip E. Custer, II, Taha M. Elsubki
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Patent number: 5176325Abstract: A spray nozzle assembly particularly adapted for directing a finely atomized slurry of hydrated lime for removing sulfur dioxide from flue gases. The nozzle assembly includes a nozzle body having a first pre-atomizing and mixing chamber into which pressurized liquid and air flow streams are directed for breaking down and pre-atomizing the liquid, an orifice plate at the downstream end of the first pre-atomization and mixing chamber for restricting the fluid flow into a second chamber defined by the orifice plate and spray tip, and a spray tip having a plurality of circumferentially spaced discharge orifices through which atomized liquid particles in the second chamber discharge in a substantially conical cloud-like spray pattern of finely atomized particles.Type: GrantFiled: May 14, 1991Date of Patent: January 5, 1993Assignee: Spraying Systems Co.Inventor: Daniel A. Vidusek
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Patent number: 5168836Abstract: Disclosed herein is an emission control system including an air pretreatment system for enhancing the ability of air passing therethrough to absorb moisture, a humidification chamber having an inlet and an outlet, the inlet being attached to the air pretreatment system, the pretreated air passing from the air pretreatment system into the inlet and through the humidification chamber so that it is humidified at a consistently controllable rate in its passage through the humidification chamber to and out of the outlet.Type: GrantFiled: August 8, 1990Date of Patent: December 8, 1992Assignee: Catalytic Solutions, Inc.Inventor: Gregory Kraus
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Patent number: 5114075Abstract: This invention relates to a spraying system for spraying a liquid, such as water, to be used in a plant for treating flue gases, provided with at least a liquid supply pipe, a spray body, and a spray head, which is characterised in that the spray body (5) and the supply pipe (4) are surrounded by a housing (1,2) thermally insulating the spray body (5) and the supply pipe (4) from the surroundings, the spray body (5) is fastened to the housing (1) of the supply pipe (4), which fastening is such that there is little heat transport from the spray body (5) to the housing (1), and the housing (2) is located near the spray body (5) at some distance therefrom.Type: GrantFiled: April 19, 1990Date of Patent: May 19, 1992Assignee: Seac International B.V.Inventor: Hendrik A. Verduyn
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Patent number: 5000624Abstract: Fluidized powder in a powder preparation container is treated to impart to it a desired moisture content through the feeding into the fluidized powder of a stream of compressed air whose moisture content and temperature have been carefully regulated. Powder in the preparation container which has attained the desired moisture content is then transferred to a powder holding container and from there to a spraying device by which spraying device the powder is electrostatically charged and sprayed on articles. Further, the powder preparation container is heated along several distinct heating zones which are arranged one above the other along the axis, i.e. height, of the container. The powder in the powder preparation container is stratified with the powder at the bottom of the container being affected only negligibly by the continuous introduction of fresh powder through the top of the container.Type: GrantFiled: September 1, 1988Date of Patent: March 19, 1991Assignee: Ransburg-Gema AGInventor: Peter Steiger
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Patent number: 4990167Abstract: A cylindrical scrubbing column having a cylindrical water-separator head is provided with an upwardly converging partition defining a diametrically extending elongated slot which communicates between the scrubbing region of the column and the head, the slot being aligned with a radial outlet for the flue gases from the head. The slot is flanked by a pair of longitudinally-extending impingement baffle register walls which remove water from the entraining flue gas by impingement baffle separation techniques and a further wall is provided at the end of the slot turned toward the radial outlet. The walls can converge in the direction of flow of the gas upwardly and the compartments behind the walls communicate with the radial outlet. The system has reduced pressure drop without detrimental effect to the separating efficiency.Type: GrantFiled: December 14, 1989Date of Patent: February 5, 1991Assignee: Gottfried Bischoff Bau Kompl. Gasreinigungs und Wasserruckkuhlanlagen GmbH & Co. KommanditgesellschaftInventor: Werner Stehning
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Patent number: 4943007Abstract: A spray generator for producing a spray of liquid droplets of a narrow size spectrum in which a substantially uniform cyclic disturbance is imposed on fluid energing at a nozzle. Such a disturbance can be produced by a fluidic bistable oscillator or by allowing the fluid to flow across a bluff body in the flow path. An opposed jet arrangement can be located within the vortex chamber of a fluidic diode and the liquid spray produced can meet swirling gas introduced at tangential inlets to the chamber.Type: GrantFiled: March 3, 1989Date of Patent: July 24, 1990Assignee: United Kingdom Atomic Energy AuthorityInventors: Michael J. Bowe, Stuart A. Clark
