Entries |
Document | Title | Date |
20080216474 | Internal Combustion Engine - With reference to FIG. | 09-11-2008 |
20080236163 | Assembly, comprising an exhaust gas turbocharger, an intercooler and a charge-air line - To provide an assembly, comprising an exhaust gas turbocharger and an intercooler for an internal combustion engine and a hot-side charge-air line connecting the exhaust gas turbocharger to a charge-air inlet of the intercooler, which assembly allows the movements to be equalised between the exhaust gas turbocharger and the intercooler and is simple to produce and assemble, it is proposed that the hot-side charge-air line comprises a one-piece plastics material tube which is formed from a material containing polytetrafluoroethylene and/or modified polytetrafluoroethylene and has at least one flexible zone. | 10-02-2008 |
20090071148 | Method for estimating compressor output temperature for a two-stage turbocharger - A method for estimating output compressor output temperature for a two-stage turbocharger. The method includes: storing a composite relationship relating temperature ratio across a pair of compressors of the two-stage turbocharger as a function of mass flow through such pair of compressors and pressure drop across the pair of the compressors; calculating the pressure ratio equal to the pressure at an input to the first one of the pair of compressors to the pressure at the output of the second one of the pair compressor; using the composite relationship and an output of a mass flow at the input to the first one of the pair of compressors and the calculated pressure ratio to determine the temperature ratio across the pair of compressors; and calculating the estimated output temperature of the second one of the pair of compressors by multiplying the determined temperature ratio across the pair of compressors by a temperature at the input of the first one of the pair of compressors. | 03-19-2009 |
20090158730 | METHOD FOR COOLING AN INTERNAL COMBUSTION ENGINE HAVING EXHAUST GAS RECIRCULATION AND CHARGE AIR COOLING - A system for cooling charge air from a turbo- or supercharger and exhaust gas recirculated from an exhaust gas recirculation valve in an internal combustion engine. The system includes a radiator and parallel charge air and exhaust gas heat exchanger units, the charge air heat exchanger unit having aluminum tubes and fins for air cooling the charge air, and the exhaust gas heat exchanger unit having stainless steel tubes and fins. The charge air heat exchanger and the exhaust gas heat exchanger units are each disposed adjacent the radiator, on the same or opposite sides. Alternatively, there is provided a pair of combined charge air cooler and exhaust gas cooler heat exchanger units, with a first heat exchanger unit having stainless steel tubes and fins, and a second heat exchanger unit having aluminum tubes and fins. The heat exchanger units are disposed on opposites sides of the radiator. | 06-25-2009 |
20090183506 | Split-Series Sequential Turbocharged Engine - For an internal combustion engine having two cylinder banks forming a V-shaped cylinder block, a turbocharger system including a high pressure turbocharger disposed in a valley between the cylinder banks, a first low-pressure turbocharger disposed adjacent an outer side of one of the cylinder banks, and a second low-pressure turbocharger disposed adjacent an outer side of the second cylinder bank. Intake and exhaust ducts connect the components of the engine and turbocharger system to and electronically controlled valves associated with the ducts permit the system to operate either in a split series mode or a low-pressure-only mode. | 07-23-2009 |
20090205331 | Piston based double compounding engine - A unique piston based, two cycle, internal combustion engine using turbocompounding to recover exhaust heat and a hot air cycle to recover jacket heat. Three engines operate together and share components to make a mechanically simple device. Air and exhaust are the only working fluids. All working cycles are open. There are no external heat exchangers or pumps. Power can be taken from the engine as mechanical shaft power or electrical with the preferred method being electrical. | 08-20-2009 |
20090211244 | Integrated supercharger module - Integrated supercharger module having a low-pressure charging device ( | 08-27-2009 |
20090217660 | FEED CIRCUIT FOR SUPPLYING A SUPERCHARGED ENGINE WITH AT LEAST ONE FLUID AND METHOD FOR SUPPLYING SUCH AN ENGINE WITH AT LEAST ONE FLUID - The present invention relates to a circuit for feeding at least one fluid to an internal-combustion engine, notably of Diesel type, comprising a circuit ( | 09-03-2009 |
20090235661 | EGR Apparatuses systems and methods - One embodiment is a unique system which is operable to provide a mixture of charge air and exhaust to an internal combustion intake at a sub-ambient temperature. Further embodiments, forms, objects, features, advantages, aspects, and benefits shall become apparent from the following description and drawings. | 09-24-2009 |
20090249782 | MODULAR EXHAUST GAS RECIRCULATION COOLING FOR INTERNAL COMBUSTION ENGINES - An EGR system compensates for differing EGR flows and/or exhaust temperatures and can maintain the cooler exit temperature above the critical temperature, thereby reducing the possibility of EGR cooler fouling. A plurality of exhaust gas recirculation cooler modules is disposed between an exhaust gas passage and an air passage. The cooler modules receive exhaust gas from the exhaust gas passage and supply the received exhaust gas to the air passage for recirculation into an intake manifold. Each of the cooler modules includes a cooler portion, a bypass portion, and a flow control device. The cooler portion and the bypass portion are arranged such that fluid flowing through the cooler portion and the bypass portion flows therethrough without flowing through the other of the cooler portion and the bypass portion. The cooler portion reduces a temperature of the fluid flowing through the cooler portion. | 10-08-2009 |
20090320465 | Method and device for producing ammonia for treating exhaust gas in internal combustion engines in a motor vehicle - The invention relates to a process for operating an internal combustion engine, with at least one supercharger, at least one intercooler connected downstream from the supercharger, at least one cooling circuit which is connected to the intercooler, and at least one pressure setting device which controls the supercharger. It is provided that differential pressure determination of the charging air is used for ascertaining the icing state of the intercooler. Furthermore the invention relates to an internal combustion engine for implementing the process. | 12-31-2009 |
20100064683 | DUAL INLET TURBOCHARGER SYSTEM FOR INTERNAL COMBUSTION ENGINE - A dual-inlet turbocharger system for internal combustion engine includes a single-shaft turbocharger with a dual-inlet compressor section. An air router provides a bifurcated air supply for the dual-inlet compressor section, and also provides a bifurcated source of charge air for the engine's cylinders in the case in which the present turbocharger system is applied to a V-block engine. | 03-18-2010 |
20100199663 | Exhaust Gas Inlet Device - An air intake tract arrangement for an internal combustion engine includes an exhaust gas inlet device arranged at the inlet side of a charge air cooler and configured to direct injected EGR exhaust gas substantially in a direction towards an inlet of said charge air cooler, thereby enabling the use of plastic intake tract components. | 08-12-2010 |
20100199664 | DEVICE AND METHOD FOR RECIRCULATING EXHAUST GAS IN AN INTERNAL COMBUSTION ENGINE - An apparatus for returning exhaust gas of an internal combustion engine is provided. The apparatus includes a compressor that is driven by exhaust gas, wherein an exhaust-gas flow enters into the compressor on a high-pressure side and exits the compressor on a low-pressure side. A branch is provided on the high-pressure side with regard to the compressor for returned exhaust gas, and at least one exhaust-gas cooler is provided for transferring heat out of the branched-off exhaust-gas flow into a cooling medium. A heat exchanger is provided, via which heat can be transferred between the exhaust-gas flow, which branches off on the high-pressure side, and an exhaust-gas flow on the low-pressure side with regard to the compressor. | 08-12-2010 |
20100218497 | COOLER ARRANGEMENT FOR A MOTOR VEHICLE - A cooler device for a motor vehicle includes a radiator liquid cooler with a first cooler element for cooling radiator liquid for the motor vehicle's combustion engine, a charge air cooler with a second cooler element for cooling of charge air for the combustion engine, the first and the second cooler elements extending substantially parallel and side by side, with a narrow space between the cooler elements. A screening device in the space between the cooler elements regulates the air flow through the elements. A control mechanism switches the screening device to and fro between an open position in which the screening device does not, or at least does not appreciably, limit the air flow through the cooler elements, and a closed position in which the screening device limits the air flow through the cooler elements. | 09-02-2010 |
