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Exhaust gas aftertreatment systems 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • F01N-003/00
출원번호 US-0301276 (2002-11-21)
발명자 / 주소
  • van Nieuwstadt,Michiel J.
  • Upadhyay,Devesh
출원인 / 주소
  • Ford Global Technologies, LLC
대리인 / 주소
    Alleman Hall McCoy Russell &
인용정보 피인용 횟수 : 63  인용 특허 : 37

초록

A method is presented for estimating an amount of ammonia stored in a urea-based SCR catalyst based on a dynamic model of the catalyst. The model takes into account chemical and physical properties of the catalyst, such as catalyst volume, the number of available ammonia storage cites, adsorption an

대표청구항

The invention claimed is: 1. A method for estimating an amount of reductant stored in an exhaust gas aftertreatment device coupled downstream of an internal combustion engine, comprising: injecting reductant into the device to react with a component of an engine exhaust gas mixture; estimating the

이 특허에 인용된 특허 (37)

  1. Allen Cary P., Ammonia catalytic abatement apparatus and method.
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  2. Sudduth Bruce C. ; Slone Ralph J. ; Palekar Vishwesh ; Ramavajjala Madhu, Apparatus and method for reducing NOx from exhaust gases produced by industrial processes.
    상세보기
  3. Rembold Helmut (Stuttgart DEX) Dettling Hubert (Waiblingen DEX) Stutzenberger Heinz (Vaihingen DEX), Arrangement for treatment of exhaust gases for a compression-ignition internal combustion engine.
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  4. Schmelz Helmut,DEX, Catalytic converter for nitrogen oxide reduction in the exhaust gas of an internal combustion engine.
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  5. Vogtlin George E. ; Merritt Bernard T. ; Hsiao Mark C. ; Wallman P. Henrik ; Penetrante Bernardino M., Catalytic reduction system for oxygen-rich exhaust.
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  6. Joseph A. Patchett ; Rudolfus Petrus Verbeek NL; Karl Richard Grimston GB; Gary Wayne Rice ; John Lawrence Calabrese ; Mathijs Van Genderen NL, Control system for mobile NOx SCR applications.
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  7. Liang Cho Y. ; McCoy Steven R., Diagnostic system for an emissions control on an engine.
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  8. Twigg Martyn Vincent,GBX ; Wilkins Anthony John Joseph,GBX ; Will Nigel Simon,GBX, Emission control.
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  9. Suzuki Naoto,JPX ; Katoh Kenji,JPX, Emission control apparatus for internal combustion engine.
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  10. Hammerle Robert Henry ; Adams Karen Marie ; Laing Paul Matthew, Emission control system.
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  11. van Nieuwstadt Michiel Jacques ; Syed Fazal Urrahman. ; Vanderslice John H. ; Hashemi Siamak, Emission control system.
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  12. Upadhyay,Devesh; van Nieuwstadt,Michiel J., Exhaust gas aftertreatment systems.
    상세보기
  13. Isao Mochida JP; Akinori Yasutake JP; Toshihiko Setoguchi JP; Norihisa Kobayashi JP; Hitoshi Nakamura JP; Takahiro Kasuh JP; Masaaki Yoshikawa JP, Exhaust gas denitration method.
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  14. Hirota Shinya,JPX ; Tanaka Toshiaki,JPX ; Yoshizaki Kouji,JPX ; Ohashi Nobumoto,JPX ; Iwasaki Eiji,JPX ; Itoh Kazuhiro,JPX, Exhaust gas purification device for an internal combustion engine.
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  15. Itoh, Kazuhiro; Tanaka, Toshiaki; Iwasaki, Eiji; Hirota, Shinya, Exhaust gas purification device of internal combustion engine.
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  16. Goerigk, Christian; Wessels, Stefan, Exhaust-gas cleaning system with nitrogen oxide reduction and with the addition of reducing agent.
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  17. Xu, Lifeng; McCabe, Robert Walter, High efficiency conversion of nitrogen oxides in an exhaust aftertreatment device at low temperature.
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  18. Morsbach Bernd,DEX ; Daudel Helmut,DEX ; Gaertner Uwe,DEX, Lowering of the nitrogen oxide levels in exhaust gases by controlled addition of NH.sub.3.
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  19. Schmelz Helmut (Prien DEX), Method and apparatus for controlled introduction of a reducing agent into a nitrogen oxide-containing exhaust gas.
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  20. van Nieuwstadt, Michiel Jacques, Method and apparatus for controlling the amount of reactant to be added to a substance using a sensor which is responsive to both the reactant and the substance.
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  21. Matros Yurii Sh. ; Bunimovich Grigori A. ; Strots Vadim O., Method and apparatus for emission control.
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  22. Schmelz Helmut (Prien DEX), Method and apparatus for metering a reagent into a flowing medium.
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  23. Weigl Manfred,DEX, Method and device for exhaust gas after-treatment in an internal combustion engine equipped with an SCR catalyst.
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  24. Hermann Hahn DE, Method for controlling an NOx accumulating catalytic converter.
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  25. Jarvis Mottlene ; Adams Karen Marie, Method for converting exhaust gases from a diesel engine using nitrogen oxide absorbent.