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Patent number: 4897226Abstract: A carbon dioxide storage and dispensing apparatus and method for storing carbon dioxide which is characterized by a pressure vessel designed to hold carbon dioxide liquid and vapor, which pressure vessel is insulated to control heat input and includes a refrigeration system, fill and withdrawal piping, a fill line mixer provided in the fill line for rapidly mixing incoming liquid carbon dioxide with carbon dioxide in the vapor phase, a volume gauge, heating rod for introducing heat into the vessel and associated operating and safety control devices. The pressure vessel may be characterized by a horizontal or vertical tank and is designed to provide the user with an uninterrupted supply of carbon dioxide gas or liquid, while at the same time overcoming many of the problems associated with currently available carbon dioxide storage and dispensing equipment.Type: GrantFiled: March 15, 1989Date of Patent: January 30, 1990Assignee: Carbonic Technologies, Inc.Inventors: Michael D. Hoyle, Charles V. Snyder
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Patent number: 4753663Abstract: A method of treating the water supplied for humidification of the textile processing room environment (e.g. weaving room) results in reduced apparent cotton dust concentrations, while maintaining or increasing processing efficiency. The water supplied to the humidification system for the processing environment is pure water, such as reverse osmosis water, distilled water, deionized water, demineralized water, etc. Humidification is primarily achieved utilizing atomizers, and a pure water supply can be generated on-site by treating tap water with conventional deionizers or demineralizers.Type: GrantFiled: March 18, 1981Date of Patent: June 28, 1988Assignee: Burlington Industries, Inc.Inventors: John D. Neefus, Frederick M. Shofner
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Patent number: 4735750Abstract: A process and device for mixing and dissolving gas (G) in liquid (F), this latter being introduced under pressure through a nozzle plate (12) into a reaction space (1), whence a mixture of gas (G) and solution (L) flow out through outlets (10) laterally at the bottom into a solution tank (2) and the gas (G) recirculates through inlets (11) at the top near the nozzle plate (12). The solution tank (2) is filled to a level (N1) between the in- and outlets (11, 10) at a medium pressure; the dissolved body of gas (G) is delivered subsequently via a gas flow regulator (5) and the solution (L) is drawn off from the solution tank (2) at a low pressure level via a control valve (24) as a supersaturated solution (UL). An embodiment of the nozzle plate (12) is disclosed with injector nozzles at the edge and mixing nozzles on the inside.Type: GrantFiled: September 16, 1986Date of Patent: April 5, 1988Inventor: Franz-Josef Damann
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Patent number: 4734109Abstract: An effluent treatment apparatus adapted for conditioning an effluent stream within a treatment zone is comprised of an injection system which includes at least one injection nozzle having a flexible discharge tube with an effective length at least equal to the characteristic wavelength for flexural resonant vibration thereof when pressurized fluid issues therefrom. The injection nozzle(s) preferably include(s) a length of elastomeric tubing as the discharge conduit, capable of providing a high flow rate of a conditioning agent to the treatment apparatus while delivering same in a relatively finely divided state. The conditioning agents may be delivered to a treatment zone within the apparatus in a generally concurrent, generally countercurrent, or generally transverse direction with respect to the flow of effluent to be conditioned. A recirculating system for the conditioning agent may be employed.Type: GrantFiled: September 6, 1985Date of Patent: March 29, 1988Inventor: James P. Cox
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Patent number: 4588535Abstract: For the treatment of combustion gases, particularly for domestic use, the gases are sprinkled or sprayed in parallel current or in counter-current with a washing liquid traversing vertical channels or ducts. At the upper end of each vertical duct there are arranged as sprinkling or spray nozzles a plurality of parallel downwardly directed small tubes pressed against each other. A washing liquid is supplied from a lower collector container or tub by means of a circulation pump up to an upper tank or storage space; with its filling, the liquid level of the lower collector container lowers to a point that the combustion gases from the supply pipe freely enter the first vertical duct and they may be evacuated through the outlet channel or treated gas outlet connected to the last vertical duct. Thereby, the washing liquid which leaves the upper tank through the spray nozzles purifies the gas by removing solid and soluble components while simultaneously cooling the gases.Type: GrantFiled: November 30, 1984Date of Patent: May 13, 1986Inventor: Leonhard Foidl
