In-line Motive Fluid Flows Patents (Class 417/170)
-
Patent number: 10626888Abstract: Venturi devices and systems incorporating the same are disclosed. The Venturi devices include a lower body defining a passageway having a motive section and a discharge section spaced a distance apart from one another to define a first Venturi gap and a second Venturi gap downstream of the first Venturi gap at a position that divides the discharge section into a first portion between the first and second Venturi gaps and a second portion leading away from the second Venturi gap, and include an upper body defining a suction passageway in fluid communication with both the first and second Venturi gaps. The motive section and the discharge section converge toward the first Venturi gap.Type: GrantFiled: July 10, 2015Date of Patent: April 21, 2020Assignee: Dayco IP Holdings, LLCInventors: David E. Fletcher, Brian M. Graichen, Keith Hampton
-
Patent number: 9816367Abstract: Embodiments of an apparatus, a system, and a method are provided for deliquification of a production well. The apparatus can be a production tube that receives produced fluid from a subterranean reservoir and provides a pathway for transmission of the produced fluid to a surface location. The production tube includes a nozzle disposed therewithin and an opening positioned proximate to the nozzle through which a foaming agent is introduced into the production tube. The nozzle has a first end that defines an inlet, a second end distal to the first end that defines an outlet, and a passageway extending between the first end and the second end such that the produced fluid received by the inlet is delivered to the outlet. The passageway defines a region of decreased cross-sectional area that agitates the produced fluid passing through the nozzle thereby increasing mixing of the foaming agent.Type: GrantFiled: August 20, 2014Date of Patent: November 14, 2017Assignee: CHEVRON U.S.A. INC.Inventors: Jose Luis Arellano, Emee Ermel
-
Patent number: 9593502Abstract: A swimming pool cleaner including a body having a debris inlet and a debris outlet and defining an elongate slotted cavity pivotably holding proximal ends of flap members forming a segmented skirt which forms with the pool surface a plenum from which water and debris are drawn into the inlet. The slotted cavity is configured for strain-free insertion of the flap-member proximal ends into the cavity. A removable nozzle within the debris inlet and retaining the flap-member proximal ends in the cavity. A method for inlet to control debris-laden water flow. The cleaner further including a tool-free nozzle-mounting structure at the debris inlet removably retaining the nozzle within the debris inlet and a tool-free wheel-mounting assembly. a plurality of removable nozzles are interchangeably secured within the debris inlet, each nozzle having a flow opening sized differently from flow opening(s) of the other nozzle(s) to control debris-laden water flow.Type: GrantFiled: September 26, 2012Date of Patent: March 14, 2017Assignee: Hayward Industries, Inc.Inventors: Dieter J. Rief, Hans Rainer Schlitzer
-
Patent number: 9239063Abstract: A fluid mover includes a hollow body with a straight-through passage of substantially constant cross-section with an inlet end an outlet end for the entry and discharge respectively of a working fluid. A nozzle substantially circumscribes and opens into the passage intermediate the inlet and outlet ends. An inlet communicates with the nozzle for the introduction of a transport fluid, and a mixing chamber is formed within the passage downstream of the nozzle. The nozzle internal geometry and the bore profile upstream of the nozzle exit optimize the energy transfer between the transport fluid and working fluid. Working fluids are atomized to form a dispersed vapor/droplet flow with locally supersonic conditions within a pseudo-vena contracta, resulting in the creation of a supersonic condensation shock wave within the downstream mixing chamber by the condensation of the transport fluid. Methods of moving and processing fluids using the fluid mover are also disclosed.Type: GrantFiled: April 12, 2013Date of Patent: January 19, 2016Assignee: Pursuit Marine Drive LimitedInventors: Marcus Brian Mayhall Fenton, Alexander Guy Wallis
-