20100229548 | COOLER ARRANGEMENT FOR A MOTOR VEHICLE - A cooler device for a motor vehicle includes a charge air cooler with a first cooler element, an EGR cooler with a second cooler element, the first and second cooler elements are arranged beside and substantially in plane with one another. The cooler elements each comprise pipelines for the respective medium to be cooled. Air passages for a cooling air flow are arranged between the pipelines. A screening device is arranged in front of or behind the cooler elements to regulate the air flow through elements. A control mechanism switches the screening device to and from between an open position in which the screening device does not, or at least does not appreciably, limit air flow through the air passages of the cooler elements, and a closed position in which the screening device limits the air flow through the air passages between all of the pipelines of the second cooler element and the air flow through the air passages between only some of said pipelines of the first cooler. | 09-16-2010 |
20100229549 | CHARGE AIR COOLER CONDENSATE SEPARATION AND DISPERSION SYSTEM - A system for separating and dispersing condensate formed in a charge air cooler of a turbocharged engine system. The system includes a drain tube on the charge air cooler lower surface that is plumbed to a reservoir, with a charge air recirculation tube plumbed from the reservoir to the turbocharger compressor inlet duct. The pressure difference between the charge air cooler and the compressor inlet draws any condensate formed in the charge air cooler back into the reservoir. A valve at the bottom of the condensate reservoir will open under predetermined vehicle operating conditions to drain the stored condensate out from the reservoir. The condensate could be simply drained to the ground, or a spray bar could be connected to the reservoir outlet to spay the condensate on to the outside surface of the charge air cooler, providing additional performance for brief periods of high engine load operation. | 09-16-2010 |
20100263369 | ARRANGEMENT AT A SUPERCHARGED COMBUSTION ENGINE - An arrangement for a supercharged combustion engine includes a first compressor compressing air in the engine air inlet line as a first stage and a second compressor compressing the air in the inlet line as a second stage, a first coolant-cooled charge air cooler cooling the air after it has been compressed in the first stage and before it is compressed in the second stage, and an air-cooled charge air cooler cooling the compressed air when it has been compressed by the first stage, a second coolant-cooled charge air cooler cooling the compressed air after it has been compressed in the second stage and before it is compressed in the air-cooled charge air cooler. Exhaust gases in an exhaust line from the engine drive turbines which operate the compressors. A return line from the exhaust line and connected into the inlet line has a cooler for the exhaust gases before mixing the gases with the inlet air. | 10-21-2010 |
20110094219 | CONDENSATION TRAP FOR CHARGE AIR COOLER - Various systems and methods are described for a charge air cooler coupled to an engine. One example method comprises collecting condensate discharged from the cooler in a condensation trap coupled to an outside surface of a bend in an outlet duct of the cooler; during a first condition, temporarily storing the condensate in a reservoir of the condensation trap; and, during first and second conditions, releasing the condensate to the outlet duct in a direction of airflow via a tube. | 04-28-2011 |
20110107760 | Intercooler Having Condensate Reservoir - An engine air intake system for a vehicle having an internal combustion engine may include a turbocharger; a CAC heat exchanger having an inlet end for receiving compressed intake air from the turbocharger and an outlet end; a remote condensate reservoir spaced from the CAC heat exchanger, for storing condensate therein; a condensate drain tube extending from the outlet end to the remote condensate reservoir to allow condensate produced in the CAC heat exchanger to flow into the remote condensate reservoir; an air duct connecting the outlet end to the engine to direct air flow from the outlet end to the engine; and a reservoir outlet hose connected to the remote condensate reservoir at a first end and connected to the air duct at a second end to allow condensate evaporating from the remote condensate reservoir to flow through the reservoir outlet hose into the air duct. | 05-12-2011 |
20110146266 | DEVICE FOR COOLING A COOLANT, CIRCUIT FOR CHARGING AN INTERNAL COMBUSTION ENGINE, AND METHOD FOR COOLING A SUBSTANTIALLY GASEOUS CHARGING FLUID FOR CHARGING AN INTERNAL COMBUSTION ENGINE - A device for cooling a coolant, for cooling a charging fluid for charging an internal combustion engine is provided that includes a refrigerant guide, particularly a refrigerant circuit, and a coolant guide, particularly a coolant circuit; wherein the refrigerant guide comprises a first evaporator for a refrigerant for cooling an ambient air and a second evaporator for a refrigerant for cooling the coolant, the coolant guide comprises a heat exchanger for the charging fluid, a coolant cooler, and the second evaporator for the refrigerant of the refrigerant guide for cooling the coolant. In a first variant, the first and the second evaporator are disposed in series in the refrigerant guide. In a second variant, the first evaporator and the second evaporator are disposed in parallel in the refrigerant guide, particularly wherein a suction throttle is disposed downstream in the refrigerant flow after the second evaporator. A refrigerant bypass for the first and/or second evaporator serves for controlling the performance of the first and/or second evaporator. | 06-23-2011 |
20110154818 | Cooling Structure Of Supercharger - In order to reduce radiation heat from the turbine housing of a supercharger, the turbine housing is conventionally water-cooled or covered with a heat shielding material, but it is required to control heat loss due to excessive water cooling or high temperature on the outer surface of the heat shielding material. On the contrary, a solution by a cooling structure consisting of an inner thermal insulation portion of an air layer and an outer low temperature portion covering the inner thermal insulation portion has an inevitable problem of increasing number of components and upsizing. In a cooling structure of a supercharger ( | 06-30-2011 |
20110185724 | Two-Stage Exhaust Gas Turbocharging Arrangement for an Internal Combustion Engine - A two-stage exhaust gas turbocharger for an internal-combustion engine having an exhaust manifold is provided. In the exhaust gas flow direction a first high-pressure turbocharger and a second high-pressure turbocharger are arranged parallel to one another and a low-pressure turbocharger is arranged in series behind the latter. The two high-pressure turbine housings can be arranged on the exhaust manifold on one side and the low-pressure turbine housing can be arranged on the exhaust manifold on the other side. The exhaust gas coming from the high-pressure turbine housings is guided through a flow duct in or on the exhaust manifold to the low-pressure turbine housing. By way of this construction of the two-stage exhaust gas turbocharging, a compact construction is achieved resulting in cost savings. | 08-04-2011 |
20110219766 | Arrangement and Control Method for Supplying Fresh Gas to a Turbocharged Internal Combustion Engine - An arrangement for supplying fresh gas to a turbocharged internal combustion engine having an intake line and an exhaust gas line, includes an exhaust gas turbocharger having a compressor impeller for compressing fresh gas and feeding the compressed fresh gas to the internal combustion engine, and having a drive impeller for driving the internal combustion engine with exhaust gas for driving the compressor impeller. The arrangement also includes a compressed air supply system for the controlled supply of compressed fresh gas or compressed air to the internal combustion engine. The compressed air supply system is connected via a charge air intake to the compressor impeller, via an outlet to the intake line, and via a compressed air inlet to a compressed air source. The compressor impeller of the exhaust gas turborcharger is composed completely of partially of steel or a steel alloy. | 09-15-2011 |