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Patent number: 4584147Abstract: Swirl nozzles, especially for plants with flue gas scrubbers for the physical and/or chemical purification of flue gases emanating from power plant boiler installations. The nozzles include a substantially cylindrical nozzle chamber, at least one tangential scrubber fluid inlet into the nozzle chamber, and at least one nozzle bore arranged in a nozzle chamber bottom and extending coaxially with its axis with respect to the nozzle chamber. A conduit for feeding scrubber fluid can be secured at the tangential scrubber fluid inlet, and this conduit carries the swirl nozzle apparatus. The nozzle chamber and the inlet are provided in a body made of ceramic wear material, with the respective ends of the chamber also made of ceramic wear material and connected to the body. At least one chamber bottom includes the nozzle bore. The body and the nozzle chamber bottoms are arranged between steel stress plates. At least the body can be held under pretension condition between these stress plates.Type: GrantFiled: March 1, 1985Date of Patent: April 22, 1986Assignee: Gottfried Bischoff Bau kompl. Gasreinigungs- und Wasserruckkuhlanlagen GmbH & Co. KommanditgesellschaftInventor: Werner Stehning
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Patent number: 4512935Abstract: The presterilization of packaging machines for the manufacture of aseptic packing containers can be carried out with the help of sterile air and liquid sterilizing agent, which are blended so that a gas saturated with sterilizing agent of a suitable temperature and dew point is obtained. In order to achieve a rapid and effective volatilization of the liquid a circulating movement is imparted to the hot sterile air as the sterile liquid is introduced into the center of the circulating movement. An apparatus using this method comprises a chamber with a helical guide rail and a spray nozzle for the sterilizing liquid.Type: GrantFiled: January 13, 1984Date of Patent: April 23, 1985Assignee: Tetra Pak International ABInventors: Anders Hilmersson, Jan Lagerstedt, Helge Andersson
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Patent number: 4466814Abstract: A process and apparatus for conditioning atmospheric sea air for subsequent use as process air in floating chemical processing plants. A stream of atmospheric sea air, is injected with a salt-free aqueous spray for dissolving salt particles contained therein. The excess water is then removed by passing the over saturated air stream through a drop separator. The residual intake air is then heated to reduce the relative humidity of the air prior to its passing through a blower.Type: GrantFiled: November 4, 1982Date of Patent: August 21, 1984Assignee: UHDE GmbHInventors: Hans-Joachim Herbort, Heinz G. Schuster
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Patent number: 4445023Abstract: A thermal storage heater system for heating fluids includes a storage tank for accumulating and storing energy in the form of a quantity liquid heated to a high temperature by an electric immersion heating element in the tank. A source of a first fluid to be heated is connected to the inlets of pilot and primary heat exchangers immersed in the high temperature liquid for transferring heat to the first fluid. A first circuit connects the outlet of the pilot heat exchanger to a point of use. A second fluid circuit connects the outlet of the primary heat exchanger to the point of use and includes a spring-loaded pressure sensitive check valve responsive to the flow rate in the first circuit for regulating the flow of fluid through the primary heat exchanger in response to a change in flow indicative of insufficient heating of the fluid by the pilot heat exchanger. The system includes an additional heat exchanger for heating a second fluid to be heated.Type: GrantFiled: July 31, 1980Date of Patent: April 24, 1984Assignee: Vapor CorporationInventor: James L. McKenney
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Patent number: 4419301Abstract: A process for heating fluids to a relatively high temperature, such as sterilization temperature, in which the fluid, such as a liquid, is heated by direct contact with steam while it is in the form of a very thin, free-falling film or a continuous falling stream so that heating of the fluid is accomplished without the fluid coming into contact with any surface and particularly metal surfaces which are hotter than the fluid product being heated and with minimum agitation and turbulence of the fluid product. This procedure enables maximum and uniform heat penetration in a minimum time interval with the film or stream being maintained as thin as possible and unbroken by introducing steam at a relatively low velocity in a large volume vessel.Type: GrantFiled: June 29, 1981Date of Patent: December 6, 1983Assignee: Dasi Industries, Inc.Inventors: John E. Nahra, Walter Woods
