A wellbore servicing system disposed at a wellbore, the wellbore servicing system comprising at least one wellbore servicing equipment component, wherein a flow path extends from the wellbore servicing system component into the wellbore, and a flow-back control system, wherein the flow-back control
A wellbore servicing system disposed at a wellbore, the wellbore servicing system comprising at least one wellbore servicing equipment component, wherein a flow path extends from the wellbore servicing system component into the wellbore, and a flow-back control system, wherein the flow-back control system is disposed along the flow path, and wherein the flow-back control system is configured to allow fluid communication via the flow path in a first direction at not less than a first rate and to allow fluid communication via the flow path in a second direction at not more than a second rate, wherein the first rate is greater than the second rate.
대표청구항▼
1. A wellbore servicing system disposed at a wellbore, the wellbore servicing system comprising: at least one wellbore servicing equipment component, wherein a wellbore servicing flow path extends from the wellbore servicing equipment component into the wellbore,a flow-back control system, wherein t
1. A wellbore servicing system disposed at a wellbore, the wellbore servicing system comprising: at least one wellbore servicing equipment component, wherein a wellbore servicing flow path extends from the wellbore servicing equipment component into the wellbore,a flow-back control system, wherein the flow-back control system is disposed along the wellbore servicing flow path to allow fluid communication in a first direction and a second direction, and wherein the flow-back control system is configured to allow fluid communication via the wellbore servicing flow path in the first direction at not less than a first rate and to allow fluid communication via the wellbore servicing flow path in the second direction at not more than a second rate, wherein the first rate is greater than the second rate;wherein the flow-back control system comprises a fluidic diode disposed between a first conduit and a second conduit, wherein the fluidic diode defines a diode flow path, wherein the wellbore servicing flow path comprises the diode flow path, and wherein the first conduit and the second conduit are co-axial with the diode flow path, andwherein the second rate is between 10% and 90% of the first rate. 2. The wellbore servicing system of claim 1, wherein the wellbore servicing equipment component comprises a mixer, a pump, a wellbore services manifold, a storage vessel, or combinations thereof. 3. The wellbore servicing system of claim 1, wherein the first direction is into the wellbore. 4. The wellbore servicing system of claim 1, wherein the second direction is out of the wellbore. 5. The wellbore servicing system of claim 1, wherein the first rate is at least 1.5 times the second rate. 6. The wellbore servicing system of claim 5, wherein the first rate is at least 5 times greater than the second rate. 7. The wellbore servicing system of claim 1, wherein the second conduit comprises a high-resistance entry and the first conduit comprises a low-resistance entry. 8. The wellbore servicing system of claim 1, wherein the diode flow path comprises a primary diode flow path and one or more secondary diode flow paths, wherein flow in the first direction is along the primary diode flow path and flow in the second direction is along the one or more secondary diode flow paths. 9. The wellbore servicing system of claim 1, wherein the diode flow path comprises a plurality of projections or protrusions. 10. The wellbore servicing system of claim 1, wherein the diode flow path comprises a nozzle. 11. The wellbore servicing system of claim 1, wherein the diode flow path comprises a vortex chamber. 12. The wellbore servicing system of claim 1, wherein the flow-back control system comprises no moving parts. 13. The wellbore servicing system of claim 1, wherein movement of fluid through the fluidic diode in the second direction forms eddies, cross-currents, counter-currents, or combinations thereof, wherein the eddies, cross-currents, counter-currents, or combinations thereof interfere with fluid movement in the second direction. 14. A wellbore servicing method comprising: providing a wellbore servicing flow path between a wellbore servicing system and a wellbore penetrating a subterranean formation, wherein a flow-back control system comprising a fluidic diode is disposed along the wellbore servicing flow path between a first conduit and a second conduit to allow fluid communication in a first direction and a second direction, wherein the fluidic diode defines a diode flow path in fluid communication with the wellbore servicing flow path via the first and second conduits, wherein the diode flow path is co-axial with the first conduit and the second conduit; andcommunicating a fluid via the flow path in the first direction at not less than a first rate,allowing a fluid to flow through at least a portion of the wellbore servicing flow path in a second direction at a rate of not more than a second rate wherein the second rate is between 10% and 90% of the first rate. 15. The method of claim 14, wherein the first rate is at least two times the second rate. 16. The method of claim 14, wherein the first direction is into the wellbore and the second direction is out of the wellbore. 17. The method of claim 14, wherein movement of fluid has a lower resistance through the fluidic diode in the first direction than in the second direction. 18. The method of claim 14, wherein movement of fluid has a higher resistance through the fluidic diode in the second direction than through the flow path in the first direction. 19. The method of claim 14, wherein movement of fluid through the fluidic diode in the first direction is continuous and uninterrupted. 20. The method of claim 14, wherein movement of fluid through the fluidic diode in the second direction forms eddies, cross-currents, counter-currents, or combinations thereof, wherein the eddies, cross-currents, counter-currents, or combinations thereof interfere with fluid movement in the second direction.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (326)
Bowles ; Romald E., Acceleration controlled fluidic shock absorber.
