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Method for using a regenerable catalyzed trap 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • B01D-053/56
  • B01D-053/75
  • B01D-053/86
  • B01D-053/94
출원번호 US-0645301 (1996-05-13)
발명자 / 주소
  • Feeley Jennifer S.
  • Farrauto Robert J.
  • Deeba Michel
  • Lampert Jordan K.
출원인 / 주소
  • Engelhard Corporation
대리인 / 주소
    Shatynski
인용정보 피인용 횟수 : 87  인용 특허 : 24

초록

A method of at least periodically removing from a lean gaseous stream a sorbable component such as SO.sub.x includes passing the gaseous stream through a trap member having an oxidation catalyst combined with a sorbent material at a temperature within the sorbing temperature range of the sorbent mat

대표청구항

[ What is claimed is:] [1.] A method for removing pollutants comprising nitrogen oxides and sorbable components comprising sulfur oxides and phosphorus oxides from a lean gaseous stream containing the same, the method comprising:(a) in a trapping period, passing the gaseous stream within a sorbing t

이 특허에 인용된 특허 (24)

  1. Abe Fumio (Handa JPX) Harada Takashi (Nagoya JPX) Ogawa Masato (Komaki JPX), Adsorbent-catalyst for exhaust gas purification, adsorbent for exhaust gas purification, system for exhaust gas purifica.
    상세보기
  2. Ernest Michael V. (Baltimore MD), Auto exhaust catalyst composition having low H2S emissions and method of making the catalyst.
    상세보기
  3. Takahata Toshio (Aikawa JPX) Ehara Hideharu (Yokohama JPX) Yamanashi Fuminori (Setagaya JPX) Shibata Katsuhiro (Machida JPX) Abe Fumio (Handa JPX) Kondo Tomoharu (Toki JPX) Suzuki Junichi (Kuwana JPX, Catalyst for exhaust gas purification and method for exhaust gas purification.
    상세보기
  4. Funabiki Masaki (Mishima) Kayano Kunihide (Numazu) Yamada Teiji (Numazu JPX), Catalyst for purification of exhaust gas.
    상세보기
  5. Shiraishi Eiichi (Himeji JPX) Baba Hideyuki (Himeji JPX) Tsuchitani Kazuo (Himeji JPX) Ohata Tomohisa (Himeji JPX), Catalyst for purifying automotive exhaust gas.
    상세보기
  6. Kinoshita Hiroo (Toyota JPX) Suzuki Yoshihiro (Toyota JPX), Catalyst for purifying exhaust gas and a process for manufacturing thereof.
    상세보기
  7. Suzuki Yoshihiro (Toyota JPX) Kinoshita Hiroo (Toyota JPX) Akasaka Naomi (Toyota JPX), Catalyst for purifying exhaust gas and the process for manufacturing thereof.
    상세보기
  8. Takada Toshihiro (Toyota JPX) Matsumoto Shinichi (Aichi JPX) Miyoshi Naoto (Nagoya JPX), Catalyst for purifying exhaust gases.
    상세보기
  9. Keith Carl D. (Summit NJ) Mooney John J. (Wyckoff NJ) Kenson Robert E. (Guilford CT) Bair Daniel L. (Roselle Park NJ 4), Catalyst for reducing pollutants in waste gas streams and process for preparing the catalyst.
    상세보기
  10. Koberstein ; Edgar ; Lakatos ; Eduard, Catalysts and the process for their production.
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  11. Acres Gary J. K. (London GB2) Hutchings Robert M. (London GB2), Catalytic reactions.
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  12. Imai Tamotsu (Mt. Prospect IL) Abrevaya Hayim (Wilmette IL), Dehydrogenation catalyst and process.
    상세보기
  13. Muraki Hideaki (Nagoya JPX) Oishi Kiyohiko (Toyota JPX) Katoh Kenji (Shizuoka JPX) Takeshima Shinichi (Susono JPX), Exhaust gas purification system for an internal combustion engine.
    상세보기
  14. Williamson W. Burton (Broken Arrow OK) Linden Douglas G. (Tulsa OK) Summers ; II Jack C. (Tulsa OK), High-temperature three-way catalyst for treating automotive exhaust gases.
    상세보기
  15. Nakano Masao (Hikari JPX) Eshita Akinori (Shinnanyo JPX) Sekizawa Kazuhiko (Shinnanyo JPX), Method for purifying exhaust gas.
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  16. Ishibashi Kazunobu (Toyota JPX) Matsumoto Shinichi (Aichi JPX) Kondoh Shiroh (Aichi JPX) Utsumi Yasuhide (Iwata JPX), Method for purifying exhaust gases.
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  17. Tamura Takaaki (Tokyo JPX) Kumagai Mikio (Chiba JPX) Katsuta Akimichi (Chiba JPX), Method for removing nitrogen oxides from exhaust gases.
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  18. D'Aniello, Jr., Michael J., Method of making layered catalysts.
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  19. Matsumoto Shinichi (Aichi JPX), Monolithic catalyst support and catalyst deposited on the support.
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  20. Dettling Joseph C. (Howell NJ) Lui Yiu-Kwan (Parlin NJ), Palladium containing ceria-supported platinum catalyst and catalyst assembly including the same.
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  21. Thompson, Charles E.; Mooney, John J.; Keith, Carl D.; Mannion, William A., Polyfunctional catalysts and method of use.
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  22. Speronello Barry K. (Belle Mead NJ) Byrne John W. (Edison NJ) Chen James M. (Edison NJ), Staged metal-promoted zeolite catalysts and method for catalytic reduction of nitrogen oxides using the same.
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  23. Wan Chung-Zong (Somerset NJ), Thermally stabilized catalysts containing alumina and methods of making the same.
    상세보기
  24. Gladden John R. (Metamora IL), Two-stage catalysis of engine exhaust.
    상세보기

