Patent application number | Description | Published |
20130000277 | SYSTEM FOR REDUCING ENGINE EMISSIONS AND BACKPRESSURE USING PARALLEL EMISSION REDUCTION EQUIPMENT - An exhaust emission reduction system for a fuel injected engine system has a plurality of emission reduction components configured to process the exhaust gas. The emissions reduction components include of one or more NO | 01-03-2013 |
20130001370 | POWER CONTROL SYSTEM FOR A LOCOMOTIVE CONSIST - The present disclosure is directed to a power control system for a consist. The consist may include a plurality of locomotives, each locomotive having an engine. The power control system may include a plurality of locomotive controllers. Each locomotive controller may be associated with one of the engines and configured to monitor temperature and power conditions of the associated engine. The power control system may also include a central controller adapted to receive temperature and power conditions from each locomotive controller and to determine desired power levels for each engine in the consist based on the received temperature and power conditions of the plurality of locomotives. | 01-03-2013 |
20130213341 | ENGINE HAVING PISTON WITH L-SHAPED TIMING RING - An internal combustion engine is disclosed. The engine may have an engine block at least partially defining a cylinder, a liner disposed within the cylinder, and at least a first gas exchange port passing through an annular surface of the liner. The engine may also have a cylinder head connected to the engine block and together with the liner forming a combustion chamber, and at least a second gas exchange port disposed within the cylinder head in fluid communication with the combustion chamber. The engine may additionally have a piston slidably disposed within the liner and having an annular groove formed within an outer surface, and a plurality of piston rings selectively connectable with the annular groove. Each of the plurality of piston rings may be generally L-shaped and have a different axial length. Each of the plurality of piston rings is selected to vary an opening and closing timing of the at least a first gas exchange port. | 08-22-2013 |
20130219883 | ENGINE SYSTEM HAVING DEDICATED AUXILIARY CONNECTION TO CYLINDER - A system is disclosed for use with an engine. The system may have an intake manifold configured to direct air into combustion chambers of the engine. The system may also have an auxiliary device and an exhaust manifold configured to direct exhaust from the combustion chambers of the engine through the auxiliary device to the atmosphere. The system may additionally have a conduit associated with fewer than all of the combustion chambers of the engine and extending to the auxiliary device in parallel with the exhaust manifold, and an auxiliary valve disposed within the conduit and selectively movable between a flow-passing position and a flow-blocking position. | 08-29-2013 |
20130220245 | ENGINE SYSTEM HAVING DEDICATED CYLINDER-TO-CYLINDER CONNECTION - An system is disclosed for use with an engine. The system may have an intake manifold configured to direct air into combustion chambers of the engine, and an exhaust manifold configured to direct exhaust from the combustion chambers to the atmosphere. The system may also have at least one conduit extending from a first of the combustion chambers to a second of the combustion chambers, and at least one valve associated with the at least one conduit. The at least one valve is configured to pass fluid from the first of the combustion chamber to the second of the combustion chambers during a compression stroke of a first piston within the first of the combustion chambers and during an expansion stroke of a second piston within the second of the combustion chambers. | 08-29-2013 |
20130220287 | EXHAUST SYSTEM HAVING DEDICATED EGR CYLINDER CONNECTION - An exhaust system is disclosed for use with an engine. The exhaust system may have at least one exhaust manifold connectable between all combustion chambers of the engine and the atmosphere, and at least one exhaust valve associated with each combustion chamber of the engine. The at least one exhaust valve may be movable to selectively allow exhaust to pass from each combustion chamber into the at least one exhaust manifold. The exhaust system may also have an exhaust gas recirculation circuit fluidly connectable directly to at least one of the combustion chambers of the engine and to an intake duct of the engine, and at least one exhaust gas recirculation valve associated with the exhaust gas recirculation circuit. | 08-29-2013 |
20130283784 | ENERGY RECOVERY ARRANGEMENT HAVING MULTIPLE HEAT SOURCES - An energy recovery arrangement is disclosed for use with an engine. The energy recovery arrangement may include a closed circuit containing a high-pressure working fluid, a first boiler configured to receive waste heat from a first source on the engine, and a second boiler disposed upstream of the first boiler and configured to receive waste heat from a second source on the engine. The energy recovery arrangement may also include an energy extractor disposed at a location downstream of the first and second boilers, a condenser disposed at a location downstream of the energy extractor, and a pump disposed at a location downstream of the condenser and upstream of the first and second boilers. The energy recovery arrangement may further include a recuperator disposed in parallel with the second boiler and configured to transfer heat from working fluid exiting the extractor to working fluid exiting the pump. | 10-31-2013 |
20140046511 | SYSTEM FOR CONTROLLING ENGINE INLET AIR TEMPERATURE - A system for controlling engine inlet air temperature may include a compressor configured to increase pressure of air at an engine air inlet and at least one aftercooler configured to reduce the engine inlet air temperature. The system may also include a temperature sensor configured to provide signals indicative of ambient air temperature and a pressure sensor configured to provide signals indicative of ambient air pressure. The system may include a controller configured to receive signals indicative of the ambient air temperature and the ambient air pressure and determine a desired engine inlet air temperature based on the signals indicative of the ambient air temperature and the ambient air pressure. The controller may be configured to control operation of the at least one aftercooler based on the desired engine air inlet temperature. | 02-13-2014 |
20140208717 | ENGINE SYSTEM WITH PASSIVE REGENERATION OF A FILTER IN EGR LOOP - An engine system for a machine is disclosed. The engine system may have an intake manifold configured to direct air into a donor cylinder and a non-donor cylinder of an engine. The engine system may have a first exhaust manifold configured to direct exhaust from the non-donor cylinder to the atmosphere and a second exhaust manifold configured to receive exhaust from the donor cylinder. The engine system may further have a control valve configured to selectively direct a first amount of exhaust from the second exhaust manifold to the intake manifold and an after-treatment component configured to treat the first amount of exhaust. In addition, the engine system may have a controller configured to adjust a first operating parameter of the donor cylinder such that a ratio of an amount of a gaseous component and an amount of particulate matter in the first amount of exhaust exceeds a predetermined threshold. | 07-31-2014 |
20140260193 | ENGINE SYSTEM FOR INCREASING AVAILABLE TURBOCHARGER ENERGY - An engine system for a machine is disclosed. The engine system may have an intake manifold configured to direct air into a donor cylinder and a non-donor cylinder of an engine. The engine system may also have a first exhaust manifold configured to direct exhaust from the non-donor cylinder to the atmosphere. The engine system may also have a second exhaust manifold configured to receive exhaust from the donor cylinder. The engine system may further have a control valve configured to selectively direct a first amount of exhaust from the second exhaust manifold to the intake manifold. In addition, the engine system may have an orifice configured to allow a second amount of exhaust to flow from the second exhaust manifold to the first exhaust manifold. | 09-18-2014 |
20150021861 | ENGINE HAVING PISTON WITH L-SHAPED TIMING RING - An internal combustion engine is disclosed. The engine may have an engine block at least partially defining a cylinder, a liner disposed within the cylinder, and at least a first gas exchange port passing through an annular surface of the liner. The engine may also have a cylinder head connected to the engine block and together with the liner forming a combustion chamber, and at least a second gas exchange port disposed within the cylinder head in fluid communication with the combustion chamber. The engine may additionally have a piston slidably disposed within the liner and having an annular groove formed within an outer surface, and a plurality of piston rings selectively connectable with the annular groove. Each of the plurality of piston rings may be generally L-shaped and have a different axial length. Each of the plurality of piston rings is selected to vary an opening and closing timing of the at least a first gas exchange port. | 01-22-2015 |