Patent number: 9174178Abstract: A mixing assembly for use in a semi-continuous process for producing liquid personal care compositions, such as shampoos, includes a main feed tube carrying a base of the composition to be produced, a plurality of injection tubes in selective fluid communication with the main feed tube, and an orifice provided in a wall at an end of the main feed tube downstream of the plurality of injection tubes. The wall in which the orifice is provided includes a curved (e.g., semispherical) entry surface on an upstream or inlet side of an orifice, and a curved (e.g., semi-elliptical) exit surface on a downstream or outlet side of the orifice. The orifice may have a rectangular or elliptical shape. By maintaining symmetry of the injection tubes with respect to the orifice, and leveraging delay between introduction of dosed modules and increased viscosity, effective mixing may be achieved with minimal energy.Type: GrantFiled: June 9, 2011Date of Patent: November 3, 2015Assignee: The Procter & Gamble CompanyInventors: Jason Andrew Berger, David Scott Dunlop, Yunpeng Yang, Douglas Allan Royce, Dawn Renee Knapek
-
Publication number: 20150023809Abstract: An ejector includes a nozzle having a fluid passage circular in cross section. The fluid passage includes a throat portion smallest in cross-sectional area, a divergent portion that becomes larger in cross-sectional area toward a downstream side from the throat portion, and an ejection port that is provided at a downstream end of the divergent portion. A passage wall surface of the divergent portion includes a recess portion that is recessed from within outward in a radial direction of the passage wall surface. The recess portion is located adjacent to the ejection port, and the recess portion extends continuously in a circumferential direction of the passage wall surface to enclose the fluid passage and have an annular shape. Accordingly, noise due to an expansion wave of the ejected fluid can be reduced.Type: ApplicationFiled: February 21, 2013Publication date: January 22, 2015Inventors: Etsuhisa Yamada, Haruyuki Nishijima
-
Patent number: 7452191Abstract: According to the invention, a vacuum pump is disclosed comprising a screw-rotor pump having a compression section (8) and an expansion section (7), and wherein a discharge (10) from the compression section communicates with at least one ejector (1) for discharge of compressed gas through the ejector, and wherein the expansion section (7) is connectable via a first valve means (5), to a drive-gas source (P) for operating the screw,-rotor pump and the ejector in parallel. Also, a method for providing sub-pressure to an industrial process is disclosed wherein at least one ejector (1) is used initially to reduce the pressure to a predetermined lower level, from where the pressure is further reduced by means of a screw-rotor pump (7, 8) that is arranged to operate through, and in parallel with the ejector.Type: GrantFiled: April 29, 2003Date of Patent: November 18, 2008Assignee: PIAB ABInventor: Peter Tell
-
Patent number: 6685439Abstract: A hydraulic jet pump comprising: a nozzle housing; a nozzle member disposed within said nozzle housing and including an inlet aperture communicating through a jet nozzle with a mixing chamber along a power fluid inlet flow path; a deflector member including an axial bore formed partially therethrough from an input aperture at a first end thereof towards a second end thereof, said input aperture communicating with said mixing chamber, said deflector member further including a plurality of radially-disposed deflector outlet ports communicating with said axial bore and disposed at an acute angle with respect to said input aperture to form a flow path having an output flow direction disposed at an acute angle with respect to an input flow direction from said input aperture, said deflector member further including a plurality of axially-aligned vacuum inlet ports formed therethrough from said first end to said second end and in communication with said mixing chamber but not with said deflector outlet ports.Type: GrantFiled: May 15, 2002Date of Patent: February 3, 2004Inventors: Gary Harrell, Jerry Andrews, Jimmy Jones
-
Patent number: 6415608Abstract: A catalytic combustor assembly which includes, an air source, a fuel delivery means, a catalytic reactor assembly, a mixing chamber, and a means for igniting a fuel/air mixture. The catalytic reactor assembly is in fluid communication with the air source and fuel delivery means and has a fuel/air plenum which is coated with a catalytic material. The fuel/air plenum has cooling air conduits passing therethrough which have an upstream end. The upstream end of the cooling conduits is in fluid communication with the air source but not the fuel delivery means.Type: GrantFiled: September 26, 2000Date of Patent: July 9, 2002Assignee: Siemens Westinghouse Power CorporationInventor: Donald Maurice Newburry
-
