An exhaust manifold for use with an internal combustion engine, the exhaust manifold including a body, one or more fluid passageways defined by the body, a valve in fluid communication with at least one of the one or more fluid passageways, the valve being adjustable between an open configuration and a closed configuration, a mounting bracket supported by the body, and an actuator in operable communication with the valve and configured to adjust the valve between the open and closed configurations, and wherein the actuator is coupled to the mounting bracket.

An exhaust manifold for use with an internal combustion engine, the exhaust manifold including a body, one or more fluid passageways defined by the body, a valve in fluid communication with at least one of the one or more fluid passageways, the valve being adjustable between an open configuration and a closed configuration, a mounting bracket supported by the body, and an actuator in operable communication with the valve and configured to adjust the valve between the open and closed configurations, and wherein the actuator is coupled to the mounting bracket.

Systems and methods are provided for controlling exhaust gas recirculation (EGR). In one example, an engine system includes a first EGR valve coupling an exhaust manifold to an engine exhaust system, a second EGR valve coupling the exhaust manifold to an engine intake system, and a control unit. The control unit selectively adjusts a position of the first EGR valve based on a target amount, and adjusts a position of the second EGR valve based on the target amount and a position of the first EGR valve. Responsive to a first degradation condition of the first EGR valve, the control unit adjusts the position of the second EGR valve based on the target amount and based on a pressure of the first exhaust manifold, and responsive to a second degradation condition of the first EGR valve, adjusts the position of the second EGR valve based on the target amount.

A system and method for dissipating vehicle under hood heat accumulated during stationary engine operation at high load or RPM and/or under high temperature ambient conditions is installed in a vehicle having an engine positioned within an engine compartment, and a cooling fan selectively driven by way of a fan clutch. The system includes a controller connected to the engine and to the fan clutch. The controller determines whether the period of stationary engine operation occurs at or above a threshold engine load or RPM, at or above a threshold engine operating temperature, at or above a threshold ambient temperature, and/or for or longer than a threshold stationary engine operation duration. If so, the at least one controller increases a low idle set point of the engine and commands the fan clutch to engage or remain engaged for a cool-down period following the period of stationary engine operation.

A system and method for dissipating vehicle under hood heat accumulated during stationary engine operation at high load or RPM and/or under high temperature ambient conditions is installed in a vehicle having an engine positioned within an engine compartment, and a cooling fan selectively driven by way of a fan clutch. The system includes a controller connected to the engine and to the fan clutch. The controller determines whether the period of stationary engine operation occurs at or above a threshold engine load or RPM, at or above a threshold engine operating temperature, at or above a threshold ambient temperature, and/or for or longer than a threshold stationary engine operation duration. If so, the at least one controller increases a low idle set point of the engine and commands the fan clutch to engage or remain engaged for a cool-down period following the period of stationary engine operation.

A recirculation valve of an exhaust gas recirculation apparatus includes: a valve housing having a gas inlet into which a recirculation gas flows, a gas outlet from which the recirculation gas is discharged, and an intermediate inlet disposed between the gas inlet and the gas outlet; and a valve body selectively opening and closing the gas inlet and the intermediate inlet.

A recirculation valve of an exhaust gas recirculation apparatus includes: a valve housing having a gas inlet into which a recirculation gas flows, a gas outlet from which the recirculation gas is discharged, and an intermediate inlet disposed between the gas inlet and the gas outlet; and a valve body selectively opening and closing the gas inlet and the intermediate inlet.

Methods and systems are provided for exhaust gas heat recovery and exhaust gas recirculation (EGR) cooling using a single split heat exchanger. Exhaust heat from each of a first portion of exhaust routed to the intake manifold as EGR and a second portion of exhaust diverted via a bypass passage for exhaust heat recovery may be transferred to a coolant flowing through the heat exchanger. The direction of coolant flow via the heat exchanger may be adjusted based on the coolant temperature.

Methods and systems are provided for exhaust gas heat recovery and exhaust gas recirculation (EGR) cooling using a single split heat exchanger. Exhaust heat from each of a first portion of exhaust routed to the intake manifold as EGR and a second portion of exhaust diverted via a bypass passage for exhaust heat recovery may be transferred to a coolant flowing through the heat exchanger. The direction of coolant flow via the heat exchanger may be adjusted based on the coolant temperature.

The device includes an upstream pipe, extending along a first direction, and in which at least one purification member is housed, a first downstream pipe, extending along a second direction, and in which at least one heat exchanger is housed, and a second downstream pipe configured to be connected to an exhaust gas outlet tube. The device also includes an intermediate chamber comprising an exhaust gas inlet communicating with the upstream pipe, downstream from the at least one purification member, a first exhaust gas outlet communicating with the first downstream pipe, and a second exhaust gas outlet communicating with the second downstream pipe. The first direction and the second direction form an angle between them comprised between 0 and 90.