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Patent number: 4360368Abstract: The sealed, compact air-conditioner employs the evaporation of water and permits the lowering of the ambient temperature in cabs of machines or vehicles with no compressor or refrigerating circuit being required.It comprises a turbo-fan unit directly mounted against an evaporation chamber. Inside the latter, a box facing the air inlets conditions the air distributed toward water injection nozzles and ensures the seal on the upstream side of the chamber. On the opposite side, the outlet for the humidified fresh air is disposed in the upper part and is preceded by a droplet-separating medium. The evaporation chamber, associated with the deflector, constitutes a water recovery pan. It is continuously drained by a drain located in the lowermost point thereof.The air-conditioner may be employed for the air-conditioning of agricultural, public works, handling, or cross-country machines or vehicles, such as tractors, harvester-threshers, shovellors or loaders.Type: GrantFiled: October 15, 1980Date of Patent: November 23, 1982Inventor: Roland Lyon
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Patent number: 4345916Abstract: Disclosed herein is a method for removing airborne particulates from an aerosol stream by first humidifying said aerosol with steam, and then cooling said aerosol with water to saturation temperature. Thereafter, the saturated aerosol is adiabatically cooled to a supersaturated state and maintained at supersaturation for a time sufficient to permit the growth and removal thereof of said particulates. Further disclosed is an apparatus adapted for practicing the method of the present invention and employing charged droplet scrubbing techniques to remove said particulates.Type: GrantFiled: May 19, 1980Date of Patent: August 24, 1982Inventors: Clyde N. Richards, Marx Brook
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Patent number: 4339152Abstract: Method and apparatus for mixing a gaseous oxidant (e.g., oxygen) and a lixiviant (e.g., an aqueous carbonate solution) at a downhole location before the oxygen-saturated lixiviant is injected into a formation to be leached. The invention involves establishing a mixing zone in the well by positioning a mixing means, comprising a housing, in the well at the downhole location. Lixiviant is flowed down the well and through a restrictive opening in the housing to substantially increase the flow velocity of the lixiviant. At the same time, gaseous oxidant is fed to the housing and is trapped therein by the increased velocity of the lixiviant and by packing material in said housing. The lixiviant flows through the trapped oxidant which, in turn, dissolves into the lixiviant to saturate same. Additional packing material is provided in the housing to remove undissolved oxidant from the saturated lixiviant before it is injected into a formation to be leached.Type: GrantFiled: October 31, 1977Date of Patent: July 13, 1982Assignee: Mobil Oil CorporationInventors: Bert J. Warner, Melwyn L. Mathis, Warren F. Johnson
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Patent number: 4325341Abstract: A fuel control device for a fuel injection system of a type having an intermittent injection type fuel injector disposed in a bore formed in the wall defining an intake passage. The device has a porous tubular element received in the bore in close contact with the fuel injector and defining therein a passage opened at its both ends.The fuel injected by the fuel injector is adhered to the inner surface of the passage defined in the porous tubular element. Air is introduced into the passage through fine air passages formed in the wall of the porous tubular element. The air introduced into the passage well atomizes the fuel into fine particles and is mixed therewith to form a homogeneous mixture.Type: GrantFiled: November 5, 1979Date of Patent: April 20, 1982Assignee: Hitachi, Ltd.Inventors: Teruo Yamauchi, Yoshishige Oyama, Mamoru Fujieda
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Patent number: 4310476Abstract: An apparatus for heating fluids to a relatively high temperature, such as sterilization temperature, in which the fluid, such as a liquid, is heated by direct contact with steam while it is in the form of a very thin, free-falling film or a continuous falling stream so that heating of the fluid is accomplished without the fluid coming into contact with any surface and particularly metal surfaces which are hotter than the fluid product being heated and with minimum agitation and turbulence of the fluid product. This procedure enables maximum and uniform heat penetration in a minimum time interval with the film or stream being maintained as thin as possible and unbroken by introducing steam at a relatively low velocity in a large volume vessel.Type: GrantFiled: October 10, 1979Date of Patent: January 12, 1982Assignee: Dasi Industries, Inc.Inventors: John E. Nahra, Walter Woods