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  26. Winfried Dolling DE; Lothar Hofmann DE, Method for the catalytic conversion of nitrogen oxides contained in the exhaust gas of an internal combustion engine.
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  27. Martin Richard J. ; Stilger John D. ; Holst Mark R. ; Young John D.,GBX ; Barkdoll Michael P. ; Edgar Bradley L., Method of reducing internal combustion engine emissions, and system for same.
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  28. Kato Nobuhide,JPX ; Kurachi Hiroshi,JPX, Method of removing NO.sub.x from exhaust gases.
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  29. Tarabulski, Theodore J.; Brooks, Jeffrey A., Mobile diesel selective catalytic reduction systems and methods.
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  30. Radhamohan,Subbaraya; Crane,Michael Eugene, Multistage reductant injection strategy for slipless, high efficiency selective catalytic reduction.
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  31. Bareis Marc,DEX ; Harndorf Horst,DEX ; Theml Thomas,DEX, Pipe evaporator for feeding additional fuel into the exhaust gas.
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  32. Penetrante Bernardino M. ; Vogtlin George E. ; Merritt Bernard T. ; Brusasco Raymond M., Plasma regenerated particulate trap and NO.sub.x reduction system.
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  33. Coq Bernard,FRX ; Delahay Gerard,FRX ; Fajulas Francois,FRX ; Neveu Bernard,FRX ; Peudpiece Jean-Bernard,FRX ; Kieger Stephane,FRX, Process for the removal from gases of nitrogen oxides NOx by selective catalytic reduction (SCR) using ammonia over zeolite catalysts not causing the formation of nitrogen protoxide.
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  34. Tarabulski Theodore J. ; Peter-Hoblyn Jeremy D.,GBX ; Valentine James M., Reducing NO.sub.x emissions from an engine by selective catalytic reduction utilizing solid reagents.
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  35. Tarabulski Theodore J., Reducing NO.sub.x emissions from an engine while maximizing fuel economy.
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  36. Ku Bon cheol,KRX ; Kim Young Woo,KRX ; Choi Young Tack,KRX, Selective catalytic reduction for the removal of nitrogen oxides and catalyst body thereof.
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  37. Patchett Joseph A., Staged reductant injection for improved NO.sub.x reduction.
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  1. Mowers, Matthew; Jayasankaran, Karthik; Bhosekar, Deepti; Bloms, Jason; Ratts, Joshua; Harmon, Aaron, Adaptive catalytic conversion and reduction agent control.
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  2. Nagathil, Roopesh Bhaskaran; Chadha, Rahul; Rivera, Jr., Rodel Belen; Gawde, Prashant Ramkrishna, Alarm management.
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  3. Geveci, Mert; Osburn, Andrew W.; Stanton, Donald W., Ammonia sensor control of an SCR aftertreatment system.
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  4. Geveci, Mert; Osburn, Andrew W., Ammonia sensor control, with NOx feedback, of an SCR aftertreatment system.
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  5. Viola, Michael B., Apparatus and method to inject a reductant into an exhaust gas feedstream.
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  6. Chi, John N.; Hill, Joe V., Apparatus, system, and method for NOx signal correction in feedback controls of an SCR system.
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  7. Wills, Joan M.; Garimella, Phanindra; Chi, John N., Apparatus, system, and method for controlling ammonia slip from an SCR catalyst.
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  8. Chi, John N.; Wang, Weiwen; Garimella, Phanindra; Hill, Joe V., Apparatus, system, and method for controlling reductant dosing in an SCR catalyst system.
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  9. Garimella, Phanindra; Wills, Joan M.; Chi, John N.; Currier, Neal W.; Yezerets, Aleksey, Apparatus, system, and method for determining the degradation of an SCR catalyst.
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  10. Garimella, Phanindra; Osburn, Andy; Chi, John N.; Wills, Joan M., Apparatus, system, and method for estimating an NOx conversion efficiency of a selective catalytic reduction catalyst.
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  11. Ofoli, Abdul R.; Garimella, Phanindra; Chi, John N., Apparatus, system, and method for reducing NO.
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  12. Chi, John N.; Hill, Joe V.; Wills, Joan M.; Farrell, Lisa A.; Frazier, Timothy R.; Mohammed, Hasan, Apparatus, system, and method for reducing NOx emissions from an engine system.
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  13. Chi, John N.; Wang, Weiwen; Garimella, Phanindra; Wills, Joan M.; Hill, Joe V.; Farrell, Lisa A.; Ofoli, Abdul R., Apparatus, system, and method for reducing NOx emissions on an SCR catalyst.
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  14. Wills, Joan M.; Chi, John N.; Wang, Weiwen; Garimella, Phanindra; Frazier, Timothy R.; Ofoli, Abdul R.; Hill, Joe V.; Farrell, Lisa A.; Currier, Neal W.; Yezerets, Aleksey; Osburn, Andy, Apparatus, system, and method for reducing NOx emissions on an SCR catalyst.