20120055151 | Drain Valve For An Air Intake System Of A Machine - A machine includes an internal combustion engine mounted on a chassis and having an intake manifold. An air intake system extends from an air inlet to the intake manifold and includes a condensate collection location. The machine also includes a liquid system having a pump that is mechanically coupled to the internal combustion engine. A drain valve is positioned in the air intake system at the condensate collection location and includes a valve member having a closed position and an open position. In the closed position of the valve member, a closing surface of the valve member is exposed to pressurized liquid within the liquid system and the condensate collection location is fluidly blocked from a discharge opening in the air intake system. In the open position of the valve member, the condensate collection location is fluidly connected to the discharge opening. | 03-08-2012 |
20120096852 | ENGINE WITH A CHARGING SYSTEM - An engine has a charging system in which pressurized air is supplied to an intake side of the engine through an intake air passage. An induction passage branches and extends from the middle of the intake air passage and is provided with a control valve. The induction passage is in communication with an exhaust passage. The induction passage supplies secondary air to the exhaust passage through the control valve to treat the engine's exhaust gas. | 04-26-2012 |
20120110995 | EXHAUST HEAT RECOVERY FOR ENGINE HEATING AND EXHAUST COOLING - Various systems and method for heating an engine in a vehicle are described. In one example, intake air flowing in a first direction may be heated via a gas-to-gas heat exchange with exhaust gases. The heated intake air may then be used in a subsequent gas-to-liquid heat exchange to heat a fluid circulating through the engine. In another example, intake air flowing in a second direction may be heated via a heat exchange with exhaust gases in order to cool an exhaust catalyst. | 05-10-2012 |
20120124992 | FLUID HANDLING SYSTEM HAVING DEDICATED EGR TURBO-GENERATOR - A fluid handling system for a use with an engine is provided. The fluid-handling system may have a first turbine connected to receive a portion of an exhaust flow from the engine, a first compressor driven by the first turbine to pressurize an airflow, and a heat exchanger configured to receive a remaining portion of the exhaust flow from the engine and the airflow from the first compressor. The fluid-handling system may also have a second turbine connected to receive the airflow from the heat exchanger, and a generator driven by the second turbine to generate power. | 05-24-2012 |
20120174576 | SUPERCHARGED INTERNAL COMBUSTION ENGINE AND METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE OF SAID TYPE - A supercharged internal combustion engine is provided. The engine comprises a cylinder; an intake line in an intake system, for supplying charge air to the cylinder via an inlet manifold on an inlet side of the internal combustion engine into an inlet opening on the cylinder; an exhaust line for discharging exhaust gases; an exhaust-gas turbocharger including a turbine arranged in the exhaust line and a compressor arranged in the intake line; an exhaust-gas recirculation arrangement including a recirculation line which branches off from the exhaust line downstream of the turbine and opens into the intake line upstream of the compressor; and a charge-air cooler in the intake line downstream of the compressor, the charge-air cooler arranged above the inlet opening of the cylinder. | 07-12-2012 |
20120192557 | Engine System - An engine system comprises an internal combustion engine, a turbocharger and an external wastegate valve. The turbocharger includes a housing for an exhaust gas turbine and a separate housing for the wastegate valve. The turbine housing is liquid cooled so as to reduce its operating temperature thereby allowing it to be made from an aluminium alloy so as to save cost and reducing, during use, the radiation of heat therefrom. | 08-02-2012 |
20120204555 | INTERNAL COMBUSTION ENGINE CHARGE AIR COOLER PRECOOLER - A work machine having an air-breathing, fuel-consuming, liquid-cooled internal combustion (IC) engine and a turbocharger receiving combustion products from the IC engine and a compressor for pressurizing air to the IC engine. A primary heat exchanger is in fluid flow connection between the compressor and the IC engine and a secondary heat exchanger is in fluid flow connection between the compressor and the IC engine and is upstream of the primary heat exchanger. The secondary heat exchanger is an air-to-liquid heat exchanger and receives liquid coolant from the IC engine. | 08-16-2012 |
20120234001 | EXHAUST GAS RECIRCULATION METHOD AND SYSTEM - The present disclosure refers to a method and apparatus for recirculating an exhaust gas flow of a large internal combustion engine having an air inlet and an exhaust gas outlet. The method may comprise the steps of diverting a first partial exhaust gas flow at the exhaust gas outlet of the large internal combustion engine; cooling the exhaust gas of the first partial exhaust gas flow; compressing the cooled first partial exhaust gas flow; cooling the compressed exhaust gas of the first partial exhaust gas flow; and supplying the cooled and compressed first partial exhaust gas flow to the air inlet of the large internal combustion engine. | 09-20-2012 |
20120260649 | SYSTEM AND METHOD FOR COOLING A TURBOCHARGER - A vehicle includes an intercooler cooling fluid circuit coupled to and in fluid communication with a turbocharger of an internal combustion engine for circulating a flow of cooling fluid to the turbocharger to cool the turbocharger. A turbocharger cooling control valve controls fluid flow between the turbocharger and an intercooler. The turbocharger cooling control valve directs the flow of the cooling fluid to the intercooler when the engine is running, directs the flow of cooling fluid to the turbocharger when the engine is not running. The vehicle uses an intercooler pump for circulating the cooling fluid to both the intercooler when the vehicle is running and the turbocharger when the vehicle is not running. | 10-18-2012 |
20120260650 | Internal combustion engine with improved efficiency - An internal combustion engine includes a plurality of combustion cylinders, at least one turbocharger, an exhaust gas line and an exhaust gas recirculation system. A compressor bypass may fluidly connect a compressed air line to the exhaust gas line. If the internal combustion engine has dual cylinder banks, an exhaust gas balance tube may extend between exhaust gas lines of the cylinder banks. A wastegate may fluidly connect the exhaust gas balance tube to an exhaust gas outlet. A compressor bypass may fluidly connect the compressed air line to the exhaust gas balance tube. | 10-18-2012 |
20120266592 | SUPPLEMENTARY INTERCOOLER FOR INTERNAL COMBUSTION ENGINES - A supplementary intercooler cools engine air after it has passed through the turbocharger of a vehicle's turbocharged internal combustion engine, but before it enters the engine. The unit has an inlet for capturing the turbo's air charge and an outlet for routing the air charge to the engine after passing through the intercooler. A container stores water until it is needed and a water pump transfers water from the container to the unit. This loosened bond of water is then sprayed on capacitor plates under turbo pressure to be converted into hydrogen and injected into the air intake stream making it a totally “hydrogen-on-demand” intercooler. | 10-25-2012 |
20120279215 | DIRECTLY COMMUNICATED TURBOCHARGER - One illustrative embodiment includes a turbocharger ( | 11-08-2012 |
20120285162 | FUEL CELL-ENGINE HYBRID SYSTEM - The present invention relates to a fuel cell-engine hybrid system formed to effectively utilize an exhaust gas discharged from a process for generating electricity. A fuel cell-engine hybrid system according to the present invention includes: an electricity generating unit including a cathode and an anode interposing an electrolyte membrane therebetween; and an engine unit connected to a rear end of the electricity generating unit and generating power by receiving the exhaust gas discharged from the anode. | 11-15-2012 |
20120297765 | COOLING ARRANGEMENT FOR A CHARGEABLE INTERNAL COMBUSTION ENGINE - Embodiments for a cooling arrangement are provided. In one example, a cooling arrangement comprises a low-temperature circuit for charge-air cooling of a turbocharger of an internal combustion engine, an engine cooling circuit for cooling the internal combustion engine, and a charge-air cooler arranged in the low-temperature circuit and connected in a fluid-conducting manner on a coolant inlet side, via a first valve device, to the low-temperature circuit and to the engine cooling circuit, and on a coolant outlet side, via a second valve device, to the low-temperature circuit and to the engine cooling circuit. In this way, coolant from the engine may heat the charge-air cooler under certain conditions. | 11-29-2012 |