Birchak,James R.; Ritter,Thomas E.; Mese,Ali I.; van Batenburg,Diederik; Trainor,William; Han,Wei; Yoo,Kwang; Kusmer,Daniel P.; Proett,Mark A.; van der Bas,Ferdinand; van der Sman,Peter; Groenenboom,, Acoustic stimulation method with axial driver actuating moment arms on tines.
Birchak,James R.; Ritter,Thomas E.; Mese,Ali I.; van Batenburg,Diederik; Trainor,William; Han,Wei; Yoo,Kwang; Kusmer,Daniel P.; Proett,Mark A.; van der Bas,Ferdinand; van der Sman,Peter; Groenenboom,, Acoustic stimulation tool with axial driver actuating moment arms on tines.
Schultz,Roger L.; Michael,Robert K.; Dagenais,Pete C.; Fripp,Michael L.; Tucker,James C., Apparatus and method for creating pulsating fluid flow, and method of manufacture for the apparatus.
Steven G. Streich ; James C. Tucker ; James R. Birchak ; Paul F. Rodney ; Neal G. Skinner, Apparatus and method for removing a frangible rupture disc or other frangible device from a wellbore casing.
Titus Charles H. (Newtown Sq. PA) Wittle John K. (Chester Springs PA) Bell Christy W. (Berwyn PA), Apparatus for passing electrical current through an underground formation.
Brown Neuberne H. (1495 S. Beach Rd. Hobe Sound FL 33455), Apparatus for recovering, separating, and storing fluid floating on the surface of another fluid.
Stephenson Stanley V. (Duncan OK) Dant Ronald E. (Duncan OK) Toellner Robert L. (Duncan OK) Arnold Edward P. (Duncan OK) Van Le Thuong (Duncan OK) Berryman Leslie N. (Duncan OK), Apparatus, method and system for monitoring fluid.
Stephenson Stanley V. (Duncan OK) Dant Ronald E. (Duncan OK) Toellner Robert L. (Duncan OK) Arnold Edward P. (Duncan OK) Van Le Thuong (Duncan OK) Berryman Leslie N. (Duncan OK), Apparatus, method and system for monitoring fluid.
Stephenson, Stanley V.; Dant, Ronald E.; Toellner, Robert L.; Arnold, Edward P.; Van Le, Thuong; Berryman, Leslie N., Apparatus, method and system for monitoring fluid.
Badalamenti, Anthony M.; Turton, Simon; Blanchard, Karl W.; Faul, Ronald R.; Crowder, Michael G.; Rogers, Henry E.; Griffith, James E.; Reddy, B. Raghava, Casing shoes and methods of reverse-circulation cementing of casing.
Naegele Phillip N. (Duncan OK) Dant Ronald E. (Duncan OK) Dieball Kent J. (Duncan OK) Stephenson Stanley V. (Duncan OK) Padgett Paul O. (Duncan OK), Cement mixing and pumping system and method for oil/gas well.
Stephenson, Stanley V.; Donaghe, Charles D.; Horinek, Herbert J.; Blanchard, Karl W.; Pritchard, Neil A.; Browning, Jerry N.; Hanton, John, Cement mixing system simulator and simulation method.
Bussear Terry R. ; Weightman Bruce,GBX ; Aeschbacher ; Jr. William E. ; Krejci Michael F. ; Rothers David ; Jones Kevin, Computer controlled downhole tools for production well control.
Bridges Jack E. (Park Ridge IL) Dubiel George T. (Wood Dale IL) Bajzek Thomas J. (Wood Dale IL), Corrosion inhibition apparatus for downhole electrical heating.
Tubel Paulo ; Holcombe Michael Wayne ; Baugh John L. ; Mullins ; II Albert A. ; Ross Robert Chapman,GB6, Downhole apparatus for generating electrical power in a well.
Edwards, John E.; Le Gloahec, Ronan; Vercaemer, Claude J.; Hocquet, Philippe; Corre, Pierre-Yves; Vaidya, Nitin Y., Downhole flow control with selective permeability.
Grant, Alexander Angus; Almdahl, Per; Gramme, Per Eivind; Kjolberg, Sven Arne; Olsen, Bjarne; Sondtvedt, Terje, Downhole gas/water separation and re-injection.
