Leon A. LaPointe - Columbus IN, US Chris L. Sanger - Columbus IN, US James A. Zigan - Versailles IN, US Daniel J. Mohr - Columbus IN, US Laszio D. Tikk - Columbus IN, US
International Classification:
F02B 19/00
US Classification:
123266, 123273
Abstract:
An apparatus is disclosed including a first end defining an inner passage along a first inner surface of the first end, where the inner passage has threads structured to receive a spark plug. The apparatus further includes a second end opposite the first end and extending into a combustion chamber of a cylinder, the second end defining a pre-combustion chamber along a second inner surface and threads on an outer surface structured to thread into a spark plug hole in a cylinder head, which may be an enlarged spark plug hole. The second end includes holes that fluidly couple the pre-combustion chamber of the second end with the combustion chamber of the cylinder.
Exhaust System For Spark-Ignited Gaseous Fuel Internal Combustion Engine
LEON A. LAPOINTE - Columbus IN, US EDWARD J. LYFORD-PIKE - Columbus IN, US DANIEL J. MOHR - Scipio IN, US ASHISH GUPTA - Columbus IN, US ALEKSEY YEZERETS - Columbus IN, US NEAL W. CURRIER - Columbus IN, US TAMAS SZAILER - Seymour IN, US THOMAS YONUSHONIS - Columbus IN, US
International Classification:
F02M 27/02
US Classification:
60278
Abstract:
An internal combustion engine system includes a spark-ignited internal combustion engine powered by a gaseous fuel. The engine system also includes an air intake in air providing communication with the internal combustion engine. Further, the engine system includes an exhaust system in exhaust gas receiving communication with the internal combustion engine. The exhaust system includes a methane oxidation catalyst through which at least a portion of the exhaust gas flows and an exhaust gas recirculation line in exhaust gas providing communication with the air intake.
Cyclical Applications For Internal Combustion Engines With Cylinder Deactivation Control
Systems, apparatus, and methods are disclosed that include an internal combustion engine having a plurality of cylinders operable by a valve actuation mechanism. A cylinder deactivation operation is modified in response to determining a cyclical operation mode of the engine.
Exhaust System For Spark-Ignited Gaseous Fuel Internal Combustion Engine
- Columbus IN, US Edward J. Lyford-Pike - Columbus IN, US Daniel J. Mohr - Scipio IN, US Ashish Gupta - Columbus IN, US Aleksey Yezerets - Columbus IN, US Neal W. Currier - Columbus IN, US Tamas Szailer - Clarkston MI, US Thomas M. Yonushonis - Columbus IN, US
An internal combustion engine system includes a spark-ignited internal combustion engine powered by a gaseous fuel. The engine system also includes an air intake in air providing communication with the internal combustion engine. Further, the engine system includes an exhaust system in exhaust gas receiving communication with the internal combustion engine. The exhaust system includes a methane oxidation catalyst through which at least a portion of the exhaust gas flows and an exhaust gas recirculation line in exhaust gas providing communication with the air intake.
Gaseous Fuel Spark-Ignited Internal Combustion Engine System
- Columbus IN, US Edward J. Lyford-Pike - Columbus IN, US Daniel J. Mohr - Scipio IN, US Ashish Gupta - Columbus IN, US
Assignee:
Cummins IP, Inc. - Columbus IN
International Classification:
F01N 3/10
US Classification:
60274, 60299
Abstract:
A system and method for reforming a portion of an exhaust gas stream in an internal combustion engine system. An exhaust gas recirculation assembly divides the exhaust gas stream into a recycle stream and a vent stream. A mixer in fluid receiving communication with the recycle stream forms a combination stream by mixing a gaseous fuel stream with the recycle stream. A thermochemical recuperator component fluidly connects to the mixer and includes a first flow path and a second flow path. The first flow path has a catalyst through which the combination stream flows to create a reformate stream, and the second flow path has a heat transfer area for transferring heat from the vent stream to the combination stream.
Air-Fuel-Ratio Dithering Using A Dual Fuel Path Source
- Columbus IN, US Edward J. Lyford-Pike - Columbus IN, US Daniel J. Mohr - Scipio IN, US Ashish Gupta - Columbus IN, US James A. Zigan - Versailles IN, US
Assignee:
Cummins IP, Inc. - Columbus IN
International Classification:
F02D 41/30
US Classification:
123704
Abstract:
An apparatus for dithering fuel into an internal combustion engine includes a turbine that is powered by the internal combustion engine and a first fuel injector that injects a first fuel into an air stream to create a fuel/air stream. The apparatus also includes an air/fuel compressor that provides a compressed fuel/air stream to the internal combustion engine. The air/fuel compressor is powered by the turbine, and the air/fuel compressor compresses the fuel/air stream to create the compressed fuel/air stream. Additionally, the apparatus includes a second fuel injector that injects a second fuel into the compressed fuel/air stream prior to the compressed fuel/air stream entering the engine and after the compressed fuel/air stream exits the air/fuel compressor.
Resumes
Director, Naval & Area Mission Defense, Raytheon Missile Systems
Manager, Emerging Programs Quality at Raytheon Missile Systems
Location:
Tucson, Arizona
Industry:
Defense & Space
Work:
Raytheon Missile Systems
Manager, Emerging Programs Quality
Skills:
Aerospace Earned Value Management DoD Integration Testing Requirements Management Six Sigma Systems Engineering Security Clearance Root Cause Analysis Program Management Quality Assurance Engineering Management Process Improvement
Cpe Systems Integration Technical Specialist At Cummins Inc.
CPE Systems Integration Technical Specialist at Cummins Inc., Mechanical Engineer at Cummins, Inc
Location:
Indianapolis, Indiana Area
Industry:
Automotive
Work:
Cummins Inc. - Columbus, IN since Apr 2011
CPE Systems Integration Technical Specialist
Cummins, Inc since Jun 2003
Mechanical Engineer
Education:
University of Wisconsin-Madison 2007 - 2010
Masters of Engineering in Engine Systems, Engine Systems
North Dakota State University 2000 - 2003
Bachelors Degree in Engineering, Mechanical Engineering
Itasca Community College 1998 - 2000
Associates in Science, Pre Engineering