Control strategy for expanding diesel HCCI combustion range by lowering intake manifold temperature
First Claim
1. A compression ignition engine comprising:
- a control system comprising a processor for processing data including data indicative of engine load;
one or more combustion chambers;
an intake system for conveying charge air to the one or more combustion chambers;
a fueling system for injecting fuel into the one or more combustion chambers;
an exhaust system for conveying exhaust gases from the one or more combustion chambers;
an exhaust gas recirculation system, comprising valves and heat exchangers in a flow control circuit, for controlling both recirculation of some of the exhaust gases to the intake system and temperature of recirculated exhaust gases;
wherein a first branch of the circuit comprises a first of the valves and a first of the heat exchangers in series, a second branch of the circuit comprises a second of the valves in parallel with the first branch, and a third branch of the circuit comprises a second of the heat exchangers through which flow through the first branch and flow through the second branch are constrained to pass; and
when a result of the processor processing data indicative of engine load discloses engine load in a low load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes flow through the second and third branches, but not the first branch,when a result of the processor processing data indicative of engine load discloses engine load in a medium load range comprising loads greater than those of the low load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes flow through the first and third branches, but not the second branch,and when a result of the processor processing data indicative of engine load discloses engine load in a high load range comprising loads greater than those of the medium load range, the control system causes the fueling system to fuel the engine for operation by conventional diesel combustion and causes flow through the second and third branches, but not the first branch.
13 Assignments
0 Petitions
Accused Products
Abstract
An engine (10, 100) utilizes “regular EGR cooling” when operating in HCCI mode within a low load range and “enhanced EGR cooling” that allows the engine to continue to operate in HCCI mode when engine load increases beyond the low load range. When engine load increases to a high load range, the combustion mode changes over to conventional diesel combustion, and exhaust gas recirculation reverts to “regular EGR cooling”. In a first embodiment, cooling is provided by two heat exchangers, one being a regular EGR cooler always used when cooling is needed and the other, an enhancing EGR cooler that is selectively used. In a second embodiment, cooling is also provided by two heat exchangers, one being an EGR cooler through which liquid coolant always flows when cooling is needed, and the other being a radiator used selectively to cool the liquid coolant before it enters the EGR cooler.
-
Citations
16 Claims
-
1. A compression ignition engine comprising:
-
a control system comprising a processor for processing data including data indicative of engine load; one or more combustion chambers; an intake system for conveying charge air to the one or more combustion chambers; a fueling system for injecting fuel into the one or more combustion chambers; an exhaust system for conveying exhaust gases from the one or more combustion chambers; an exhaust gas recirculation system, comprising valves and heat exchangers in a flow control circuit, for controlling both recirculation of some of the exhaust gases to the intake system and temperature of recirculated exhaust gases; wherein a first branch of the circuit comprises a first of the valves and a first of the heat exchangers in series, a second branch of the circuit comprises a second of the valves in parallel with the first branch, and a third branch of the circuit comprises a second of the heat exchangers through which flow through the first branch and flow through the second branch are constrained to pass; and when a result of the processor processing data indicative of engine load discloses engine load in a low load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes flow through the second and third branches, but not the first branch, when a result of the processor processing data indicative of engine load discloses engine load in a medium load range comprising loads greater than those of the low load range, the control system causes the fueling system to fuel the engine for operation by alternative diesel combustion and causes flow through the first and third branches, but not the second branch, and when a result of the processor processing data indicative of engine load discloses engine load in a high load range comprising loads greater than those of the medium load range, the control system causes the fueling system to fuel the engine for operation by conventional diesel combustion and causes flow through the second and third branches, but not the first branch. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A method of operating a compression ignition engine that has a control system comprising a processor for processing data and an exhaust gas recirculation system comprising valves and first and second heat exchangers arranged in a flow control circuit for both controlling recirculation of some of the exhaust gases resulting from combustion of fuel injected by a fuel injection system into one or more combustion chambers to an intake system and controlling temperature of recirculated exhaust gases, the method comprising:
-
operating the processor to process data indicative of engine load; when a result of the processor processing data indicative of engine load discloses engine load in a low load range, operating the fuel injection system to fuel the engine for operation by alternative diesel combustion and placing the valves in a state that allows flow of a fluid medium through the second heat exchanger and disallows flow of the medium through the first heat exchanger; when a result of the processor processing data indicative of engine load discloses engine load in a medium load range comprising loads greater than those of the low load range, operating the fuel injection system to fuel the engine for operation by alternative diesel combustion and placing the valves in a state that allows flow of the medium through both the first and second heat exchangers, and when a result of the processor processing data indicative of engine load discloses engine load in a high load range comprising loads greater than those of the medium load range, operating the fuel injection system to fuel the engine for operation by conventional diesel combustion and placing the valves in a state that allows flow of the medium through the second heat exchanger. - View Dependent Claims (8, 9, 10, 11, 12)
-
-
13. A method of operating a compression ignition engine that has a control system comprising a processor for processing data and an exhaust gas recirculation system comprising a flow control circuit that both controls recirculation of some of the exhaust gases resulting from combustion of fuel injected by a fuel injection system into one or more combustion chambers to an intake system and controls temperature of recirculated exhaust gases, the method comprising:
-
operating the processor to process data indicative of engine load; when a result of the processor processing data indicative of engine load discloses engine load in a first load range, operating the fuel injection system to fuel the engine for operation by alternative diesel combustion and configuring the flow control circuit to a first circuit configuration that endows the circuit with a capacity for cooling the recirculated exhaust gases appropriate to the first load range for enabling alternative diesel combustion in the first load range; when a result of the processor processing data indicative of engine load discloses engine load in a second load range comprising loads greater than those of the first load range, operating the fuel injection system to fuel the engine for operation by alternative diesel combustion and configuring the flow control circuit to a second circuit configuration that is different from the first circuit configuration and endows the circuit with a capacity for cooling the recirculated exhaust gases appropriate to the second load range for enabling alternative diesel combustion in the second load range; and when a result of the processor processing data indicative of engine load discloses engine load in a third load range comprising loads greater than those of the second load range, operating the fuel injection system to fuel the engine for operation by conventional diesel combustion and configuring the flow control circuit to a circuit configuration that is appropriate to the third load range and conventional diesel combustion. - View Dependent Claims (14)
-
-
15. A compression ignition engine comprising:
-
a control system comprising a processor for processing data including data indicative of engine load; one or more combustion chambers; an intake system for conveying charge air to the one or more combustion chambers; a fueling system for injecting fuel into the one or more combustion chambers; an exhaust system for conveying exhaust gases from the one or more combustion chambers; an exhaust gas recirculation system, comprising a re-configurable flow control circuit, for controlling both recirculation of some of the exhaust gases to the intake system and temperature of recirculated exhaust gases; when a result of the processor processing data indicative of engine load discloses engine load in a first load range, the fuel injection system fuels the engine for operation by alternative diesel combustion and the control system configures the flow control circuit to a first circuit configuration that endows the circuit with a capacity for cooling the recirculated exhaust gases appropriate to the first load range for enabling alternative diesel combustion in the first load range; when a result of the processor processing data indicative of engine load discloses engine load in a second load range comprising loads greater than those of the first load range, the fuel injection system fuels the engine for operation by alternative diesel combustion and the control system configures the flow control circuit to a second circuit configuration that is different from the first circuit configuration and endows the circuit with a capacity for cooling the recirculated exhaust gases appropriate to the second load range for enabling alternative diesel combustion in the second load range; and when a result of the processor processing data indicative of engine load discloses engine load in a third load range comprising loads greater than those of the second load range, the fuel injection system fuels the engine for operation by conventional diesel combustion and the control system configures the flow control circuit to a circuit configuration that is appropriate to the third load range and conventional diesel combustion. - View Dependent Claims (16)
-
Specification