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  1. Rohrbach, Ronald P.; Unger, Peter D.; Zulauf, Gary B.; Bause, Daniel E.; Johnson, Russ; Rockwell, David R., Apparatus and method for storing and releasing sulfur containing aromatic compounds from a fuel stream of an internal combustion engine.
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  2. Rohrbach,Ronald P.; Unger,Peter D.; Zulauf,Gary B.; Bause,Daniel E.; Johnson,Russ; Rockwell,David R., Apparatus and method for storing and releasing sulfur containing aromatic compounds from a fuel stream of an internal combustion engine.
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  3. Campbell Larry E. ; Wagner Gregory J., Catalyst/sorber for treating sulfur compound containing effluent.
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  4. Lampert Jordan K. ; Deeba Michel ; Farrauto Robert J., Catalyzed hydrocarbon trap material and method of making the same.
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  5. Farmer, David George; Surnilla, Gopichandra, Closed-loop method and system for purging a vehicle emission control.
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  6. Meyer, Garth Michael; Asik, Joseph Richard, Closed-loop temperature control for an emission control device.
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  7. David Karl Bidner ; Gopichandra Surnilla, Control for improved vehicle performance.
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  8. Bidner, David Karl; Surnilla, Gopichandra, Degradation detection method for an engine having a NOx sensor.
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  9. Bidner,David Karl; Surnilla,Gopichandra, Degradation detection method for an engine having a NOx sensor.
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  10. Gopichandra Surnilla ; David Karl Bidner, Emission control for improved vehicle performance.
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  11. Deeba, Michel; Chen, Shau-Lin F.; Hochmuth, John K.; Burk, Patrick L.; Wei, Xinyi, Enhanced NOx trap having increased durability.
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  12. Matsumoto,Takeshi; Kobayashi,Takao; Nakane,Takuji; Uno,Takahiro; Horiuchi,Makoto, Exhaust gas purifying catalyst and process for purifying exhaust gas.
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  13. Verkiel,Maarten; Williams,Jo L.; Fluga,Eric Charles, Filter system.
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  14. Vierheilig,Albert A.; Keener,Bruce, Gasoline sulfur reduction using hydrotalcite like compounds.
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  15. Surnilla, Gopichandra; Smith, Stephen B., Idle speed control for lean burn engine with variable-displacement-like characteristic.
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  16. Surnilla,Gopichandra; Smith,Stephen B., Idle speed control for lean burn engine with variable-displacement-like characteristic.
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  17. Chen, Shau-Lin F., Layered SOX tolerant NOX trap catalysts and methods of making and using the same.
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  18. Bidner David Karl ; Surnilla Gopichandra, Method and apparatus for accessing ability of lean NOx trap to store exhaust gas constituent.
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  19. David Karl Bidner ; Gopichandra Surnilla, Method and apparatus for accessing ability of lean NOx trap to store exhaust gas constituent.
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  20. Michael John Cullen ; David Karl Bidner ; Gopichandra Surnilla ; Jeffrey Scott Hepburn ; Jerry D. Robichaux, Method and apparatus for controlling lean operation of an internal combustion engine.
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  21. Robichaux, Jerry D.; Bidner, David Karl; Surnilla, Gopichandra, Method and apparatus for controlling lean-burn engine based upon predicted performance impact.
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  22. David Karl Bidner ; Gopichandra Surnilla, Method and apparatus for controlling lean-burn engine based upon predicted performance impact and trap efficiency.
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  23. Surnilla, Gopichandra; Bidner, David K., Method and apparatus for controlling lean-burn engine to purge trap of stored NOx.
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  24. Hepburn, Jeffrey Scott; Surnilla, Gopichandra; Robichaux, Jerry D.; Cullen, Michael John, Method and apparatus for enhancing fuel economy of a lean burn internal combustion engine.
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  25. Jerry D. Robichaux ; Gopichandra Surnilla ; Jeffrey Scott Hepburn ; Michael John Cullen, Method and apparatus for measuring lean-burn engine emissions.