Reig, Rapha?l; Bruxelle, David; Lavernhe, Philippe, Drain element comprising a liner consisting of hollow rods for collecting in particular hydrocarbons.
Schoenberg Robert G. (27 Everglades St. Kenner LA 70065), Electric and electro-hydraulic control systems for subsea and remote wellheads and pipelines.
Russell, Ronnie D.; Garcia, Luis A.; Garcia, Gonzalo A.; Bowen, Eddie G.; Banerjee, Sudiptya, Flow control device that substantially decreases flow of a fluid when a property of the fluid is in a selected range.
Dykstra, Jason D.; Fripp, Michael L.; Hamid, Syed, Flow path control based on fluid characteristics to thereby variably resist flow in a subterranean well.
Dykstra, Jason D.; Fripp, Michael L.; Hamid, Syed, Flow path control based on fluid characteristics to thereby variably resist flow in a subterranean well.
Goes Michael J. (221 Randolph Ave. Mine Hill ; Morris County NJ 07801) Schmidlin Albertus E. (28 High View Rd. Caldwell ; Essex County NJ 07006), Fluidic recoil buffer for small arms.
Van Meurs Peter (Houston TX) Van Egmond Cor F. (Houston TX), Formation-tailored method and apparatus for uniformly heating long subterranean intervals at high temperature.
Purkis, Daniel G.; Reid, Michael A.; Williamson, Jr., Jimmie Robert, Hydraulically operated fluid metering apparatus for use in a subterranean well, and associated methods.
B.o slashed.e Einar,NOX ; Haugerud Olav Sveinung,NOX ; Carlsen Hans-Paul,NOX, Inflow regulation device for a production pipe for production of oil or gas from an oil and/or gas reservoir.
Adams ; Jr. Harold P. (Oil City PA) Hill David R. (Oil City PA) Richey Lee M. (Franklin PA) Maitland Andrew B. (Cranberry PA) Banton William E. (Derry NH) Taylor David C. (Slippery Rock PA), Level sensor.
Adams ; Jr. Harold P. (Oil City PA) Maitland Andrew B. (Cranberry PA) Hill David R. (Oil City PA) Banton William E. (Derry NH) Richey Lee M. (Franklin PA) Taylor David C. (Slippery Rock PA), Level sensor.
Young Grant A. (Tulsa OK) Lister Roy D. (Keller TX) Wakley William D. (Broken Arrow OK) Andrews Steven L. (Tulsa OK), Liquid separator with tangential drive fluid introduction.
Hughes, W. James, Method and apparatus for inducing under balanced drilling conditions using an injection tool attached to a concentric string of casing.
Bouldin Brett W. (15802 St. Lawrence Ct. Friendswood TX 77546) Owens Steven C. (6019 Fernhollow Ct. Katy TX 77449) Rothers Dave E. (21717 Inverness Forest Blvd. #607 Houston TX 77073) Jones Kevin R. , Method and apparatus for providing controlled force transference to a wellbore tool.
Eastlund Bernard J. (Spring TX) Schmitt Kenneth J. (The Woodlands TX) Bass Ronald M. (Houston TX) Harrison John M. (Houston TX), Method and system for introducing electric current into a well.
Daling,Roelof; Droppert,Vincent Sebastiaan; Jansen,Johan Dirk; Wagenvoort,Arjen Michiel; Glandt,Carlos Alberto; Green Armytage,Duncan Ian, Method for controlling fluid flow into an oil and/or gas production well.
Facteau David M. (2601 Emerson Midland TX 79705) Cobb Timothy A. (1416 Sierra Springs ; #1815 Bedford TX 76021) Hyman Michael D. (2206 Madera Odessa TX 79763), Perforation cleaning tools.
Vinegar, Harold J.; Burnett, Robert Rex; Savage, William Mountjoy; Carl, Jr., Frederick Gordon; Hall, James William; Hirsch, John Michele, Permanent downhole, wireless, two-way telemetry backbone using redundant repeaters.
Vinegar, Harold J.; Burnett, Robert Rex; Savage, William Mountjoy; Carl, Jr., Frederick Gordon, Petroleum well having downhole sensors, communication and power.
Tholance Michel (Feucherolles FRX) Lessi Jacques (Maule FRX) Michel Jean-Paul (Vaucresson FRX), Process and device for hydraulically and selectively controlling at least two tools or instruments of a valve device all.
Ellingsen Olav (Floro NOX) Carvalho de Holleben Carlos Roberto (Rio de Janeiro BRX) de Castro Goncalves Carlos Alberto (Rio de Janeiro BRX) Bonet Euclides J. (Rio de Janeiro BRX) Villani de Andrade P, Process to increase petroleum recovery from petroleum reservoirs.