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Patent number: 4308040Abstract: Apparatus, particularly adapted to the removal of odorous constituents from waste gas streams, is described. The apparatus comprises a treatment vessel or chamber preferably of cylindrical shape containing a coaxially-mounted exhaust duct which serves also as a columnar support for the chamber top or roof. An odorous gas is introduced tangentially into an upper portion of the reactor and is caused to move in a spiral flow around the central column and to exahust through an exit port into the central duct adjacent the chamber floor. An arcuate, spiral baffle is mounted on the chamber floor and extends continuously from the inner vessel wall to the central duct thereby directing gas flow into the exit port to reduce pressure drop through the treatment chamber. A finely divided spray of a reagent reactive toward the odorous compound is introduced into the chamber through nozzles ringing the chamber wall or mounted in the chamber roof.Type: GrantFiled: February 20, 1981Date of Patent: December 29, 1981Assignee: Quad Environmental Technologies Corp.Inventors: Harold J. Rafson, Egbert deVries
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Patent number: 4302226Abstract: Apparatus, particularly adapted to the removal of odorous constituents from waste gas streams, is described. The apparatus comprises a treatment vessel or chamber preferably of cylindrical shape containing a coaxially-mounted exhaust duct which serves also as a columnar support for the chamber top or roof. As odorous gas is introduced tangentially into an upper portion of the reactor and is caused to move in a spiral flow around the central column. A finely-divided spray of a reagent reactive toward the odorous compound is introduced into the chamber through nozzles ringing the chamber wall or mounted in the chamber roof. Reagent droplets coalesce on the chamber floor and are removed from the vessel. The treated gas exhausts up the central duct through openings located near the bottom thereof.Type: GrantFiled: December 14, 1979Date of Patent: November 24, 1981Assignee: Quad Environmental Technologies Corp.Inventors: Harold J. Rafson, Egbert deVries
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Patent number: 4287138Abstract: A method is disclosed for recovering and reclaiming heat from a source of relatively hot gases, which are preferably substantially vapor-saturated, by directly contacting the gases with a relatively cooler spray of liquid, such as water, in a heat exchange zone. The relatively warm liquid resulting from the contact of the sprayed cooler liquid with the vapor-saturated gases are collected in a receiver zone in the heat exchanger. This relatively warm liquid is then available for use. The hot gases which entered the heat exchanger will exit at a cooler temperature. They may be released to the atmosphere or returned to a process or room. The method is particularly suited for recovering heat from steam system condensate vents, dye fixation steamer exhausts, boiler exhaust stacks, and dry can enclosures such as those used in the textile and paper industry.Type: GrantFiled: March 5, 1980Date of Patent: September 1, 1981Inventor: Lynn A. Buckner
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Patent number: 4279628Abstract: An improved method and apparatus for drying a natural gas stream such as water containing natural gas introduces triethylene glycol into a high speed gas stream at a pressure in excess of that of the gas stream to achieve a drying effect by impaction and rapid expansion and turbulence in a mixing zone. The triethylene glycol and water are removed by a centrifugal separator.Type: GrantFiled: December 31, 1979Date of Patent: July 21, 1981Assignee: Energy Synergistics, Inc.Inventors: Robert L. Wymer, Perry Prater
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Patent number: 4278619Abstract: The steam throttle valve has a number of water injection ducts distributed around the valve axis within a thin-walled hollow member which extends around the valve axis. A thin-walled water supply duct in a bore in the valve casing cover supplies water to the hollow member. The member is annular and is retained between two assembled parts of the valve, namely the cover and a valve cage. Constructing the ducts in this way obviates thermal stress cracking near them.Type: GrantFiled: August 21, 1980Date of Patent: July 14, 1981Assignee: Sulzer Brothers Ltd.Inventor: Edelbert Tiefenthaler
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Patent number: 4275020Abstract: A dissolving tank for dissolving a large amount of gas in a liquid and including a generally horizontally disposed tray (28) (29) mounted within the tank (2) (21) to divide the tank (2) (21) into an upper reaction zone (36) and a lower discharge zone (38). The tray (28) (29) has formed therein both a central opening (34) (35) for fluid communication between the discharge zone (38) and the reaction zone (36) and peripheral openings (32) (33) which allow any liquid which collects on the tray (28) (29) to flow from reaction zone (36) to discharge zone (38). The dissolving tank further includes liquid feed means (10) positioned within the tank (2) (21) below the tray (28) (29) to discharge liquid upwardly through the central opening (34) (35) of the tray (28) (29) and into the reaction zone (36). The dissolving tank further includes liquid distribution means (14) mounted within the tank (2) (21) above the tray (28) (29) and having flared sidewalls (15) and a vertically-oriented distribution orifice (16).Type: GrantFiled: September 20, 1978Date of Patent: June 23, 1981Assignee: Envirotech CorporationInventors: David DiGregorio, Daniel McCarthy, Keith J. Mounteer, Charles D. Thompson
