Using Multiple Injectors Or Injections Patents (Class 123/299)
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Patent number: 8175789Abstract: As a compression-ignition direct-injection engine combustion controller, a program for detecting ignition timing of a main injection Mn (main ignition timing), a program for correcting a command value of main injection execution timing in a direction to the side where a detection value is converged within a predetermined range, a program for determining whether or not the corrected command value is within a predetermined range, and a program for, when it is determined that the command value is not within the range, correcting a command value related to an injection amount of a pilot injection Pt based on whether or not the command value is on a delay side or an advance side of the range.Type: GrantFiled: April 2, 2008Date of Patent: May 8, 2012Assignee: Denso CorporationInventors: Akikazu Kojima, Hiroshi Haraguchi, Youhei Morimoto, Tokuji Kuronita, Satoru Sasaki
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Patent number: 8170773Abstract: For the direct re-entry in the CAI operating mode following a pull fuel cut off phase the CAI specific valve lift is maintained during its pull fuel cut off phase. Upon a request signal for the CAI re-entry after the closing time of the particular cylinder, an advance fuel injection quantity is injected in the combustion chamber and externally ignited and combusted in the following CAI interim compression phase of the exhaust stroke, as a result of which hot exhaust gas is formed in the combustion chamber, fresh air is drawn into the combustion chamber during the following intake stroke, a main fuel injection quantity is injected in a main compression phase during the following compression stroke, and the exhaust gas content brought about from the earlier auxiliary fuel injection, is mixed with the air-fuel mixture newly introduced for the main ignition to form a self-ignitable, homogenous fresh air-exhaust gas-fuel mixture.Type: GrantFiled: November 21, 2008Date of Patent: May 1, 2012Assignee: Continental Automotive GmbHInventors: Erwin Bauer, Dietmar Ellmer
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Patent number: 8165779Abstract: The present invention relates to an internal combustion engine that can be operated in a homogeneous charge combustion mode as well as a method and a computer readable storage device for controlling such an engine. The engine comprises at least one fuel injector, a fuel injection controller that controls a fuel amount injected into a first cylinder, and a piston in the first cylinder whose compression causes an air and fuel mixture to be ignited. The engine further comprises at least one intake valve, at least one exhaust valve, a valve operation controller, and at least one sensor for measuring an engine operation parameter in the first cylinder. The engine is particularly characterized in that the valve operation controller is adapted to determine the opening and closing of the intake and exhaust valves of the first cylinder on the basis of a first fuel injection or injections.Type: GrantFiled: December 19, 2008Date of Patent: April 24, 2012Assignee: Ford Global Technologies, LLCInventors: Claes Ostberg, Lucien Koopmans
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Patent number: 8156920Abstract: Procedure for the transition of an internal combustion engine, particularly a gasoline engine with direct gasoline injection and with a partially variable valve-train assembly, from an initial mode of operation into a target mode of operation, whereby the initial mode of operation and the target mode of operation are either a mode of operation with an externally-supplied ignition or one with self-ignition. The procedure comprises the procedural steps: Adaptation of the operating parameters of the initial mode of operation to the required values for the target mode of operation in a map-based pilot control phase Changeover of the mode of operation after the map-based pilot control phase Closed-loop control of the operating parameters after the changeover.Type: GrantFiled: July 17, 2007Date of Patent: April 17, 2012Assignee: Robert Bosch GmbHInventors: Ansgar Christ, Wolfgang Fischer, Andre F. Casal Kulzer
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Patent number: 8151762Abstract: Disclosed is a direct-injection spark-ignition engine designed to promote catalyst activation during cold engine operation. A fuel injection timing for a fuel injection period in an compression stroke (second fuel injection period F2) is set to allow a first fuel spray Ga injected from a first spray hole 40a to enter a cavity 34 in a piston crown surface 30, and allow a second fuel spray Gb to impinge against a region of the piston crown surface 30 located closer to an injector than the cavity 34, so as to cause the second fuel spray Gb having a lowered penetration force due to the impingement to be pulled toward the cavity 34 by a negative pressure generated in the cavity 34 as a result of passing of the first fuel spray Ga therethrough.Type: GrantFiled: July 16, 2009Date of Patent: April 10, 2012Assignee: Mazda Motor CorporationInventors: Toshiaki Nishimoto, Tomomi Watanabe, Yoshiteru Nakayama, Tatsuya Fujikawa, Masahisa Yamakawa