Edison David M. (Murrysville PA) Marton Fred S. (Monroeville PA) Ucovich John N. (San Jose CA), Remote monitoring and controlling system for subsea oil/gas production equipment.
Dusterhoft, Ronald G.; Thornton, Kim Vance; Ferguson, Carl Bismark; Simonds, Floyd Randolph; Grigsby, Tommy Frank; Richards, William Mark; Holderman, Luke William, Sand control screen assembly and method for use of same.
Echols Ralph H. ; Hamid Syed ; Fish David W. ; Presley Rex D. ; Harms Timothy E., Screened well drainage pipe structure with sealed, variable length labyrinth inlet flow control apparatus.
Ramos, Rogerio Tadeu; Theron, Bernard Elie; Reischer, Andrew J.; Murphy, William F.; Bryant, Ian David; Wilkinson, David J., Separation of oil-well fluid mixtures.
Weingarten Jean S. (Anchorage AK) Kolpak Miroslav M. (Dallas TX) Mattison Scott A. (Anchorage AK) Oba Ronald G. (Anchorage AK) Williamson M. Jane (Anchorage AK), Separator systems for well production fluids.
Schultz Roger L. (Richardson TX) Zitterich Craig L. (Corinth TX) Beck Harold K. (Copper Canyon TX) Bohan William L. (Garland TX), Shut-in tools and method.
Berryman Leslie N. (Duncan OK) Horinek Herbert J. (Duncan OK) Phillippi Max L. (Duncan OK) Prucha David A. (Duncan OK) Reidenbach Vincent G. (Duncan OK) Stephenson Stanley V. (Duncan OK), Slurry mixing apparatus.
Berryman Leslie N. (Duncan OK) Horinek Herbert J. (Duncan OK) Phillippi Max L. (Duncan OK) Prucha David A. (Duncan OK) Reidenbach Vincent G. (Duncan OK) Stephenson Stanley V. (Duncan OK), Slurry mixing apparatus.
Berryman Leslie N. (Duncan OK) Horinek Herbert J. (Duncan OK) Phillippi Max L. (Duncan OK) Prucha David A. (Duncan OK) Reidenbach Vincent G. (Duncan OK) Stephenson Stanley V. (Duncan OK), Slurry mixing apparatus.
Rubbo Richard P. (Bait Al-Na-Ba ; Den of Cults ; Aberdeen AB1 9NN Scotland GBX) Boundin Brett W. (4012 Cartagena Pearland TX 77581) Owens Steven C. (6019 Fernhollow Ct. Katy TX 77449), Surface controlled reservoir analysis and management system.
Bhogal, Kulvir S.; Boss, Gregory J.; Hamilton, II, Rick A.; Polozoff, Alexandre; Waters, Timothy M., System and method for measuring RFID signal strength within shielded locations.
Rodney,Paul F.; Groenenboom,Jeroen J.; Han,Wei; Birchak,James R.; Schmitt,Denis P.; Geerits,Tim W.; Linyaev,Eugene J., System and method for monitoring and removing blockage in a downhole oil and gas recovery operation.
Lehman,Lyle V.; Birchak,James R.; Venditto,James S.; van Batenburg,Diederik; Wong,Sau Wai; van de Bas,Frederick; Groenenboom,Jeroen J., System and method for scale removal in oil and gas recovery operations.
Head Philip (London GBX) Gullett Paul (Woolsthorpe-by-Colsterworth GBX) Wilmott Paul (London GBX), System for controlling the flow of fluid in an oil well.
Schutt William R. (R.D. 5 ; Curley Hill Rd. Doylestown PA 18901) Booth Stephen R. (13835 Cherry Hollow La. Houston TX 77082), System for installing continuous anode in deep bore hole.
Heitman, Chad; Stephenson, Stanley V.; Looper, David W.; Neal, Kenneth G., Systems and methods for specifying an operational parameter for a pumping system.
Dykstra, Jason D.; Fripp, Michael L., Variable flow resistance system with circulation inducing structure therein to variably resist flow in a subterranean well.
Bragg Gordon M. (Waterloo CAX) Carothers Richard G. (Puslinch CAX) MacLeod Kenneth A. (Newmarket MN CAX) Nelson Marvin D. (Hennepin MN), Vortex valve flow controller in VAV systems.
Wright, Adam D.; Fripp, Michael L.; Fink, Kevin D.; Perkins, Donald; Williamson, Jimmie R.; Kalman, Mark D., Well tools incorporating valves operable by low electrical power input.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.