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Patent number: 4267131Abstract: Intimate contacting of plural, physically disparate phases is achieved by establishing a current of axially extending, axially symmetrical helical flow of a first phase; separately establishing a current of coaxially extending, rectilinear flow of a physically disparate second phase, the currents of said first and said second phases being maintained physically separated from each other; circulating and directing said currents which comprise the plural phases to a zone of restricted flow passage with respect to said helical flow, whereby said plural currents converge and are intimately, homogeneously admixed and whereas such zone of convergence the momentum of the first phase helical flow is at least 100 times greater than the momentum of the second phase, coaxial rectilinear flow; and thence abruptly changing the velocity field of at least one of said plural phases, while at the same time maintaining the general direction of flow of said admixed plural phases, and whereby phase separation of the product of adType: GrantFiled: February 21, 1979Date of Patent: May 12, 1981Assignee: Rhone-Poulenc IndustriesInventors: Francois Prudhon, Augustin Scicluna
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Patent number: 4265702Abstract: The drying and dehydration of heat-sensitive materials is improved by submitting such materials to a second thermal treatment following their initial flash treatment. The method is particularly applicable to the treatment of foodstuffs.Type: GrantFiled: March 12, 1979Date of Patent: May 5, 1981Assignee: Rhone-Poulenc IndustriesInventors: Francois Prudhon, Augustin Scicluna
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Patent number: 4265840Abstract: A vapor-air humidifier for air climatizing or conditioning installations is disclosed which comprises a double-wall vapor distributor pipe defining vapor exhaust pipe means. By means of a jacket chamber or space, heated by the vapor or steam, the internal space or chamber of the vapor-air humidifier remains free of condensate due to cooling of the air current. The vapor transfered to the air current is thus removed from the internal space which is free of condensate and there is prevented any spraying of water of condensation. Since vapor exhaust elements are arranged along the exhaust pipe means and are distributed over the entire channel cross-section of the humidifier, there is avoided the formation of vapor layers.Type: GrantFiled: September 18, 1979Date of Patent: May 5, 1981Inventor: Paul Bahler
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Patent number: 4263234Abstract: Intimate contacting of plural, physically disparate phases is achieved by establishing a current of axially extending, axially symmetrical helical flow of a first phase; separately establishing a current of coaxially extending, rectilinear flow of a physically disparate second phase, the currents of said first and said second phases being maintained physically separated from each other; circulating and directing said currents which comprise the plural phases to a zone of restricted flow passage with respect to said helical flow, whereby said plural currents converge and are intimately, homogeneously admixed and whereat such zone of convergence the momentum of the first phase helical flow is at least 100 times greater than the momentum of the second phase, coaxial rectilinear flow such as to effect atomization via transfer of momentum, and ultimately effecting phase separation of the product of admixture.Type: GrantFiled: April 10, 1979Date of Patent: April 21, 1981Assignee: Rhone-Poulenc IndustriesInventors: Francois Prudhon, Augustin Scicluna, Jean-Michel Verdier
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Patent number: 4260563Abstract: A purifying system is disclosed for the removal of small particles of impurities from a gaseous mixture flowing in a conduit, including a venturi connected in series in the conduit, a liquid injection device for introducing jets of liquid to produce a liquid mist pattern extending transversely within the venturi to moisturize the small particles of impurities, and a regulator operable in response to the pressure differential across the venturi for adjusting the effective cross-section of the venturi and/or the operation of the injection device, thereby to maintain the pressure differential across the venturi at a predetermined value.Type: GrantFiled: January 12, 1979Date of Patent: April 7, 1981Assignee: Societe Sacilor, Acieries et Laminoirs de LorraineInventor: Paul Brulhet