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Publication number: 20120080007Abstract: An opposed-piston internal combustion engine with one or more ported cylinders and uniflow scavenging includes fuel injectors supported at compound angles with respect to the cylinders in order to directly inject spray patterns of fuel in opposing directions through the side walls of the cylinders.Type: ApplicationFiled: May 16, 2011Publication date: April 5, 2012Applicant: Achates Power, Inc.Inventors: Randy E. Herold, Brendan M. Lenski, Fabien G. Redon
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Publication number: 20120067326Abstract: An internal combustion engine that is structurally similar to a four-stroke engine. The engine comprises at least one cylinder unit, in turn, comprising a cylinder, a piston head that reciprocates within the cylinder, a combustion chamber defined between the cylinder and the front of the piston head, a fuel injector, an oxygen injector, and an exhaust port. The IC engine further comprises a piston rod, one end of which is connected to the piston head and the other end to the crankshaft. The combustion within the combustion chamber is initiated upon the injection of the fuel and the oxygen into the combustion chamber when the piston is at the top dead center. The spent gases are expelled through the exhaust port as the piston returns to the top dead center.Type: ApplicationFiled: November 3, 2011Publication date: March 22, 2012Inventor: Seyed Meisam Aledavood
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Publication number: 20120060793Abstract: A system for controlling fuel injection which injects a fuel to an engine through main injection and/or pilot injection may include a detecting portion detecting a driving condition of the engine, a control portion calculating a change amount of the driving condition from the driving condition of the engine, and deciding actual fuel injection factors based on the driving condition of the engine and the change amount of the driving condition, a high pressure pump controlling a rail pressure according to the actual fuel injection factors, and an injector injecting the fuel according to the actual fuel injection factors.Type: ApplicationFiled: November 30, 2010Publication date: March 15, 2012Applicant: Hyundai Motor CompanyInventor: Youngho KIM
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Patent number: 8132555Abstract: A system for starting an engine is described. In one example, the engine is supplied two fuels via two injectors. The method may improve engine starting and reduce engine emissions.Type: GrantFiled: November 30, 2005Date of Patent: March 13, 2012Assignee: Ford Global Technologies, LLCInventors: Donald J. Lewis, Allan J. Lippa, John D. Russell
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Patent number: 8131449Abstract: A fuel injection valve coupled to a common rail is provided. When fuel injection is carried out, the fuel pressure in the fuel injection valve pulsates. An interval between a pilot injection and a main injection is set so that the main injection is carried out at a zero gradient timing as a timing when the gradient of the fuel pressure in the fuel injection valve after the pilot injection is approximately equal to zero. Owing to a fuel injection control apparatus and a fuel injection control method for an internal combustion engine that perform the above-mentioned control, the fuel injection amount for the subsequent fuel injection following the preceding fuel injection can be reliably held equal to a normal amount.Type: GrantFiled: July 18, 2008Date of Patent: March 6, 2012Assignee: Toyota Jidosha Kabushiki KaishaInventors: Takashi Koyama, Hisashi Ohki, Kiyoshi Fujiwara, Tomohiro Kaneko, Takahumi Yamada
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Patent number: 8118006Abstract: Various systems and methods are described for controlling fuel injection of a dual fuel engine which includes first and second fuel rails and first and second fuel pumps. In one example, while pumping is suspended in the second fuel rail, the first fuel is injected to all but one cylinder of the engine and the second fuel is injected to the one cylinder in a predetermined sequence. As such, the fuel injector injecting to the one cylinder is isolated and its performance may be assessed without significantly affecting engine performance.Type: GrantFiled: April 8, 2010Date of Patent: February 21, 2012Assignee: Ford Global Technologies, LLCInventor: Ross Dykstra Pursifull
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Patent number: 8116962Abstract: A method of operating an internal combustion engine. With reference to FIG. 1, fuel is supplied to charge air using an injector (116) which in each operation delivers a set amount of fuel. The amount of fuel supplied to the charge air in each engine cycle is controlled by how many times the injector (116) operates in each cycle. A desired fuel demand is calculated as a number of operations of the injector per cycle, calculated to at least one decimal place. The desired fuel demand is rounded to a near integer to provide an output fuel demand for the injector as a number of operations of the injector for the next operating cycle in varying operating conditions of the engine. The controller calculates an aggregate number of operations for a plurality of engine cycles which is closer to an aggregated desired fuel demand for the plurality of cycles than if for each cycle of the plurality of output cycles the output fuel demand is calculated independently.Type: GrantFiled: November 9, 2009Date of Patent: February 14, 2012Assignee: Scion-Sprays LimitedInventors: Jeffrey Allen, Paul Bartholomew Ravenhill, Steven Barraclough, Benjamin David Smither, Timothy Guy Drake