20130031901 | SUPERCHARGED INTERNAL COMBUSTION ENGINE HAVING TWO TURBINES, AND METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE OF SAID TYPE - Embodiments for a supercharged engine are presented. In one example, a supercharged engine includes a cylinder head having at least two cylinders, each cylinder having at least one outlet opening for discharging exhaust gases and each outlet opening being adjoined by an exhaust line, with exhaust lines of at least two cylinders merging to form an overall exhaust line within the cylinder head so as to form an integrated exhaust manifold, at least two turbines arranged in series, the two turbines being of different size and arranged downstream of the exhaust manifold in the overall exhaust line, a distributor housing in which the overall exhaust line downstream of the manifold enters into and leads through to a small turbine of the two turbines, and a first turbine housing which accommodates the small turbine including at least one coolant jacket in order to form a liquid cooling arrangement. | 02-07-2013 |
20130067912 | HEAT EXCHANGER FOR COOLING CHARGE AIR - A heat exchanger for cooling of charge air for an internal combustion engine of a motor vehicle is provided. The heat exchanger has a preliminary stage, a main stage, and a compensating component. The preliminary stage has at least one preliminary stage fixed bearing base and a preliminary stage floating bearing base. The main stage has at least one main stage fixed bearing base and a main stage floating bearing base. In a heat transfer region of the main stage, at least one main stage channel for a main stage coolant is disposed. The compensating component is configured to compensate a position difference between corresponding components of the preliminary stage and the main stage, whereby the position difference is based on a thermally induced elongation difference between the at least one preliminary stage channel and the at least one main stage channel. | 03-21-2013 |
20130067913 | GAS ENGINE HAVING INTERCOOLER - In a gas engine | 03-21-2013 |
20130098030 | EXHAUST GAS RECIRCULATION HEAT RECOVERY SYSTEM AND METHOD - A system for recovering heat from recirculating exhaust gases is provided. The system includes a first exhaust manifold in fluid communication with multiple combustion chambers of an engine. The system also includes a turbocharger having a turbine stage and a compressor stage, wherein the turbine stage comprises an inlet port in fluid communication with the first exhaust manifold and the compressor stage includes an inlet port for air intake and an outlet port for compressed air. The system includes an exhaust gas recirculation cooler having a first flow path and a second flow path, wherein the first flow path is configured to receive a portion of exhaust gas from the first exhaust manifold flowing through an exhaust gas recirculation loop. The second flow path includes an inlet for receiving a compressed air for drawing heat from the exhaust gas flowing through the first flow path. | 04-25-2013 |
20130098031 | Supercharged Internal Combustion Engine Having Exhaust-Gas Recirculation Arrangement and Method for Operating an Internal Combustion Engine of Said Type - Embodiments for an internal combustion engine having at least one cylinder, at least one exhaust line for discharging combustion gases via an exhaust-gas discharge system, and at least one intake line for supplying charge air via an intake system are provided. In one example, an internal combustion engine comprises an exhaust-gas recirculation arrangement which comprises a recirculation line which branches off from the exhaust-gas discharge system and which opens into the intake system, an exhaust-gas turbocharger comprising a compressor arranged in the intake system and a turbine arranged in the exhaust-gas discharge system, a throttle element which is arranged in the intake line downstream of the compressor, a bypass line which branches off from the intake line upstream of the throttle element and which opens into the intake line again downstream of the throttle element, and an expansion machine for gaining additional energy arranged in the bypass line. | 04-25-2013 |
20130111898 | SYSTEM, METHOD, AND APPARATUS FOR THERMAL MANAGEMENT WITH CHARGE AIR COOLER BYPASS - A system includes an internal combustion engine, an EGR flow path having an EGR cooler path and an EGR cooler bypass path, a turbocharger, a compressed intake flow path, an EGR bypass valve that selectively divides the EGR flow between the EGR cooler path and the EGR cooler bypass path, a charge air cooler bypass valve that reduces an amount of cooling of compressed intake air out of the compression side of the turbocharger, and an aftertreatment component that receives the exhaust stream from the turbine side of the turbocharger. The aftertreatment component requires at least intermittent exhaust stream temperature elevation. The system includes a controller that determines that an exhaust stream temperature elevation request is present, and provides a charge air cooler bypass valve command and an EGR bypass valve command in response to the exhaust stream temperature elevation request. | 05-09-2013 |
20130232969 | EXHAUST GAS TURBOCHARGER MODULE AND INTERNAL COMBUSTION ENGINE OUTFITTED THEREWITH - An exhaust gas turbocharger module and internal combustion engine outfitted therewith are disclosed. The exhaust gas turbocharger modules have an individual turbocharging assembly with a low-pressure exhaust gas turbocharger with a low-pressure turbine and a low-pressure compressor which have a common first turbocharger axis. A high-pressure exhaust gas turbocharger is provided with a high-pressure turbine and a high-pressure compressor which have a common second turbocharger axis extending perpendicular to the first turbocharger axis. The low-pressure turbine is connected downstream of the high-pressure turbine via an exhaust gas connection line, and the high-pressure compressor is connected downstream of the low-pressure compressor via a charge air connection line. A housing receives the low-pressure turbine, the high-pressure turbine and the exhaust gas connection line. The low-pressure compressor, the high-pressure compressor, and the charge air connection line are arranged outside of the housing. | 09-12-2013 |
20130291536 | INTERNAL COMBUSTION ENGINE - An internal combustion with a fresh air supply system, and an exhaust gas system including an exhaust gas turbocharger, which has a turbine arranged in the exhaust gas system and a compressor arranged in the fresh air supply system and a high-pressure exhaust gas recirculation pipe extending from the exhaust gas system upstream of the turbine to a point of the fresh air supply system downstream of the charge air cooler, and a low pressure exhaust gas recirculation pipe extending from a point of the exhaust gas system downstream of the turbine to a point of the fresh air supply system upstream of the compressor and a condensate collection device arranged in the fresh air supply system at, or downstream of, the connecting point of the high pressure recirculation line to the fresh air supply system for the removal of condensate. | 11-07-2013 |
20130291537 | LOW-PRESSURE LOOP EGR DEVICE - A low-pressure loop EGR device ( | 11-07-2013 |
20130305708 | ENGINE THERMAL MANAGEMENT SYSTEM AND METHOD FOR SPLIT COOLING AND INTEGRATED EXHAUST MANIFOLD APPLICATIONS - A thermal management system and method for split cooling and integrated exhaust manifold applications in an automotive engine is provided. The thermal management system includes a cooling circuit that directs coolant through a plurality of components to warm the engine and passenger compartment efficiently, as well as remove excess heat from the engine and promote a constant operating temperature during vehicle operation. The cooling circuit directs liquid coolant, propelled by a coolant pump, through at least one of an engine block cooling jacket, an engine head cooling jacket, and an integrated exhaust manifold (IEM) cooling jacket, along a variety of cooling paths. The cooling circuit also incorporates a plurality of flow control valves to selectively distribute flow of the liquid coolant between a radiator, an engine heater core, and a return path to the coolant pump. | 11-21-2013 |
20130327035 | INTAKE AIR COOLING SYSTEM FOR A MARINE VESSEL HAVING A TURBOCHARGER - Provided is an intake air cooling system for a marine vessel having a turbocharger. The intake air cooling system for the marine vessel includes: a turbocharger which compresses the intake air introduced from the outside using a portion of the exhaust gas generated by the engine, wherein the turbocharger has a front end through which the intake air is introduced and a rear end through which the compressed intake air is supplied to the engine; a cooling part which cools at least one of the intake air compressed in the turbocharger and the exhaust gas passing through the turbocharger, wherein the cooling part includes one or more cooling units disposed along the flow of the intake air or the exhaust gas; and an absorption cooling device which receives heat from the working fluid circulated through the cooling unit. | 12-12-2013 |
