Bibliografische Daten

Dokument US000009004909B2 (Seiten: 10)

Bibliografische Daten Dokument US000009004909B2 (Seiten: 10)
INID Kriterium Feld Inhalt
54 Titel TI [EN] Integrated polymeric-ceramic membrane based oxy-fuel combustor
71/73 Anmelder/Inhaber PA BEN-MANSOUR RACHED, SA ; GHONIEM AHMED F, US ; HABIB MOHAMED A, SA ; MASSACHUSETTS INST TECHNOLOGY, US ; MEZGHANI KHALED, SA ; MITSOS ALEXANDER, US ; SHAO-HORN YANG, US ; UNIV KING FAHD PET & MINERALS, SA
72 Erfinder IN BEN-MANSOUR RACHED, SA ; GHONIEM AHMED F, US ; HABIB MOHAMED A, SA ; MEZGHANI KHALED, SA ; MITSOS ALEXANDER, US ; SHAO-HORN YANG, US
22/96 Anmeldedatum AD 03.02.2012
21 Anmeldenummer AN 201213365290
Anmeldeland AC US
Veröffentlichungsdatum PUB 14.04.2015
33
31
32		 Priorität PRC
PRN
PRD

51 IPC-Hauptklasse ICM B01J 19/24 (2006.01)
51 IPC-Nebenklasse ICS C01B 13/02 (2006.01)
F23C 99/00 (2006.01)
F23L 15/04 (2006.01)
F23L 7/00 (2006.01)
IPC-Zusatzklasse ICA
IPC-Indexklasse ICI
Gemeinsame Patentklassifikation CPC C01B 13/0255
F23C 99/00
F23L 15/04
F23L 7/007
Y02E 20/34
MCD-Hauptklasse MCM B01J 19/24 (2006.01)
MCD-Nebenklasse MCS C01B 13/02 (2006.01)
F23C 99/00 (2006.01)
F23L 15/04 (2006.01)
F23L 7/00 (2006.01)
MCD-Zusatzklasse MCA
57 Zusammenfassung AB [EN] Integrated polymeric-ceramic membrane-based oxy-fuel combustor. The combustor includes a polymer membrane structure for receiving air at an input and for delivering oxygen-enriched air at an outlet. An oxygen transport reactor including a ceramic ion transport membrane receives the oxygen-enriched air from the polymer membrane structure to generate oxygen for combustion with a fuel introduced into the oxygen transport reactor.
56 Entgegengehaltene Patentdokumente/Zitate,
in Recherche ermittelt		 CT US000005108465A
US000005534471A
US000005827351A
US000006319305B1
US000006403041B1
US000007122072B2
US000007875101B2
US000008117822B2
US000008246719B2
US000008287762B2
US000008590490B2
US000008809773B2
US000008820312B2
US020040128975A1
US020040149127A1
US020090321354A1
US020100116132A1
US020110131946A1
US020110132280A1
US020110240924A1
US020110288184A1
US020130139810A1
56 Entgegengehaltene Patentdokumente/Zitate,
vom Anmelder genannt		 CT DE102009021623A1
EP000000887099A2
EP000001040861A1
US000004696686A
US000005131225A
US000005411580A
US000006139604A
US000006139810A
US000006153163A
US000006375913B1
US000006394043B1
US000006551386B2
US000006562104B2
US000006565632B1
US000007118612B2
US000007125528B2
US000007160357B2
US000007442344B2
US000007892321B2
US020020134236A1
56 Entgegengehaltene Nichtpatentliteratur/Zitate,
in Recherche ermittelt		 CTNP
56 Entgegengehaltene Nichtpatentliteratur/Zitate,
vom Anmelder genannt		 CTNP Bernardo, P., Drioli, E. and Golemme, G., 2009, Membrane Gas Separation: A Review/State of the Art, Ind. Eng. Chem. Res., vol. 48, pp. 4638-4663. 1;
Buhre, B.J.P., Elliott, L.K., Sheng, C.D., Gupta, R.P. and Wall, T.F., 2005, Oxy-fuel combustion technology for coal-fired power generation, Progress in Energy and Combustion Science 31, 283-307. 1;
Coombe, H. Scott and Nieh, S., 2007, Polymer membrane air separation performance for portable oxygen enriched combustion applications, Energy Conversion and Management, vol. 48, pp. 1499-1505. 1;
Eriksson, S., 2006, Development catalysts for natural gas-fired gas turbine combustors, Ph.D. Thesis, The Royal Institute of Technology, Stockholm, Sweden. 1;
Kvamsdal, H.M., 2005. Power generation with CO2 management, our activities, Gas Technology Center, NTNU-SINTEF. 1;
Mancini, N. D. and Mitsos, A., 2011, Ion Transport Membrane Reactors for Oxy-combustion-Part II: Analysis & Comparison of Alternatives, Energy, 36(8):4721-4739. 1;
Mancini, N.D. , Gunasekaran, S. and Mitsos, A., 2012, A Multiple-Compartment Ion-Transport-Membrane Reactive Oxygen Separator, Industrial & Engineering Chemistry Research, pp. 7988-7997. 1;
Mancini, N.D. and Mitsos, A., 2011, Ion Transport Membrane Reactors for Oxy-combustion-Part I: Intermediate Fidelity Modeling. Energy. 36(8):4701-4720. 1;
Mancini, N.D. and Mitsos, Conceptual design and analysis of ITM oxy-combustion power cycles, 2011, Physical Chemistry Chemical Physics, 13:21351-21361. 1;
PCT International Search Report mailed Dec. 5, 2013 for International Application No. PCT/US2013/024369. 1;
Phair, J.W. and Badwal, S.P.S., 2006, Materials for separation membranes in hydrogen and oxygen production and future power generation, Science and Technology of Advanced Materials, vol. 7, pp. 792-805. 1;
Tan, X., Li, K., Thursfield, A., and Metcalfe, I.S., 2008, Oxyfuel combustion using a catalytic ceramic membrane reactor, Catalysis Today 131, 292-304. 1;
Wall, T.F., 2007, Combustion processes for carbon capture, Proceedings of the Combustion Institute, 31, 31-47. 1;
World oil, ceramic membranes for produced water treatment, vol. 230, No. 4, Apr. 2009. 1
Zitierende Dokumente Dokumente ermitteln
Sequenzprotokoll
Prüfstoff-IPC ICP C01B 13/02
F23C 99/00
F23L 15/04
F23L 7/00