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Publication number: 20120029795Abstract: Methods and systems are provided for improving fuel usage while addressing knock by adjusting the use of spark retard and direct injection of a fluid based on engine operating conditions and the composition of the injected fluid. One or more engine parameters, such as EGR, VCT, boost, throttle position, are coordinated with the direct injection to reduce torque and EGR transients.Type: ApplicationFiled: July 29, 2010Publication date: February 2, 2012Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventors: Gopichandra Surnilla, Joseph Norman Ulrey, Thomas G. Leone
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Publication number: 20120024258Abstract: The present invention has an object to obtain an accurate amount of intake air at the time of an operation of an EGR mechanism in a control system of an internal combustion engine which is provided with a first fuel injection valve for injecting fuel into a cylinder, a second fuel injection valve for injecting fuel into an intake port, and the EGR mechanism.Type: ApplicationFiled: April 2, 2010Publication date: February 2, 2012Applicant: TOYOTA JIDOSHA KABUSHIKI KAISHAInventors: Hiroyuki Hokuto, Tomohiro Shinagawa, Nobuyuki Satake
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Publication number: 20120028758Abstract: Boosted engine operation and spark timing of an engine may be adjusted with alcohol content of the fuel in a direct injection engine. Further, various adjustments may be performed in numerous related systems to account for increased maximum engine torque, such as traction control, transmission shifting, etc.Type: ApplicationFiled: October 4, 2011Publication date: February 2, 2012Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventor: Robert A. Stein
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Patent number: 8100107Abstract: Methods and systems are provided for controlling exhaust emissions by adjusting a fuel injection into an engine cylinder from a plurality of fuel injectors based on the fuel type of the injected fuel and further based on the soot load of the engine. Soot generated from direct fuel injection is reduced by decreasing an amount of direct injection into a cylinder as the engine soot load increases.Type: GrantFiled: July 21, 2010Date of Patent: January 24, 2012Assignee: Ford Global Technologies, LLCInventors: David Karl Bidner, Ralph Wayne Cunningham, Stephen G. Russ, James Hilditch, John Eric Rollinger
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Patent number: 8095295Abstract: In a method for controlling fuel injection by means of injectors in a multicylinder internal combustion engine, the injectors are controlled sequentially according to control data for opening and closing in injection processes, wherein for each cylinder in an operating cycle a certain injection segment is defined, during which injection is possible. For the cylinders, a plurality of injection processes are performed per injection segment, the duration and temporal position for these injection processes are defined in the operating cycle, and in a conflict correction step a shift, or suppression, is performed of at least partially overlapping, and therefore conflicting, injection processes.Type: GrantFiled: January 28, 2008Date of Patent: January 10, 2012Assignee: Continental Automotive GmbHInventors: Joachim Engelmann, Joao Graciano, Diego Valero-Bertrand
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Publication number: 20120000441Abstract: A diesel engine for a vehicle comprises an engine body mounted in the vehicle having a plurality of cylinders that is supplied with fuel, a plurality of fuel injection valves for directly injecting the fuel into the cylinders, and an injection control module for controlling a mode of injecting the fuel into the cylinders through the fuel injection valves. The injection control module sets a fuel injection amount per cylinder at least according to a load on the engine body, performs a main injection, and performs at least one pre-injection where fuel is injected prior to the main injection. The injection control module further executes a cylinder-cutoff operation mode where the fuel supplies to the cylinder or the cylinders are stopped when the engine body is under a low load condition where the fuel injection amount per cylinder is below a predetermined amount.Type: ApplicationFiled: June 15, 2011Publication date: January 5, 2012Applicant: Mazda Motor CorporationInventors: Eiji Nakai, Sadaharu Matsumoto, Naotoshi Shirahashi, Shinichi Morinaga
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Publication number: 20110320104Abstract: An engine control system, a controller for the engine control system, and a method of controlling a combustion process in an internal combustion engine operating at an engine operating condition. The engine control is based on closed-loop control of ignition dwell. Ignition dwell is defined as time or crank angle difference between an end of fuel injection (EOI), or some other aspect of an injection control signal, and a start of combustion (SOC), or some other aspect of an internal combustion event. One or more engine control devices, such as a fuel injector or an exhaust gas recirculation valve may be varied to control ignition dwell. By providing such a closed-loop engine control based on ignition dwell, the air/fuel charge mixture, and/or stratification present in the combustion chamber at the moment combustion starts may be controlled.Type: ApplicationFiled: June 23, 2010Publication date: December 29, 2011Applicant: DELPHI TECHNOLOGIES, INC.Inventors: MARK C. SELLNAU, CHOL-BUM KWEON