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  26. Surnilla, Gopichandra; Bidner, David Karl, Method and apparatus for measuring the performance of an emissions control device.
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  27. David Karl Bidner ; Gopichandra Surnilla, Method and apparatus for optimizing purge fuel for purging emissions control device.
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  28. Meyer, Garth Michael; Asik, Joseph Richard, Method and system for controlling a regeneration cycle of an emission control device.
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  29. Meyer, Garth Michael; Asik, Joseph Richard, Method and system for controlling an emission control device based on depletion of device storage capacity.
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  30. Asik, Joseph Richard; Meyer, Garth Michael, Method and system for controlling storage and release of exhaust gas constituents in an emission control device.
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  31. Gopichandra Surnilla ; David George Farmer, Method and system for operating dual-exhaust engine.
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  32. Joseph Richard Asik ; Garth Michael Meyer, Method and system for optimizing open-loop fill and purge times for an emission control device.
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  33. Meyer, Garth Michael; Asik, Joseph Richard, Method and system for optimizing purge of exhaust gas constituent stored in an emission control device.
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  34. Farmer, David George; Surnilla, Gopichandra, Method and system for preconditioning an emission control device for operation about stoichiometry.
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  35. Ingram,Grant Alan; Surnilla,Gopichandra, Method and system for rapid heating of an emission control device.
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  36. Gopichandra Surnilla ; Jeffrey Scott Hepburn ; Jerry D. Robichaux ; Michael John Cullen, Method and system for reducing NOx tailpipe emissions of a lean-burn internal combustion engine.
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  37. Jeffrey Scott Hepburn ; JoAnne Temple ; Mark Allen Dearth, Method and system for reducing lean-burn vehicle emissions using a downstream reductant sensor.
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  38. Hepburn, Jeffrey Scott; Temple, JoAnne; Dearth, Mark Allen, Method and system for reducing vehicle emissions using a sensor downstream of an emission control device.
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  39. Gopichandra Surnilla ; Jeffrey Scott Hepburn ; Jerry D. Robichaux ; Michael John Cullen, Method and system for reducing vehicle tailpipe emissions when operating lean.
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  40. Surnilla, Gopichandra; Farmer, David George, Method and system for transitioning between lean and stoichiometric operation of a lean-burn engine.
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  45. Gordon James J. Bartley ; Magdi K. Khair, Method for bypassing sulfur dioxide around an aftertreatment device in an exhaust gas aftertreatment system.
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  46. Bidner,David Karl; Surnilla,Gopichandra, Method for controlling an engine to obtain rapid catalyst heating.
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  47. Surnilla,Gopichandra, Method for controlling the temperature of an emission control device.
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  48. Surnilla, Gopichandra, Method for controlling transitions between operating modes of an engine for rapid heating of an emission control device.
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  50. Bidner, David Karl; Surnilla, Gopichandra, Method for determining emission control system operability.
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  51. Surnilla Gopichandra ; Bidner David Karl, Method for improved air-fuel ratio control in engines.
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  52. David Karl Bidner ; Gopichandra Surnilla, Method for improved engine control.
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  56. Surnilla, Gopichandra; Bidner, David Karl, Method for improved vehicle performance.
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  57. Meyer, Garth Michael; Asik, Joseph Richard, Method for quantifying oxygen stored in a vehicle emission control device.
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  59. Surnilla, Gopichandra, Method for split ignition timing for idle speed control of an engine.
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  60. Bidner,David Karl; Sumilla,Gopichandra, Method of determining emission control system operability.
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