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  15. Garimella, Phanindra; Ofoli, Abdul R.; Frazier, Timothy R.; Wills, Joan M.; Chi, John N.; Wang, Weiwen; Osburn, Andrew, Apparatus, system, and method for reducing NOx emissions on an SCR catalyst using ammonia storage and slip control.
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  16. Kleinfeld, Christopher J., Bypass fluid system for exhaust aftertreatment.
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  17. Kleinfeld, Christopher J., Charged air bypass for aftertreatment combustion air supply.
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  18. Wei, Zhiyong; Kostek, Theodore M.; Sharp, Christopher Alan, Control of SCR system having a filtering device.
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  19. Clerc, James C.; White, Timothy M.; Zaczek, Melissa; Qi, Baohua, Detection of aftertreatment catalyst degradation.
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  20. Allmer, Ingo; Huelser, Holger; Huss, Arno, Diagnosis method for an exhaust gas post-treatment system.
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  21. Martin, Douglas Raymond; Badillo, Edward; Gartner, Paul M., Dynamic allocation of drive torque.
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  22. Webb, Timothy; Van Nieuwstadt, Michiel J.; Bogema, John Paul; Oberski, Christopher, Engine idling duration control.
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  23. Farrell, Lisa A.; Frazier, Timothy R.; Mohammed, Hasan, Engine system properties controller.
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  24. Masuda, Kouji; Hirata, Kiminobu; Masaki, Nobuhiko, Exhaust emission purifying apparatus for engine.
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  25. Upadhyay,Devesh; Kubinski,David J., Exhaust gas aftertreatment systems.
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  26. Itoh,Kazuhiro; Tanaka,Toshiaki; Iwasaki,Eiji; Hirota,Shinya, Exhaust gas purification device of internal combustion engine.
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  27. Aoyama, Taro; Tanai, Yutaka, Exhaust purification device of internal combustion engine.
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  28. Nagathil, Roopesh Bhaskaran; Berkeley, Dalero Winston; Linkenauger, David Lynn; Nichols, Jason Fredrick, Fuzzy logic based system monitoring system and method.
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  29. Kaemingk, Nathan J.; Gerty, Michael, Injector control for a selective catalytic reduction system.
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  30. Kaemingk, Nathan J.; Gerty, Michael, Injector control for a selective catalytic reduction system.
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  31. Ettireddy, Padmanabha Reddy; Henrichsen, Matthew, Low temperature selective catalytic reduction catalyst and associated systems and methods.
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  32. Döring, Andreas, Method and arrangement for improving the hydrolysis of a reduction agent in an exhaust gas post treatment system.
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  33. Brück, Rolf, Method and device for reducing the nitrogen oxide proportion in the exhaust gas of an internal combustion engine.
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  34. Abrol, Sidharth, Method and system for use in combustion product control.
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  35. Levijoki, Stephen Paul; Stark, Cheryl J; Gordon, Scott R; Wang, Yue-Yun, Method and system for verifying the operation of an SCR catalyst.
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  36. Hehle, Marc; Müller, Ralf; Niemeyer, Jens; Remele, Jörg; Schäffner, Guido; Sinzenich, Holger; Späder, Tim, Method for model-based determination of a temperature distribution of an exhaust gas post-treatment unit.
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  37. Ripper, Wolfgang; Wickert, Stefan; Schaller, Johannes; Lueders, Hartmut; Walz, Christian; Mayer, Thorsten; Schernewski, Ralf; Loehr, Matthias; Schmeling, Ulf Peter, Method for operating a catalytic converter used for purifying the exhaust gas of an internal combustion engine and a device for implementing the method.
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  38. Lueders, Hartmut; Walz, Christian; Mayer, Thorsten; Loehr, Matthias, Method for operating an internal combustion engine and a device for carrying out the method.
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  44. Theis, Joseph Robert; Kerns, James Michael; Uhrich, Michael James; Cavataio, Giovanni; Leone, Thomas G.; Doering, Jeffrey Allen; Rumpsa, Todd Anthony, NOx control during engine idle-stop operations.
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  52. Ofoli, Abdul R.; Mohammed, Hasan, SCR catalyst ammonia surface coverage estimation and control.
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  53. Ofoli, Abdul R.; Mohammed, Hasan, SCR catalyst ammonia surface coverage estimation and control.
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  55. Yezerets, Aleksey; Liu, Zheng; Currier, Neal W.; Wills, J. Stephen, System and apparatus for enhancing exhaust aftertreatment startup emissions control.
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  61. Geveci, Mert; Osburn, Andrew W., Transient compensation control of an SCR aftertreatment system.
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