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Patent number: 8078387Abstract: Disclosed herein is a control apparatus for a spark-ignition engine that is capable of avoiding knocking at the time of high-load operation. With this control apparatus, a residual-gas suction unit or the like is not used, an exhaust gas does not deteriorate due to injection in a compression stroke, and a thermal efficiency also does not decrease. An engine control apparatus (ECU) 20 is used for the control of a direct-injection type spark-ignition engine. During the high-load operation of the spark-ignition engine, the ECU 20 injects fuel a plurality of times. In addition, the ECU performs first fuel injection toward internal EGR that exists in a combustion chamber of the spark-ignition engine.Type: GrantFiled: December 5, 2008Date of Patent: December 13, 2011Assignee: Hitachi, Ltd.Inventors: Kengo Kumano, Shiro Yamaoka, Hiromu Kakuya, Yoshihiro Sukegawa
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Publication number: 20110297122Abstract: The present invention relates to methods of using a low sulfur, low phosphorus, low-ash, zinc free consumable lubricating composition in an internal combustion engine equipped with a pilot ignition system, where the composition comprises: an oil of lubricating viscosity; a high TBN succinimide dispersant and where the lubricant composition overall has a sulfated ash value of up to about 0.2, a phosphorus content of up to about 50 to about 800 ppm and a sulfur content of up to about 0.4 percent by weight.Type: ApplicationFiled: December 3, 2009Publication date: December 8, 2011Applicant: THE LUBRIZOL CORPORATIONInventor: Ewa A. Bardasz
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Publication number: 20110301826Abstract: A conventional gasoline engine is retrofitted to operate as a bi-fuel engine calibrated to burn Hydrogen gas as a primary fuel and gasoline as a secondary fuel at various acceptable air fuel ratios while avoiding forbidden air fuel ratios. The engine is preferably operated to burn Hydrogen fuel in a charged mode and in a lean mode at certain acceptable air fuel ratios where relatively very little NOx emissions occur. When additional power or acceleration is requested, processor controlled fuel injectors are operated to inject relatively small amounts of gasoline into the engine resulting in a fuel mixture that prevents increases in NOx emissions as the processor controls the engine to operate at a stoichiometric air fuel ratio where a catalytic converter is best able to reduce harmful emissions into the environment. The injection of the secondary liquid gasoline fuel to the gaseous Hydrogen fuel the temperature of the fuels significantly reduces or eliminates backfiring tendency of the engine.Type: ApplicationFiled: June 7, 2010Publication date: December 8, 2011Inventors: Jose Ignacio Galindo, Klaus M. Schaffer, Daniel Leitner, Christof Hepp
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Patent number: 8069835Abstract: The present disclosure provides an internal combustion engine having an engine housing with at least one cylinder that has diameter less than about 3 inches. A fuel injector is provided and disposed at least partially within the at least one cylinder, and includes a plurality of outlet orifices having a diameter between about 50 microns and about 125 microns, or about 0.05 millimeters and about 0.125 millimeters. The injector may include more than one set of separately controllable fuel outlet orifices, at least one of which could have an average diameter between about 0.05 millimeters and about 0.125 millimeters. The disclosure further provides a method of operating an internal combustion engine.Type: GrantFiled: January 19, 2007Date of Patent: December 6, 2011Assignee: Caterpillar Inc.Inventors: Carl-Anders Hergart, John T. Vachon, Kevin P. Duffy
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Patent number: 8073638Abstract: The invention relates to a method for determining the ignitability of fuel, particularly of diesel, biodiesel, gas-to-liquid or biomass-to-liquid fuel, with an unknown fuel quality for an internal combustion engine. Provision is made for the density of the fuel to be ascertained and for the ignitability to be derived from this.Type: GrantFiled: October 10, 2008Date of Patent: December 6, 2011Assignee: Robert Bosch GmbHInventors: Manfred Birk, Michael Scheidt, Andreas Rupp
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Publication number: 20110290211Abstract: A fuel system includes a plurality of fuel injectors each defining a nozzle supply passage, a nozzle outlet and a low pressure space. The fuel system includes a plurality of mechanically actuated pressure intensifiers each including a tappet and being positioned partially within one of the fuel injectors, and a common rail fluidly connecting with each of the fuel injectors. Each of the fuel injectors further includes an injection pressure control mechanism having an injection pressure control valve. Each injection pressure control valve blocks the corresponding pressure intensifier from the common rail and fluidly connects the pressure intensifier with the low pressure space at a first position, and fluidly connects the pressure intensifier with the common rail and blocks the pressure intensifier from the low pressure space at a second position.Type: ApplicationFiled: June 1, 2010Publication date: December 1, 2011Applicant: Caterpillar Inc.Inventors: Dana Coldren, Alan Stockner