20140000255 | AIR SUPPLY DEVICE OF GAS ENGINE | 01-02-2014 |
20140047832 | TURBOCHARGER SYSTEM HAVING AN AIR-COOLED WASTEGATE ACTUATOR - A turbocharger system is provided herein. The turbocharger system includes a turbine positioned downstream of a combustion chamber, a turbine bypass conduit in fluidic communication with a turbine inlet and a turbine outlet, a wastegate positioned in the turbine bypass conduit, and an air-cooled wastegate actuator adjusting the position of the wastegate, the air-cooled wastegate actuator receiving cooling airflow from an intake conduit positioned upstream of a compressor mechanically coupled to the turbine. | 02-20-2014 |
20140047833 | METHOD FOR CONTROLLING A VARIABLE CHARGE AIR COOLER - Embodiments for a charge air cooler are provided. In one example, an engine method comprises during a first mode, decreasing a volume of a charge air cooler in response to a compressor operation upstream of the charge air cooler. In this way, compressor surge may be prevented. | 02-20-2014 |
20140053547 | TWIN INDEPENDENT BOOSTED I4 ENGINE - An engine receiving boost from a supercharger and/or a turbocharger compressor is provided, along with methods for its operation. The engine may include inline cylinders arranged on an engine block and an integrated exhaust manifold (IEM), where exhaust flow from inner cylinders is kept separate from exhaust flow from outer cylinders within the IEM and where exhaust flow from the inner cylinders but not the outer cylinders flows through a turbine of the turbocharger. The supercharger and turbocharger compressor may be arranged in parallel upstream of an intake manifold of the engine, and throttles upstream of each of the supercharger and compressor may be controlled to direct intake air through one or both of the supercharger and the compressor based on engine operating conditions. | 02-27-2014 |
20140060039 | Turbocharger Having Compressor Cooling Arrangement and Method - A compressor adapted to compress a working fluid includes a housing surrounding a compressor wheel and a backplate connected to the housing and enclosing the compressor wheel within an interior space of the housing. A cooling fluid conduit is fluidly connected between a cooled and compressed source of working fluid downstream of the compressor and the interior space of the housing of the compressor at a location between the compressor wheel and the back plate. A pressure differential created when the compressor is operating draws a flow of cooled, compressed charge into the interior space of the housing, which flow passes over and convectively cools said compressor wheel before mixing with a main compressor flow and being provided back through the compressor outlet. | 03-06-2014 |
20140109568 | METHOD FOR PURGING CONDENSATE FROM A CHARGE AIR COOLER - Methods and systems are provided for performing a pro-active condensate clean-out of a charge air cooler. In response to condensate in a charge air cooler and engine operating conditions, airflow is increased to the intake manifold, purging condensate from the cooler. Engine actuators may also be adjusted to maintain torque demand during the clean-out procedure. | 04-24-2014 |
20140109569 | EXHAUST GAS RECIRCULATION SYSTEM FOR ENGINE - Disclosed is an exhaust gas recirculation system for an engine ( | 04-24-2014 |
20140130493 | TURBOCHARGED MOTOR VEHICLE ENGINE SYSTEM AND METHOD - A turbocharged motor vehicle engine system includes an engine having an intake manifold, an exhaust manifold, and a crankcase ventilation outlet. A turbocharger includes a turbine having an inlet fluidly connected to the exhaust manifold through an exhaust conduit and a turbo compressor having an outlet fluidly connected to the intake manifold through an inlet conduit. The turbo compressor also includes an inlet. A crankcase gas conditioning member includes an inlet section fluidly connected to the crankcase ventilation outlet and an outlet section fluidly connected to the turbo compressor inlet. An idle bypass conduit includes an inlet portion fluidly connected to the outlet section of the crankcase gas conditioning member and an outlet portion fluidly connected to the inlet conduit. The idle bypass conduit is configured and disposed to selectively bypass the turbo charger while the engine is operating at an idle. | 05-15-2014 |
20140144132 | CHARGE AIR COOLER ASSEMBLY - A charge air cooler assembly for an internal combustion engine is described. A housing of the charge air cooler assembly includes a dividing wall that separates flow after the charge air cooler into two separate flow paths. | 05-29-2014 |
20140150422 | Clean Fill Port System and Method - A clean fill port system for a compressed gas tank having a fill port includes a sealable enclosure surrounding the fill port. The sealable enclosure includes a closeable lid that defines a sealed cavity within the sealable enclosure when the lid is in a closed position. A pressurized fluid supply port is directly fluidly connected with the sealed cavity. The sealable enclosure completely encloses the fill port and is configured to maintain a pressurized fluid within the sealed cavity such that ingress of water or debris into the sealed cavity is prevented. | 06-05-2014 |
20140150423 | TWO-STAGE TURBOCHARGER ASSEMBLY WITH SINGLE LOW-PRESSURE TURBOCHARGER - A two-stage turbocharger assembly for an internal combustion engine is provided. The assembly has a single low pressure turbocharger, and more than two high pressure turbochargers arranged in parallel with each other. The compressor outlet of the single low pressure turbocharger is operatively connected to the compressor inlets of the high pressure turbochargers. The turbine outlets of the high pressure turbochargers are operatively connected to the turbine inlet of the single low pressure turbocharger. | 06-05-2014 |
20140157772 | CONTROLLED TRANSIENT ACCELERATION TO EVACUATE CONDENSATE FROM A CHARGE AIR COOLER - Methods and systems are provided for purging condensate from a charge air cooler. In response to condensate in a charge air cooler during a tip-in, airflow is increased at a controlled rate to the intake manifold, purging condensate from the charge air cooler. | 06-12-2014 |
20140182284 | DIESEL ENGINE AND TRANSVERSE TURBOCHARGER - A turbocharger is mounted on a diesel engine (e.g., a marine diesel engine), with the turbocharger's turbine axis transverse to a crankshaft axis of the engine. | 07-03-2014 |
20140202149 | Waste Heat Recovery System for Controlling EGR Outlet Temperature - An engine system and various methods for controlling the outlet temperature of an EGR stream before entering an engine intake system are disclosed. In a system and the various methods, an exhaust gas recirculation (EGR) valve is positioned within an EGR passage fluidly connecting an engine exhaust stream and an engine intake stream, while a waste heat recovery (WHR) system is used to recover heat from the EGR stream. An engine control unit (ECU) is coupled to various sensors and valves to divert working fluid in the WHR system from cooling the EGR exhaust flow below a level which favors production of condensation in the engine intake system. The ECU operates to divert working fluid flow away from the EGR boiler when sensors indicate characteristics of either the exhaust flow or the intake stream which might lead to heavy condensation. A three-way valve is also used to divert the working fluid to a variable expansion valve fluidly coupled to the three-way valve in response to a signal from one of the sensors to prevent damage to the system turbine. | 07-24-2014 |
20140208738 | SYSTEM AND METHOD FOR PROTECTING AN ENGINE FROM CONDENSATION AT INTAKE - An engine protection system and methods for preventing intake condensation are disclosed. In a system and various of the methods, an exhaust gas recirculation (EGR) valve is positioned within an EGR passage fluidly connecting an engine exhaust stream and an engine intake stream, while a waste heat recovery (WHR) system is used to recover heat from the EGR stream. An engine control unit (ECU) is coupled to various sensors and valves to divert working fluid from the WHR system from cooling the EGR exhaust flow below a level which favors production of condensation in the engine intake system. The ECU operates to divert working fluid flow when sensors indicate characteristics of either the exhaust flow or the intake stream which might lead to heavy condensation. A three-way valve is also used to divert the working fluid to a variable expansion valve fluidly coupled to the three-way valve in response to a signal from one of the sensors to prevent damage to the system turbine. | 07-31-2014 |