Patent number: 6162021Abstract: A device for co-mingling fluids from separate sources comprises a jet pump having high and low pressure fluid inlets, and a main outlet for discharging a mixture of the two fluids. A phase separator, receiving fluid from another source of fluid, has a fluid-rich outlet connected to the high pressure inlet of the jet pump, and a gas-rich outlet connected to the main outlet of the jet pump. Fluids from the gas-rich outlet of the separator are mixed with fluids discharged by the jet pump.Type: GrantFiled: September 30, 1996Date of Patent: December 19, 2000Assignee: B.H.R. Group LimitedInventors: Mir Mahmood Sarshar, Emil Gyorgy Arato, Michael Thomas Ralph Butcher
-
Patent number: 6042340Abstract: An fluid handling device (10) having an elongate tubular body which defines a through bore (20) between an inlet end (13) and an outlet end (14) of the body. The device also includes first and second annular chambers (30,38), each of which extends substantially concentrically around the bore (20), the first chamber (30) being in communication with the bore (20) via a first set of passages (48) spaced circumferentially around the bore (20), and the second chamber (38) being in communication with the bore (20) via a second set of passages (49) spaced circumferentially around the bore (20). The passages (48,49) of each set communicate with the bore (20) at a respective axial location (45,46) intermediate the ends (13,14) of the bore (20), with the location (46) for the second set (49) being between the location (45) for the first set (48) and the outlet end (14) of the housing, and each passage of each set (48,49) having an opening into the bore (20) which faces towards the outlet end (14) of the body.Type: GrantFiled: August 8, 1997Date of Patent: March 28, 2000Inventor: John Stanley Melbourne
-
Patent number: 5839884Abstract: A supersonic device including an elongated mixer-diffuser housing having first and second drive nozzles arranged axially and tandemly therein. The first and second drives nozzles are arranged in first and second cylinder parts, respectively, of the mixer-diffuser housing. A conical first mixer part is disposed between the first and second cylinder parts and defines a first mixing zone therein. The second drive nozzle further comprises a generally conical displacement body, preferably configured as a supersonic cone or wedge, which extends into the conical first mixer part.Type: GrantFiled: March 18, 1997Date of Patent: November 24, 1998Assignee: Mannesmann AGInventor: Alfred E. Beylich
-
Patent number: 4815942Abstract: An axially symmetric jet difuser ejector having attached primary injection nozzles without protruding outside the ejecting structure and being spaced around the ejector inlet. The primary nozzles have been specially designed to optimize the conveyance of fluids therethrough and the flow of ingested fluids therearound. The diffuser jet nozzle is provided with a strainer to prevent clogging of the narrow diffuser jet slots.Type: GrantFiled: October 25, 1982Date of Patent: March 28, 1989Assignee: Elayne P. AlperinInventors: Morton Alperin, Jiunn-Jenq Wu
-
Patent number: 4310288Abstract: To improve the erosion resistance of the mixing chamber of a jet pump employed to pump particulate containing fluids, this invention contemplates directing a pressurized source of clean fluid through an annular jet-type orifice, thus providing an annular jet of high velocity clean fluid at the inlet end of the mixing chamber which surrounds an orifice connected to the source of particulate containing fluid and effects the pressurizing and pumping of the particulate containing fluid by the well known jet diffusion technique. Additionally, this invention contemplates the provision of a second annular nozzle surrounding the first mentioned annular nozzle through which a relatively clean fluid is discharged, thereby interposing a clean fluid barrier between the momentumly transferred particulate containing fluid and the surface of the mixing chamber to protect such surface from the abrading effects of the particulate material.Type: GrantFiled: March 23, 1979Date of Patent: January 12, 1982Assignee: Kobe, Inc.Inventor: John W. Erickson
-
Patent number: 4171187Abstract: An air injection sub for use with a dual conduit drill pipe string is provided having inner and outer concentric tubular members which are connected to the corresponding inner and outer conduits of a dual conduit string to provide isolated annular and central passageways and is particularly characterized by improved injection means in the inner tubular member which allows fluid to pass from the annular passageway into the central passageway through a plurality of apertures which open into the central passageway at a plurality of levels and angular positions, is field adjustable and provides improved erosion resistance.Type: GrantFiled: July 28, 1977Date of Patent: October 16, 1979Assignee: Walker-Neer Manufacturing Co., Inc.Inventor: Thomas C. Reed