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Publication number: 20110290207Abstract: Methods and system for enhancing the fuel economy of a diesel engine is disclosed. The system is useable in a four stroke diesel engine to allow a first injection step to be performed whereby fuel is injected into the cylinders of a diesel engine to initiate combustion of the fuel within the cylinder. A second injection step then occurs, whereby an additive is injected into the cylinder, during the cycle but at a time different than the first injection step wherein the additive reaches the cylinder wall. The additive, which reaches the cylinder wall, provides friction modification and fuel economy benefits for a diesel engine.Type: ApplicationFiled: May 26, 2010Publication date: December 1, 2011Applicant: TACONIC ENERGY, INC.Inventors: Benjamin J. KAUFMAN, James R. KETCHAM, William P. ACKER
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Publication number: 20110288746Abstract: A control system includes an engine enable module and a fuel control module. The engine enable module determines whether predetermined operating conditions of a spark ignition direct injection (SIDI) engine are satisfied and enables an engine prime mode when the predetermined operating conditions are satisfied. The fuel control module controls a fuel injector to deliver a prime pulse to a cylinder of the SIDI engine when the engine prime mode is enabled. The fuel injector delivers the prime pulse by opening for a pulse width to inject fuel directly into the cylinder when the SIDI engine is stopped.Type: ApplicationFiled: May 18, 2010Publication date: November 24, 2011Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventors: Mark D. Carr, Michael N. Kotsonas, Michael J. Lucido, Dean R. Kwapis
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Patent number: 8061127Abstract: Various embodiments of an apparatus, system, and method are disclosed for managing regeneration event characteristics. For example, according to one embodiment, an apparatus for controlling the temperature of the outlet exhaust of an internal combustion engine for a regeneration event on a particulate matter filter includes a regeneration module and a fuel injection strategy module. The regeneration module is configured to determine a desired engine outlet exhaust gas temperature for a regeneration event. The fuel injection strategy module is configured to determine a regeneration fuel injection strategy for achieving the desired engine outlet exhaust gas temperature. The regeneration fuel injection strategy includes a main fuel injection, a first heat post-injection, and a second heat post-injection. In certain implementations, the fuel injection strategy also includes at least one or two non-heat post-injections for achieving a desired particulate filter inlet exhaust gas temperature.Type: GrantFiled: April 29, 2008Date of Patent: November 22, 2011Assignee: Cummins, Inc.Inventors: Linsong Guo, Timothy R. Frazier, Morgan Andreae
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Publication number: 20110265759Abstract: An internal combustion engine having an independent gas supply with no compression stroke is provided. The internal combustion engine includes a body, an input unit, an output unit, and an exhaust unit. The body has at least one combustion chamber. The input unit is connected to the combustion chamber, for inputting a high-pressure fuel in the combustion chamber and producing a predetermined pressure inside the combustion chamber. The output unit is connected to the combustion chamber, for outputting power generated by combustion of the high-pressure fuel. The exhaust unit is connected to the combustion chamber, for discharging an exhaust gas generated due to the combustion of the high-pressure fuel. The predetermined pressure is directly produced inside the combustion chamber by inputting the high-pressure fuel in the combustion chamber, and then a combustion stroke is performed.Type: ApplicationFiled: December 18, 2009Publication date: November 3, 2011Inventor: Pang-Chian Lio
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Publication number: 20110265758Abstract: Methods and systems are provided for addressing cylinder pre-ignition by adjusting a spray angle of fuel injected into a cylinder responsive to an indication of pre-ignition. A spray pattern of fuel injected in the cylinder is varied based on a cylinder pre-ignition count to reduce cylinder wall impingement of injected fuel while improving air-fuel mixing in the cylinder.Type: ApplicationFiled: April 20, 2011Publication date: November 3, 2011Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventors: Chris Paul Glugla, Robert Sarow Baskins
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Patent number: 8050844Abstract: A method to supply fuel to an engine of a vehicle is provided. The method includes adjusting a direct injection of fuel into a cylinder of the engine based on whether the vehicle is in a pre-delivery state. In one example, the method includes reducing an amount of fuel in a post injection to reduce cylinder bore wetting effects and lubricant dilution during the engine cold start. After pre-delivery, a normal post injection schedule may be used to reduce emissions.Type: GrantFiled: March 21, 2008Date of Patent: November 1, 2011Assignee: Ford Global Technologies, LLCInventors: John William Hoard, William Charles Ruona