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Patent number: 4248806Abstract: An apparatus for producing oxygen-free combustion gases, comprising a combustion chamber provided with a cooling jacket or shell and wherein liquid or gaseous hydrocarbons are burnt with combustion air and subsequently cooled through spray cooling by water introduced through nozzles into the rear portion of the combustion chamber, whereupon secondary cooling and scrubbing take place within a secondary cooling zone subsequent to the plenum chamber of said combustion chamber and provided with a plurality of gas outlet ports. That spray heads are arranged in the region of said gas outlet port(s), to produce a spray stream or jet directed to said outlet ports. A chamber is connected to said outlet port which chamber is surrounded by a wall provided with at least one gas outlet port, with the stream or jet of said spray heads being aligned with said gas outlet ports.Type: GrantFiled: February 27, 1979Date of Patent: February 3, 1981Assignee: Holec Gas GeneratorsInventors: Johannes W. Graat, Hans T. Remie
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Patent number: 4238461Abstract: Odoriferous constituents are removed from relatively dry and/or warm gas streams by contacting the gas with a very finely divided aqueous spray containing a reagent reactive toward the odoriferous constituents of the gas. Droplet size of the aqueous spray is controlled as a function of temperature and relative humidity of the gas stream so as to prevent complete evaporation of liquid droplets and to achieve a maximum droplet size after evaporation of about ten microns.Type: GrantFiled: September 28, 1979Date of Patent: December 9, 1980Assignee: Quad CorporationInventor: Egbert Devries
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Patent number: 4220613Abstract: A liquid feeder comprises an assembly of chemicals-feeding nozzles, each of which is fabricated by securing wall members, having nozzle holes each, between pairs of adjacent tubes, thereby forming a boxlike nozzle. The tubes are those of a flow path or circuit through which the fluid in a boiler or preboiler unit is taken out and is returned to either unit. The liquid feeder is intended for use with various plants, especially boiler plants.Type: GrantFiled: March 5, 1979Date of Patent: September 2, 1980Assignee: Mitsubishi Jukogyo Kabushiki KaishaInventors: Yasufumi Nakajima, Hayami Nakatani
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Patent number: 4168958Abstract: A cleaner for the products of combustion in a smoke stack in the form of a vertically elongated chamber having a multiplicity of inclined baffles extending from opposite sides of the chamber to beyond the center line thereof and water spray devices located intermediate of each pair of vertically spaced baffles. In the preferred form, the baffles are inclined inwardly and upwardly, so that water from the nozzles flows to the outer edges of each baffle where it is connected to a drain.Type: GrantFiled: February 8, 1978Date of Patent: September 25, 1979Inventor: Eugene W. Hartman
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Patent number: 4158702Abstract: Method and apparatus for treating gases by passing said gases horizontally through a plurality of spray zones wherein the gases are contacted in each spray zone with scrubbing medium in a plurality of vertically disposed bays; utilizing a scrubbing medium of varied concentration or chemical reactivity between the adjacent spray zones and bays; combining and reamalgamating the spray medium and re-spraying said amalgamated medium in one or more spray zones and bays.Type: GrantFiled: August 9, 1976Date of Patent: June 19, 1979Assignee: Joy Manufacturing CompanyInventor: William E. Archer
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Patent number: 4138217Abstract: A carbon black reactor is comprised of a housing which defines a precombustion zone, a reaction zone and a quench zone which are in flow communication. Inlet means open into the precombustion zone or the reaction zone and is operable to introduce make hydrocarbon into the reactor. Also, inlet means open into the precombustion zone and is operable for the introduction of hot combustion gases into the precombustion zone. The make hydrocarbon is pyrolyzed by contact with the hot combustion gases as same flow along the reaction zone. After a predetermined time as determined by the length of flow along the reaction zone, the effluent produced by the pyrolysis of the make hydrocarbon by contact with the combustion gases is quenched to stop the reaction.Type: GrantFiled: February 1, 1977Date of Patent: February 6, 1979Assignee: Phillips Petroleum CompanyInventors: John E. Slagel, Allen C. Howard
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Patent number: 4130611Abstract: An attemperator in the form of a steam desuperheater is disclosed herein and comprises a water tube adapted to be connected to a source of water under high pressure and a spray tube communicating with the water tube through a flow-control device for controlling the flow of water from the water tube to the spray tube. The spray tube is adapted to be located in a steam line for injecting cooling water into the steam when its temperature exceeds a predetermined temperature and accordingly is formed with one or more nozzles for injecting a spray of water travelling along an expanding swirling path into the steam, the water being atomized into small droplets which easily evaporate in the steam. Preferably, a plurality of nozzles are provided arranged in rows extending axially of the spray tube and the rows are circumferentially spaced apart. Also, the nozzles preferably communicate with the inside of the spray tube through a series of small ports.Type: GrantFiled: December 6, 1976Date of Patent: December 19, 1978Assignee: Yarway CorporationInventor: Warren H. Brand