20140238016 | SUPERCHARGING SYSTEM FOR ENGINE - A supercharging system for an engine includes: a cylinder block forming a combustion chamber; an intake manifold connected to the cylinder block to supply ambient air thereto; an exhaust manifold collecting exhaust gas discharged from the combustion chamber and guiding the same to the environment; a third supercharge path connecting an inlet of the intake manifold to the exhaust manifold; and an electric supercharger supplying compressed air to the exhaust manifold through the third supercharge path. Responsiveness of an engine is enhanced and stabilization of the engine is promoted. | 08-28-2014 |
20140245735 | CHARGE-AIR INTERCOOLER SYSTEM WITH INTEGRATED HEATING DEVICE - Methods and systems are provided for a charge air cooling system of an engine. In one example, a turbocharger arrangement includes an internal combustion engine, a turbocharger for supercharging the internal combustion engine, a charge-air intercooler located in an intake tract between the turbocharger and the internal combustion engine, and an auxiliary cooling system including a first feed line for supplying a first coolant to the charge-air intercooler, the first feed line positioned upstream of the charge-air intercooler and downstream of a cooling element, the first feed line including a heat recovery element. The heat recovery element may exchange heat between the first coolant and a heat transfer medium, the heat transfer medium including one of engine coolant or exhaust gas. | 09-04-2014 |
20140260239 | MULTI-STAGE TURBOCHARGER SYSTEM WITH INTERCOOLING AND AFTERCOOLING - A turbocharged internal combustion engine system includes at least one high pressure turbocharger system and at least one low pressure turbocharger system. An air-to-air intercooler is connected between the low pressure compressor of the low pressure turbocharger system and the high pressure compressor of the high pressure turbocharger system. An air-to-water aftercooler is connected to the intake system between the high pressure compressors and the intakes of the cylinders of the internal combustion engine. | 09-18-2014 |
20140305122 | INTERNAL COMBUSTION ENGINE WITH A CYLINDER HEAD HAVING AN INTEGRATED DRAINAGE CHANNEL AND METHOD FOR PRODUCING THE INTERNAL COMBUSTION - An internal combustion engine is provided. The engine includes a cylinder head having a cylinder having an exhaust valve opening and an intake valve opening, an intake port in fluidic communication with the intake valve opening and configured to flow intake air to the cylinder through the intake valve opening, and a condensate drainage channel extending into a wall of the intake port and including an inlet positioned downstream of an outlet, the inlet positioned vertically above the outlet. | 10-16-2014 |
20140311141 | WASTE HEAT UTILIZATION APPARATUS - A waste heat utilization apparatus of a first embodiment includes a driving system including an engine and a turbocharger supplying pressurized air to the engine, and a Rankine cycle system used for the driving system. The Rankine cycle system includes a coolant boiler causing heat exchange between coolant as heating medium and working fluid, and a pressurized air boiler causing heat exchange between the pressurized air as heating medium and the working fluid. A first bypass channel for allowing the working fluid to bypass the coolant boiler and a three-way valve are provided in the Rankine cycle system. In the waste heat utilization apparatus, the amount of heat absorbed in the working fluid in the coolant boiler can be reduced by flowing the working fluid into the first bypass channel. | 10-23-2014 |
20140311142 | Intake Manifold with an Intercooler - An intake manifold for a charged internal combustion engine has an intercooler provided with coolant connectors that is disposed in an intake manifold housing. The intake manifold housing has at least two housing parts including a basic housing part. The intake manifold housing is provided with at least one inlet and at least one outlet for charge air and is further provided with at least one passage for the coolant connectors of the intercooler. The intercooler is arranged between the at least one inlet and the at least one outlet so as to be flowed through by the charge air. The intercooler is fastened in the basic housing part by a fastening device such that the intercooler separates at least on one side of the basic housing part the at least one inlet seal-tightly from the at least one outlet. | 10-23-2014 |
20140311143 | Air-Guiding Component with an Intercooler - An air-guiding component for a charged internal combustion engine has an intercooler provided with coolant connectors that is disposed in a housing of the air-guiding component. The housing has at least two housing parts including a basic housing part. The housing is provided with at least one inlet and at least one outlet for charge air and is further provided with at least one passage for the coolant connectors of the intercooler. The intercooler is arranged between the at least one inlet and the at least one outlet so as to be flowed through by the charge air. The housing has housing walls and at least one of the housing walls has at least one corrugation. | 10-23-2014 |
20140318119 | COOLING ASSEMBLY HAVING MULTIPLE COOLERS - A cooling assembly having multiple coolers is disclosed. The cooling assembly may include a housing at least partially defining a first chamber and a second chamber adjacent to the first chamber and substantially isolated from the first chamber. The housing may also at least partially define first and second inlets configured to direct air into the first chamber in parallel, and first and second outlets configured to direct air out of the second chamber in parallel. The cooling assembly may also include a first cooler disposed in the first chamber, and a second cooler disposed in the second chamber. | 10-30-2014 |
20140318120 | AIR HANDLING SYSTEM HAVING COOLING ASSEMBLY - An air handling system having a cooling assembly is disclosed. The air handling system may include a first turbocharger having a first compressor, a second turbocharger having a second compressor connected in parallel with the first compressor, and a third turbocharger fluidly connected to the first and second turbochargers. The third turbocharger may have a third compressor connected downstream of the first and second compressors. The air handling system may also include a cooling assembly connected to the first, second, and third turbochargers. The air handling system may further include a first passage fluidly connecting the first turbocharger to a first side surface of the cooling assembly, and a second passage fluidly connecting the second turbocharger to a second side surface of the cooling assembly opposite the first side surface. The first and second passages may be configured to direct compressed air into the cooling assembly in generally opposite directions. | 10-30-2014 |
20140325979 | COMPRESSOR RECIRCULATION VALVE CONTROL TO REDUCE CHARGE AIR COOLER CONDENSATE - Methods and systems are provided for adjusting a compressor recirculation valve in response to condensate forming conditions in a charge air cooler (CAC). In one example, a compressor recirculation valve may be opened in response to an induction pressure greater than a threshold pressure when the induction pressure is greater than required to produce a manifold pressure required for a torque demand. Further, a wastegate may be opened to further reduce the induction pressure during certain driving conditions. | 11-06-2014 |
20140325980 | EXHAUST GAS RECIRCULATION SYSTEM - An exhaust gas recirculation (EGR) system includes a turbocharger having compressor and turbine wheels, a high-pressure intake passage provided between the compressor wheel and an intake port of an internal combustion engine, a CAC provided on the high-pressure intake passage to cool intake gas, a high-pressure exhaust passage provided between an exhaust port of the engine and the turbine wheel, an EGR passage branched from the high-pressure exhaust passage and connected to the high-pressure intake passage, and an EGR cooler for cooling EGR gas flowing through the EGR passage by coolant flowing through a coolant recirculation passage of the engine. A downstream end of the EGR passage is connected to the high-pressure intake passage at an upstream of the CAC. According to the EGR system, intake gas mixed with EGR gas can be supplied to the engine at desired temperature, so that fuel consumption of the engine can be improved. | 11-06-2014 |