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Publication number: 20110259286Abstract: A fuel injection system is described for injecting slurry fuels into the combustion chamber of a diesel engine, equipped with a fuel common rail, and fitted with a gas to fuel contactor chamber for dissolving supplementary atomizing gas into the continuous phase of the slurry fuel, at high pressure. Each fuel injector comprises a combined double valve for starting and stopping fuel injection, so that slurry fuel containing atomizing gas is only depressurized when injected into the engine combustion chamber, when such depressurization greatly improves fuel atomization and combustion efficiency. In this way small bore, high speed, diesel engines can be efficiently operated on high viscosity, low cost fuels such as tars from tar sands, tars from coal and biomass, and residual petroleum fuels.Type: ApplicationFiled: April 21, 2010Publication date: October 27, 2011Inventor: Joseph Carl Firey
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Publication number: 20110257867Abstract: A method and control module for controlling an engine includes a requested torque module that generates a requested torque and a turbo boost level module that determines a desired boost level based on the driver requested torque. The control module further includes a pulse determination module that determines a primary fuel injection pulsewidth and a secondary fuel injection pulsewidth based on the driver requested torque and the desired boost level and controls a first injection into the cylinder with the primary fuel injection pulsewidth and a second injection into the cylinder with the secondary fuel injection pulsewidth.Type: ApplicationFiled: April 16, 2010Publication date: October 20, 2011Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventors: Lee C. Walker, B. Jerry Song, Zhiping Steven Liu
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Patent number: 8037864Abstract: In a diesel engine 10 equipped with a fuel injection device 50 having a fuel supply pump 53 for pressingly sending a fuel, a common rail 52 for accumulating the fuel pressingly sent from the fuel supply pump, injectors 51 for injecting the fuel into a cylinder by an electronic control, a coolant water temperature sensor 64 for detecting an engine coolant water temperature and a fuel injection quantity map for calculating a target common rail pressure, total amount of injections, the number of multistage injection, the respective injection quantity and the respective injection quantity timing, the diesel engine 10 comprises a total injection quantity increasing means for increasing the total amount of injections in the injection quantity control arithmetic means and an injection number reduction avoidance means for avoiding that the number of multistage injections are changed by the total injection quantity increasing means when the engine is transferred to a cold state to a warming state.Type: GrantFiled: March 4, 2008Date of Patent: October 18, 2011Assignee: Yanmar Co., Ltd.Inventors: Keiichiro Yuzaki, Tomohiro Ootani
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Patent number: 8037874Abstract: Various systems and methods are described for controlling operation of engine cylinders, where each cylinder has a first and second injector for delivering fuel. One example method maintains air-fuel ratio in the exhaust by adjusting fuel injection of a common fuel injector type among the cylinders, where different cylinders operate with different combinations of injectors.Type: GrantFiled: June 11, 2008Date of Patent: October 18, 2011Assignee: Ford Global Technologies, LLCInventor: Chris Paul Glugla
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Publication number: 20110251772Abstract: A system comprises a torque control module, a combustion prediction module, and a fuel control module. The torque control module sets spark timing of an engine to produce a drive torque and determines an amount of delay to add to the spark timing to decrease the drive torque by a predetermined torque. The combustion prediction module predicts whether a single injection of fuel will combust in a cylinder of the engine when the amount of delay is added to the spark timing. The fuel control module actuates a plurality of separate injections of fuel into the cylinder when the combustion prediction module predicts that the single injection of fuel will not combust.Type: ApplicationFiled: April 13, 2010Publication date: October 13, 2011Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventors: Jesse M. Gwidt, Matthew Pruski
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Publication number: 20110247586Abstract: An engine system for a vehicle, comprising of a combustion chamber, a first in-cylinder direct injector configured to deliver a first substance including at least gasoline directly to the combustion chamber at a first pressure; and a second in-cylinder direct injector configured to deliver a second substance including at least an alcohol directly to the combustion chamber at a second pressure less than the first pressure.Type: ApplicationFiled: June 24, 2011Publication date: October 13, 2011Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventors: Michael W. Zubeck, George Carver Davis, Eric Warren Curtis
