| 54 |
Title |
TI |
[DE] Vorrichtung zur Einkopplung und/oder Auskopplung von Mikrowellen in den Abgasstrang eines Verbrennungsmotors |
| 71/73 |
Applicant/owner |
PA |
Dietrich, Markus, Dr.-Ing., 95447, Bayreuth, DE
;
Feulner, Markus, Dr.-Ing., 95444, Bayreuth, DE
;
Hagen, Gunter, Dr.-Ing., 95131, Schwarzenbach a Wald, DE
;
Moos, Ralf, Prof. Dr. Ing., 95447, Bayreuth, DE
;
Rauch, Dieter, Dr.-Ing., 95448, Bayreuth, DE
|
| 72 |
Inventor |
IN |
Dietrich, Markus, Dipl.-Ing., 95447, Bayreuth, DE
;
Feulner, Markus, Dipl.-Ing., 95444, Bayreuth, DE
;
Hagen, Gunter, Dr.-Ing., 95131, Schwarzenbach a Wald, DE
;
Moos, Ralf, Prof. Dr.-Ing., 95447, Bayreuth, DE
;
Rauch, Dieter, Dipl.-Ing., 95448, Bayreuth, DE
|
| 22/96 |
Application date |
AD |
Feb 3, 2015 |
| 21 |
Application number |
AN |
102015001229 |
|
Country of application |
AC |
DE |
|
Publication date |
PUB |
Aug 4, 2016 |
33
31
32 |
Priority data |
PRC
PRN
PRD |
|
| 51 |
IPC main class |
ICM |
G01N 22/00
(2006.01)
|
| 51 |
IPC secondary class |
ICS |
F01N 11/00
(2006.01)
F01N 9/00
(2006.01)
|
|
IPC additional class |
ICA |
|
|
IPC index class |
ICI |
|
|
Cooperative patent classification |
CPC |
F01N 11/00
F01N 2560/12
F01N 2900/1606
F01N 2900/1614
F01N 2900/1624
F01N 3/021
F01N 3/10
G01N 22/00
Y02T 10/12
Y02T 10/40
|
|
MCD main class |
MCM |
G01N 22/00
(2006.01)
|
|
MCD secondary class |
MCS |
F01N 11/00
(2006.01)
F01N 9/00
(2006.01)
|
|
MCD additional class |
MCA |
|
| 57 |
Abstract |
AB |
[DE] Die Erfindung betrifft eine Vorrichtung zur Ein- und/oder Auskopplung von Mikrowellen in einen Abgaskatalysator oder -filter eines Verbrennungsmotors. Das Gehäuse eines Abgassensors dient gleichzeitig als Koppelelement für die Ein- und/oder Auskopplung von Mikrowellen. In einer Verallgemeinerung der Erfindung kann jedes Funktionselement, welches eine Zuleitung benötigt, als Koppelelement ausgeführt werden. Durch den Einsatz der Erfindung wird die mikrowellenbasierte Katalysatorzustandserkennung vereinfacht. |
| 56 |
Cited documents identified in the search |
CT |
|
| 56 |
Cited documents indicated by the applicant |
CT |
DE000010358495A1
DE102008012050A1
DE102010034983A1
DE102011018226A1
DE102011107784A1
US020130127478A1
|
| 56 |
Cited non-patent literature identified in the search |
CTNP |
|
| 56 |
Cited non-patent literature indicated by the applicant |
CTNP |
J. Riegel, H. Neumann, H.-M. Wiedenmann, Exhaust gas sensors for automotive emission control, Solid State Ionics, 152–153, 783–800 (2002) 1;
N. Müller, S. Reiß, P. Fremerey, A. Jess, R. Moos, Initial tests to detect quantitatively the coke loading of reforming catalysts by a contactless microwave method, Chemical Engineering and Processing, 50, 729–731 (2011) 1;
P. Fremerey, S. Reiß, A. Geupel, G. Fischerauer, R. Moos, Determination of the NOx Loading of an Automotive Lean NOx Trap by Directly Monitoring the Electrical Properties of the Catalyst Material Itself, Sensors, 11, 8261–8280 (2011) 1;
R. Moos, A Brief Overview an Automotive Exhaust Gas Sensors Based an Electroceramics, Int. J. Appl. Ceram. Technol., 2, 401–413 (2005) 1;
R. Moos, Automotive Exhaust Gas Sensors, In: C. A. Grimes, E. C. Dickey, M. V. Pishko (Eds.) Encyclopedia of Sensors, Vol. 1, p. 295–312, American Scientific Publishers (2006) 1;
S. Reiß, D. Schönauer, G. Hagen, G. Fischerauer, R. Moos, Monitoring the ammonia loading of zeolite-based ammonia SCR catalysts by a microwave method, Chemical Engineering and Technology, 34, 791–796 (2011) 1;
S. Schädel, R. Moos, M. Votsmeier, G. Fischerauer, SI-Engine Control With Microwave-Assisted Direct Observation of Oxygen Storage Level in Three-Way Catalysts, IEEE Transactions an Control Systems Technology, 22, 2346–2353 (2014) 1
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Citing documents |
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Determine documents
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Sequence listings |
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Search file IPC |
ICP |
F01N 11/00
F01N 9/00
G01N 22/00
|