20140373528 | FIXED POSITIVE DISPLACEMENT EGR SYSTEM - A fixed positive displacement exhaust gas recirculation (EGR) system includes an intake manifold in fluid communication with a fresh intake air source, an exhaust manifold, and an engine having at least one EGR cylinder and at least one non-EGR cylinder. The at least one EGR cylinder is in fixed fluid communication with the intake manifold such that substantially all of the exhaust gas flows from the at least one EGR cylinder to the intake manifold, and the at least one non-EGR cylinder is in communication with the exhaust manifold such that exhaust gas flows from the at least one non-EGR cylinder into the exhaust manifold. | 12-25-2014 |
20150007560 | TURBOCHARGED SINGLE CYLINDER INTERNAL COMBUSTION ENGINE USING AN AIR CAPACITOR - Internal combustion engine system. The system includes a single cylinder engine having an engine volume, the single cylinder engine having an intake manifold for introducing air into the engine and an exhaust manifold for discharge of exhaust gases. A turbocharger communicates with the exhaust manifold to receive exhaust gases to power the turbocharger. The turbocharger includes a compressor section communicating with the intake manifold to pressurize ambient air. An air capacitor is arranged to receive the pressurized ambient air from the turbocharger and to deliver the pressurized air to the engine during an intake stroke. | 01-08-2015 |
20150007561 | ACTIVE CONDITIONING SYSTEM OF A GASEOUS FLUID INTAKE OF AN INTERNAL COMBUSTION ENGINE - Intake system for a supercharged internal combustion engine, comprising an intake duct with a cooling line comprising a high temperature cooler and a lower temperature cooler arranged in series along the intake duct, and a by-pass branch arranged in parallel with the low temperature cooler, and a heating line with a heater. The heating line is arranged in parallel with the cooling line. The intake system is configured so that it may be modulated between a heating mode, where the gaseous intake fluid is heated through the heater, and a cooling mode, where the gaseous intake fluid is cooled through at least one of the high temperature cooler and the low temperature cooler. | 01-08-2015 |
20150013329 | INLET DEVICE FOR AN AFTERCOOLER - An inlet device for an aftercooler is provided. The inlet device includes a body defining an elongated flowpath therein. The body includes a front opening disposed at a beginning of the flowpath. The body further includes a bottom opening disposed at an angle with respect to the front opening and at an end of the flowpath. The inlet device further includes at least two baffles disposed in the flowpath between the front opening and the bottom opening. The baffles have different heights measured from the bottom opening, and the respective heights of the baffles increase with distance from the front opening. | 01-15-2015 |
20150020521 | CHARGE AIR COOLER HOUSING WATER TRAP - A charge air cooler includes a cooler housing configured to couple with an intercooler core outlet and having a condensate/water trap disposed within the cooler housing. The water trap is configured to inhibit water passing through the housing outlet. The water trap is further configured to collect the water and introduce it to the engine at a controlled rate. | 01-22-2015 |
20150020522 | ENGINE SYSTEM - An engine system may include a first intake line connected to an intake manifold and supplying the intake manifold disposed on a cylinder block with outside air, an intake bypass valve disposed on the first intake line, a second intake line that bypasses the first intake bypass valve to the intake manifold, a first exhaust line through which exhaust gas flows from an exhaust manifold disposed on the cylinder block, an exhaust bypass valve disposed on the first exhaust line, a second exhaust line connected to the exhaust manifold and bypasses the exhaust bypass valve, a turbo charger disposed between the second intake line and the second exhaust line and operated by exhaust gas passing the second exhaust line to pump intake air flowing the second intake line, and a control portion that controls the intake bypass valve and the exhaust bypass valve depending on a driving condition. | 01-22-2015 |
20150027114 | AIR INTAKE APPARATUS FOR INTERNAL COMBUSTION ENGINE - A case is connected between an outlet side of a turbocharger and an intake port of an engine. A cooling passage and a bypass passage are partitioned in the case to split intake air into two flows. A storage unit is formed in a bottom portion of the case to accumulate liquid. The cooling passage is located along a gravity direction to flow intake air from a lower side to an upper side. The bypass passage flows intake air to bypass the cooling passage. A valve controls opening of the cooling passage and the bypass passage on an inlet side or on an outlet side. The valve opens the bypass passage to forcedly supply at least a part of intake air, which is drawn into the case, through the storage unit and the bypass passage into the intake port. | 01-29-2015 |
20150040559 | INTAKE COOLER FOR INTAKE-EXHAUST GAS HANDLING SYSTEM - An intake-exhaust gas handling system for an internal combustion engine includes an intake system, an exhaust system, an intake cooler, and an exhaust gas recirculation (EGR) system. The intake system provides an intake charge, which can be a mixture of exhaust gas and air, to the internal combustion engine. The exhaust system removes exhaust gas generated by the internal combustion engine after a combustion process. The intake cooler can be disposed at the intake system for cooling the intake charge prior to its discharge into the internal combustion engine. The EGR system routes exhaust gas from the exhaust system to the intake system, where it is mixed with air at a position upstream of the intake cooler. | 02-12-2015 |
20150047339 | METHOD FOR ESTIMATING CHARGE AIR COOLER CONDENSATION STORAGE AND/OR RELEASE WITH TWO INTAKE OXYGEN SENSORS - Methods and systems are provided for estimating water storage in a charge air cooler (CAC). In one example, engine operation may be adjusted responsive to water storage parameters at the CAC, the water storage parameters based on an output of a first oxygen sensor positioned downstream of the CAC and a second oxygen sensor positioned upstream of the CAC. Further, operation of the first oxygen sensor and the second oxygen sensor may be diagnosed during certain engine operation conditions wherein no condensate is forming in the CAC. | 02-19-2015 |
20150059336 | ARRANGEMENT OF AN INTERCOOLER IN AN INTAKE PIPE - Arrangement of an intercooler in an intake pipe, wherein the intercooler has a cooler block through which charge air can flow and a first opening through the intake pipe, through which the intercooler can be inserted into the intake pipe, wherein the intake pipe has a second opening, which is arranged substantially opposite the first opening and can be closed by means of a housing part. | 03-05-2015 |
20150101326 | METHODS AND SYSTEMS FOR AN OXYGEN SENSOR - Methods and systems are provided for accurately learning the zero point of an intake gas oxygen sensor during selected idling conditions. The learned zero point is used to infer EGR flow and accordingly adjust EGR valve control. In addition, EGR valve leakage is diagnosed based on the zero point learned during an idle adaptation relative to a zero point learned during a DFSO adaptation. | 04-16-2015 |
20150101327 | METHODS AND SYSTEMS FOR AN OXYGEN SENSOR - Methods and systems are provided for accurately learning the zero point of an intake gas oxygen sensor during selected engine no-fueling conditions. The learned zero point is used to infer EGR flow and accordingly adjust EGR valve control. In addition, EGR valve leakage is diagnosed based on the zero point learned during a DFSO adaptation relative to a zero point learned during an idle adaptation. | 04-16-2015 |
20150101328 | METHODS AND SYSTEMS FOR AN OXYGEN SENSOR - Methods and systems are provided for accurately learning the zero point of an intake gas oxygen sensor in varying ambient humidity conditions. The learned zero point is corrected based on an estimated ambient humidity to calibrate the reading for dry air conditions or standard humidity conditions. EGR control is performed by comparing the output of an intake oxygen sensor during EGR conditions relative to the humidity-corrected zero point. | 04-16-2015 |
20150113978 | System and Method for an Aftercooler Bypass - Embodiments of systems and methods for bypassing an aftercooler are disclosed. According to one embodiment, the bypass valve system may include a turbocharger, an air temperature sensor, an aftercooler, a three-way bypass valve, an aftercooler conduit, a bypass conduit, a pipe fitting, an engine, a radiator, an expansion tank, a pump, a bypass control system and a locomotive control system. The temperature of the charge air is measured and sent to the bypass control system. The locomotive control system sends engine throttle conditions, such as engine notch position, to bypass control system. Bypass control system determines whether to circulate coolant through the aftercooler or bypass the aftercooler based on the temperature measurements and the engine throttle conditions. Bypass control system then sends a signal to the bypass valve to either to circulate coolant through the aftercooler or bypass the aftercooler through the conduit. | 04-30-2015 |