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Publication number: 20110239645Abstract: Disclosed is a control apparatus for a turbocharged diesel engine. The control apparatus comprises an engine start controller (10) operable, when an engine restart condition associated with a demand for vehicle start is satisfied, to execute a split-injection control to perform a main injection for injecting fuel at a timing around a top dead center of a compression stroke, and a post injection for injecting fuel in an expansion stroke following the main injection, during the engine restart control, and, when an engine restart condition nonassociated with the demand for vehicle start is satisfied, to execute the engine restart control to perform only the main injection without executing the split-injection control. This makes it possible to optimize the engine restart control to be execute in response to satisfaction of the engine restart condition, depending on the presence or absence of the demand for vehicle start.Type: ApplicationFiled: February 11, 2011Publication date: October 6, 2011Applicant: MAZDA MOTOR CORPORATIONInventors: Masahiro NAGOSHI, Masayuki TETSUNO, Masaharu MARUMOTO
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Patent number: 8032293Abstract: In a method for controlling an internal combustion engine, in particular a diesel internal combustion engine, at least one variable is formed on a cylinder-specific basis, which variable characterizes a respective profile of a combustion in an associated combustion chamber, and the control of cylinder-specific fuel injection parameters is influenced as a function of said at least one variable which characterizes the combustion profile.Type: GrantFiled: June 9, 2008Date of Patent: October 4, 2011Assignee: Daimler A.G.Inventors: Simon Binder, Yüriy Bogachik, Alfred Frommelt, Kristina Hellstroem, Frank Kirschbaum, Michael Klier, Lorenzo Matassini, Michael Mladek, Heiko Moeckel-Lherbier, Gerhard Muenkel, Rudiger Pfaff, Karsten Scheible, Martin Schnabel, Jürgen Schorr, Bernd Windisch, Matthias Wolf
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Patent number: 8028676Abstract: The method comprises receiving from the vehicle controller, values associated with the engine speed and of another parameter indicative of the engine operating conditions, such as the total fuelling amount, and controlling the fuel injection parameters according to the engine state, which, for example, can include a normal operation mode, a filter regeneration mode, an engine protection mode, high or low transient load modes, and operating at different altitudes, through algorithms implemented in an electronic controller.Type: GrantFiled: October 18, 2010Date of Patent: October 4, 2011Assignee: Westport Power Inc.Inventors: Richard Ancimer, Olivier P. M. Lebastard, Jeffrey J. Thompson, Greg A. Batenburg, Stewart Whitfield
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Publication number: 20110226214Abstract: When a direct injection type internal combustion engine is in an operating state, a fuel is split and jetted into a cylinder of the internal combustion engine and split injections are performed in a manner to make a ratio of a piston travel and an injection pulse width of split injection constant in a cycle whereby a rich mixture is not locally generated and a mixture in a cylinder of the internal combustion engine is put in a condition near stoichiometry. Also, when the internal combustion engine is in cold condition, a fuel is split and jetted and split injections are performed so that the ratio of the piston travel and the injection pulse width of split injections monotonously increases in a cycle.Type: ApplicationFiled: February 16, 2011Publication date: September 22, 2011Applicant: Hitachi Automotive Systems, Ltd.Inventors: Kenichiroh Ogata, Yoshihiro Sukegawa, Kengo Kumano
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Publication number: 20110220059Abstract: The invention relates to a two-cycle combustion engine, comprising at least one cylinder (1) accommodating a piston (2) and provided with a cylinder head, a crankcase (10) which is in fluid connection with the cylinder (1) by way of transfer ports (12 to 16) which are disposed symmetrically opposite of one another with respect to a diametral plane (5) of the cylinder (1) that is determined by the axis of an exhaust port (4), and two injection nozzles (6, 7) for fuel disposed symmetrically with respect to said diametral plane (5), the nozzle axes (8) of which intersect one another above the piston crown (3) in the diametral plane (5) in the bottom dead centre position of the piston (2).Type: ApplicationFiled: December 2, 2009Publication date: September 15, 2011Inventor: Josef Ganglmayr
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Patent number: 8011600Abstract: A fuel injector nozzle for use with an internal combustion engine utilizes arrangements of nozzle openings that are designed to increase fuel contact with oxygen within a combustion chamber. Nozzle openings are positioned in more than one plane substantially parallel with the cylinder head surface, with the planes preferably at least 2 millimeters apart, and with the respective pluralities of nozzle openings oriented to provide diverging injection angles in relation to the cylinder head surface. The fuel injector is particularly designed for use with oxygen-dilute (e.g., high EGR) controlled temperature combustion, direct injection compression ignition engines.Type: GrantFiled: December 19, 2007Date of Patent: September 6, 2011Assignee: The United States of America as represented by the Administrator of the U.S. Environmental Protection AgencyInventor: Charles L. Gray, Jr.