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Patent number: 4115072Abstract: A fluids spraying assembly for use with pressure vessels, the assembly being adapted to permit the spraying head to be retracted for inspection and replaced in spraying use without leakages of gases from the pressure vessel.Type: GrantFiled: April 7, 1977Date of Patent: September 19, 1978Assignee: Chevron Research CompanyInventor: William C. Nielsen
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Patent number: 4072470Abstract: A sulfonation apparatus comprising a gas feeder for feeding a first stream of SO.sub.3 -containing gas and a second stream of inert gas into contact with an annular film of sulfonatable material.Type: GrantFiled: March 23, 1977Date of Patent: February 7, 1978Assignee: Kao Soap Co., Ltd.Inventors: Keiichi Tsuto, Kanji Majima, Toshio Hirasaka
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Patent number: 4051211Abstract: A process and apparatus is described by means of which the pollution of the surrounding atmosphere by the fumes of isocyanate, liberated during the continuous formation of isocyanate-based polymer foam bunstock, is minimized. The bunstock, after the foam rise and gelation is completed, is passed through a zone, installed on the bunstock conveyor, in which the foam is subjected to the action of a fine mist of water sprayed on to the top and sides of the foam bunstock. The application of water in this manner does not affect the properties or appearance of the foam and any excess water coating the surface of the foam evaporates during the remainder of the passage of the bunstock down the conveyor. The above procedure is particularly applicable to the production of foam bunstock which is based on the highly volatile toluene diisocyanate.Type: GrantFiled: May 20, 1976Date of Patent: September 27, 1977Assignee: The Upjohn CompanyInventors: William Beser, Edwin R. Cole
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Patent number: 3983192Abstract: The arrangement includes a plurality of vertical water pipes with nozzles arranged on the pipes in a manner to minimize interaction between the water droplets coming from the nozzles. The arrangement consists of a plurality of spaced vertical water pipes arranged about a central area with a plurality of vertically spaced water nozzles located on each pipe. The nozzles on each vertical pipe are located along different horizontal planes from the nozzles on the adjacent vertical pipes.In another arrangement the vertically spaced nozzles on each vertical water pipe are circumferentially spaced from each vertically adjacent nozzle. Groups of vertical water pipes may be concentrically arranged about the central area with the spacing between the groups, the spacing of the vertical water pipes in each group and the location of the nozzles minimizing the interaction of the water droplets from the nozzles.Type: GrantFiled: April 9, 1975Date of Patent: September 28, 1976Assignee: Ingersoll-Rand CompanyInventor: Robert J. Stoker
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Patent number: 3981156Abstract: A method of recovering vapors from exhausts or vents of containers of volatile substances comprising the steps of: providing a scrubber for connection to the vapor space of the container to receive a flow of vapors therefrom; providing a reservoir of absorber fluid; cooling the absorber fluid; introducing the cooled absorber fluid into the scrubber for intimate contact with the flow of vapors therethrough; and returning the vapors absorbed by the cooled absorber fluid to the container. The scrubber may include a spray nozzle adapted to spray cooled absorber fluid in a direction generally concurrent with the flow of vapors. Alternate methods of returning absorbed vapors to the container are disclosed.Type: GrantFiled: February 3, 1975Date of Patent: September 21, 1976Assignee: Ecology Control, Inc.Inventors: Jerry L. Modisette, Otto F. Schkade
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Patent number: RE32695Abstract: A process for heating fluids to a relatively high temperature, such as sterilization temperature, in which the fluid, such as a liquid, is heated by direct contact with steam while it is in the form of a very thin, free-falling film or a continuous falling stream so that heating of the fluid is accomplished without the fluid coming into contact with any surface and particularly metal surfaces which are hotter than the fluid product being heated and with minimum agitation and turbulence of the fluid product. This procedure enables maximum and uniform heat penetration in a minimum time interval with the film or stream being maintained as thin as possible and unbroken by introducing steam at a relatively low velocity in a large volume vessel.Type: GrantFiled: December 12, 1985Date of Patent: June 14, 1988Assignee: DASI Industries, Inc.Inventors: John E. Nahra, Walter Woods