20150113979 | METHOD FOR ESTIMATING CHARGE AIR COOLER CONDENSATION STORAGE WITH AN INTAKE OXYGEN SENSOR - Methods and systems are provided for estimating water storage in a charge air cooler (CAC). In one example, an amount of water accumulating in the CAC may be based on an output of an oxygen sensor positioned downstream of the CAC and ambient humidity. Further, engine actuators may be adjusted to purge condensate from the CAC and/or reduce condensate formation based on the amount of water inside the CAC. | 04-30-2015 |
20150135705 | METHOD AND SYSTEMS FOR REDUCING CHARGE AIR COOLER CONDENSATE USING A SECONDARY INTAKE THROTTLE - Methods and systems are provided for adjusting a secondary intake throttle based on condensate formation in a charge air cooler, the secondary throttle positioned upstream of the charge air cooler. In one example, a method may include decreasing an opening of the secondary intake throttle in response to increased condensate accumulation within the charge air cooler. The method may further include adjusting a primary throttle positioned in an intake manifold based on the condensate accumulation and torque demand. | 05-21-2015 |
20150308390 | SEPARATION CHAMBER TYPE ANTI-SURGE VALVE AND COMMERCIAL VEHICLE TURBOCHARGER SYSTEM APPLYING THE SAME - A separation chamber type anti-surge valve may include a valve body formed with a charge air passage inlet and a charge air passage outlet, and a valve cover coupled to the valve body by a fastening member to define an empty inner space between the valve body and the valve cover, in which the inner space is divided into a diaphragm chamber and a bypass chamber by a valve guide, one side tip of a valve rod being fixed in the diaphragm chamber, a valve disc fixed to another side tip of the valve rod, and the diaphragm chamber is divided into a control pressure chamber and a normal static pressure chamber. | 10-29-2015 |
20150369119 | CHARGE AIR COOLER WATER PROTECTION - A structure for separating condensate formed in a charge-air-cooler of a turbocharged engine system. The structure may include ribs that catch and direct condensate away from the outlet. The structure may also include a deflector and water dam that prevents condensation from exiting the charge-air-cooler outlet. The condensate maybe be collected and simply drained to outside of the vehicle. | 12-24-2015 |
20150377118 | COOLING DEVICE FOR TURBOCHARGER OF INTERNAL COMBUSTION ENGINE PROVIDED WITH BLOWBY GAS RECIRCULATION DEVICE (AS AMENDED) - The object of the invention is to suppress the generation or accumulation of deposits in a compressor of a turbocharger of an engine provided with a blowby gas recirculation device. The invention relates to a cooling device for the turbocharger ( | 12-31-2015 |
20160003179 | CONDENSATION CONTROL SYSTEM FOR ENGINE - A system for controlling condensation of water within an intake manifold of an engine is disclosed. The system may have a humidity sensor. The humidity sensor may be configured to generate a signal indicative of a humidity of intake air. The system may also have a controller communicably coupled to the humidity sensor. The controller may be configured to receive the signal indicative of the humidity of the intake air. The controller may be also configured to control an operational parameter of at least one of the engine and an engine component to maintain the humidity of the intake air within the intake manifold below a predetermined threshold. | 01-07-2016 |
20160025048 | COOLING DEVICE FOR INTERNAL COMBUSTION ENGINE PROVIDED WITH BLOWBY GAS RECIRCULATION DEVICE AND TURBOCHARGER (AS AMENDED) - The object of the invention is to provide a cooling device for accomplishing both of required engine and compressor cooling degrees. The invention relates to a cooling device for an engine provided with a blowby gas recirculation device ( | 01-28-2016 |
20160061100 | CHARGE AIR COOLER CONDENSATE RESERVOIR - A condensate reservoir for a charge air cooler of an engine has one or more inlets for receiving condensate from the charge air cooler, and a chamber for collecting the condensate from the charge air cooler. The condensate reservoir is configured to be in thermal communication with an exhaust gas recirculation duct of the engine such that thermal energy from the exhaust gas recirculation duct may be transferred to the condensate reservoir to vaporise the condensate collected in the chamber. | 03-03-2016 |
20160061101 | ENGINE SYSTEM INCLUDING TURBOCHARGER AND SUPERCHARGER - An engine system, that includes a turbocharger and a supercharger, forms a boost pressure in an intake with the turbocharger, complements an insufficient boost pressure with the supercharger and supplies an exhaust gas from an exhaust line to an intake line. | 03-03-2016 |
20160084202 | HIGH-ENTHALPY FLUID INJECTION INTEGRATED WITH GLOW PLUG - Disclosed is a turbocharged internal combustion piston engine system that includes a waste-heat recovery system. The waste-heat recovery system involves injecting heated water into the cylinders during combustion to increase engine power and efficiency and to reduce emissions. The engine can be a spark or compression ignition type of engine, and can utilize fuels including but not limited to diesel, natural gas, gasoline, and ethanol. The engine also includes a turbocharger that utilizes a turbine in the exhaust gas flow to provide power to a compressor in the intake air flow to pressurize the intake air and provide additional charge flow to the engine to increase engine output. | 03-24-2016 |
20160097320 | ALL-IN-ONE-EGR - A device of a system for air ducting of an internal combustion engine in a motor vehicle with a turbocharger arranged between an exhaust gas line and an intake line. The device includes a high pressure flow pathway with a valve branching from the exhaust gas line between the internal combustion engine and a turbine side of the turbocharger, a low pressure flow pathway with a valve branching in the flow direction of the exhaust gas downstream from the turbine side of the turbocharger, and an exhaust gas heat exchanger. A first flow pathway with a valve and a second flow pathway with a valve merge into a mouth region with a third flow pathway. At least one section of the high pressure flow pathway, the low pressure flow pathway, the flow pathways, and the exhaust gas heat exchanger are integrated inside a housing formed as a continuous compact unit. | 04-07-2016 |
20160108869 | INTAKE AIR COOLING SYSTEM IN ENGINE - An intake air cooling system in an engine may include: an intake manifold; a connection passage in communication with the intake manifold; an intake passage provided in communication with the connection passage; a compressor provided for compressing the outdoor air passed through the intake passage and forwarding the outdoor air compressed thus to the connection passage as the intake air; an intercooler arranged on the connection passage for cooling the outdoor air compressed by the compressor with cooling water; a low temperature radiator for dispersing heat remaining in the cooling water passed through the intercooler to air; a cooling water passage arranged to circulate the cooling water while passing through the low temperature radiator, the compressor, and the intercooler in succession, and a water pump for pumping the cooling water to circulate it along the cooling water passage. | 04-21-2016 |
20160123213 | Power System with an Intake Gas Cooler - A power system including an intake gas cooler and aftercooler positioned gaseously downstream thereof. The intake gas cooler is configured to receive a fresh intake gas for combusting in an engine and a recirculated exhaust gas expelled by the engine for re-combusting therein. | 05-05-2016 |
20160160744 | SYSTEM AND METHODS FOR ENGINE AIR PATH CONDENSATION MANAGEMENT - A system and methods for routing condensate collected in a heat exchanger reservoir to either an air intake system or a position in the engine exhaust based on the type of contaminate in the condensate and operating parameters of the engine or the catalyst are described. In one particular example, condensate is routed to a first position along the engine air intake system in a first mode of operation, and a second position upstream of the catalyst along the engine exhaust in a second mode of operation, and a third position downstream of the catalyst along the engine exhaust in a third mode of operation. When substantially no contaminates are detected, the condensate may be routed into the engine exhaust upstream of the catalyst in order to cool the catalyst. | 06-09-2016 |
20160169170 | METHODS AND SYSTEMS FOR INCREASING AIRFLOW THROUGH A CHARGE AIR COOLER TO DECREASE CHARGE AIR COOLER CONDENSATE | 06-16-2016 |
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