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Publication number: 20110209685Abstract: Methods and systems are provided for heating a catalyst during engine cold-start conditions. One example embodiment uses positive valve overlap to drive a boosted blow-through airflow through the cylinders of an engine. Fuel is injected with the blow-through airflow during the valve overlap, and also injected into engine cylinders outside the valve overlap. The catalyst is heated by the resulting exothermic reaction of the blow-through airflow with the combustion products and the injected fuel in the exhaust manifold.Type: ApplicationFiled: March 29, 2011Publication date: September 1, 2011Applicant: FORD GLOBAL TECHNOLOGIES, LLCInventors: Michael Daniel Shane, James David Pakko, Paul M. Laing
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Patent number: 8005608Abstract: A fuel injection control apparatus for an internal combustion engine includes a fuel injection portion that performs each of first fuel injection for performing stratified-charge combustion, and second fuel injection for performing homogeneous-charge combustion; and an injection distribution ratio control portion that controls an injection distribution ratio. The injection distribution ratio control portion controls the injection distribution ratio to a target injection distribution ratio set based on a predetermined engine condition after start of the engine. An initial injection distribution ratio is set based on an engine condition at a time of start of the engine, and a change in the injection distribution ratio is controlled by referring to the engine condition after the start of the engine, when the injection distribution ratio is changed from the initial injection distribution ratio to the target injection distribution ratio.Type: GrantFiled: July 23, 2007Date of Patent: August 23, 2011Assignee: Toyota Jidosha Kabushiki KaishaInventor: Koji Morita
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Publication number: 20110197851Abstract: A method for controlling a direct-injection fuel injector for an internal combustion engine includes identifying linear and non-linear fuel mass delivery regions corresponding to predefined ranges of injection duration, monitoring an operator torque request, determining a total desired fuel mass associated with the operator torque request, identifying a fuel mass delivery region corresponding to the total desired fuel mass, and commanding a plurality of partial injection events having injection durations corresponding to the linear fuel mass delivery region to inject the total desired fuel mass when the total desired fuel mass corresponds to the non-linear fuel mass delivery region.Type: ApplicationFiled: February 17, 2010Publication date: August 18, 2011Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventors: Scott E. Parrish, Paul M. Najt
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Publication number: 20110192367Abstract: A compression ignition engine uses two or more fuel charges having two or more reactivities to control the timing and duration of combustion. In a preferred implementation, a lower-reactivity fuel charge is injected or otherwise introduced into the combustion chamber, preferably sufficiently early that it becomes at least substantially homogeneously dispersed within the chamber before a subsequent injection is made. One or more subsequent injections of higher-reactivity fuel charges are then made, and these preferably distribute the higher-reactivity matter within the lower-reactivity chamber space such that combustion begins in the higher-reactivity regions, and with the lower-reactivity regions following thereafter.Type: ApplicationFiled: February 11, 2010Publication date: August 11, 2011Inventors: Rolf Deneys Reitz, Reed M. Hanson, Derek A. Splitter, Sage L. Kokjohn
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Patent number: 7992538Abstract: A method of controlling an internal combustion engine and system including the engine is provided. The method may include closing an exhaust valve of a combustion chamber of said engine during a cylinder cycle prior to opening an intake valve of said combustion chamber. The method may include, when a desired engine torque is a predetermined torque or greater, supplying a first pilot fuel into said combustion chamber after said exhaust valve closing and supplying a first main fuel into said combustion chamber after the combustion of said first preliminary fuel during the cylinder cycle. The method may include, when a desired engine torque is less than said predetermined torque, supplying a second pilot fuel into said combustion chamber after said exhaust valve closing during the cylinder cycle and supplying a second main fuel into said combustion chamber after the supplying of said second pilot fuel into said combustion chamber.Type: GrantFiled: September 29, 2008Date of Patent: August 9, 2011Assignee: Mazda Motor CorporationInventors: Hiroyuki Yamashita, Takeo Yamauchi, Masatoshi Seto
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Patent number: 7992539Abstract: An ECU executes a program including injecting fuel only by an intake passage injector when an engine is idling, starting an addition-type PFI timer, resetting the PFI timer when a count of the PFI timer reaches a set value that is set shorter as the fuel is lighter in fuel property, and injecting the fuel only by an in-cylinder injector.Type: GrantFiled: October 5, 2007Date of Patent: August 9, 2011Assignee: Toyota Jidosha Kabushiki KaishaInventor: Takuya Ikoma
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Publication number: 20110186007Abstract: Diesel engines are proposed as the drive unit for aircrafts that operate reliably and trouble-free even at great altitudes, wherein the combustion in the diesel engines at top dead center is moved up to an earlier point in time according to the flight altitude and the corresponding barometric pressure. In addition, the charge pressure may be set to a constant value, which is not dependent on the flight altitude, and furthermore, the quantity of fuel supplied may be adjusted to a minimum fuel quantity adjusted to the respective charge pressure.Type: ApplicationFiled: August 6, 2009Publication date: August 4, 2011Applicant: THIELERT AIRCRAFT ENGINES GMBHInventor: Erik Bollen