An engine includes one or more cylinders configured to receive gaseous fuel for use in combustion. Two gaseous fuel injectors per cylinder, include: a first injector directed at the corresponding cylinder and having an injection capacity of a first amount of gaseous fuel per injection, and a second
An engine includes one or more cylinders configured to receive gaseous fuel for use in combustion. Two gaseous fuel injectors per cylinder, include: a first injector directed at the corresponding cylinder and having an injection capacity of a first amount of gaseous fuel per injection, and a second injector directed at the corresponding cylinder and having an injection capacity of a second amount of gaseous fuel per injection, the second amount being greater than the first amount. The engine is operable in a first mode in which a per-cylinder fuel demand is at or below the first amount, and only the first injector is operable for each cylinder. The engine is operable in a second mode in which the per-cylinder fuel demand is greater than the first amount, and only the second injector is operable for each cylinder.
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1. An engine comprising: one or more cylinders, each cylinder being configured to receive gaseous fuel for use in combustion; andtwo gaseous fuel injectors per cylinder, including: a first injector directed at the corresponding cylinder and having an injection capacity of a first amount of gaseous f
1. An engine comprising: one or more cylinders, each cylinder being configured to receive gaseous fuel for use in combustion; andtwo gaseous fuel injectors per cylinder, including: a first injector directed at the corresponding cylinder and having an injection capacity of a first amount of gaseous fuel per injection, and a second injector directed at the corresponding cylinder and having an injection capacity of a second amount of gaseous fuel per injection, the second amount being greater than the first amount,wherein the engine is operable in a first mode in which a fuel demand is at or below the first amount, and only the first injector is operable for each cylinder, andwherein the engine is operable in a second mode in which the fuel demand is greater than the first amount, and only the second injector is operable for each cylinder. 2. The engine of claim 1, wherein each cylinder includes at least one intake valve, and, for each cylinder, both the first injector and the second injector are located upstream of the corresponding at least one intake valve. 3. The engine of claim 2, wherein all of the gaseous fuel injectors of the engine are in fluid communication with a common fuel supply having a supply pressure incident upon all of the gaseous fuel injectors. 4. The engine of claim 3, wherein the injection capacity of each of the first and second fuel injectors is the maximum amount of fuel that can be injected within an intake valve opening duration of the at least one intake valve, given the supply pressure. 5. The engine of claim 2, wherein the engine is a multi-cylinder engine further comprising a common intake plenum in fluid communication with every cylinder of the engine, the intake plenum being provided without individual runners to each of the cylinders. 6. The engine of claim 5, further comprising a throttle body, wherein the common intake plenum is positioned between the throttle body and a number of intake ports associated with respective ones of the cylinders. 7. The engine of claim 1, wherein the engine is operable in a third mode in which the per-cylinder fuel demand is at or below the first amount and only the second injector is operable. 8. A method of operating a gaseous fuel engine having one or more cylinders, the method comprising: providing two injectors per cylinder, including: a first injector and a second injector;analyzing an engine load;in a first mode of operation, injecting gaseous fuel into each cylinder via only the corresponding first injector when the engine load requires an amount of gaseous fuel that is less than or equal to a first amount; andin a second mode of operation, injecting gaseous fuel into each cylinder via only the corresponding second injector when the engine load requires a second amount of gaseous fuel that is greater than the first amount. 9. The method of claim 8, further comprising: providing at least one intake valve per cylinder to selectively permit fluid communication between each cylinder and the corresponding two injectors,wherein, in both the first mode of operation and the second mode of operation, the injection of gaseous fuel into each cylinder is carried out only within an intake valve opening duration of the at least one intake valve. 10. The method of claim 9, further comprising providing all of the gaseous fuel injectors of the engine in fluid communication with a common fuel supply having a supply pressure incident upon all of the gaseous fuel injectors. 11. The method of claim 10, wherein the second fuel injectors have an injection capacity that is greater than an injection capacity of the first injectors, the injection capacities defined as the maximum amount of fuel that can be injected within the corresponding intake valve opening duration, given the supply pressure. 12. The method of claim 8, further comprising: providing the engine with a plurality of cylinders; andproviding a common intake plenum, in fluid communication with every one of the plurality of cylinders, without individual runners to each of the cylinders,wherein injecting gaseous fuel into each of the number of cylinders includes injecting gaseous fuel for all of the cylinders of the engine into the common intake plenum. 13. The method of claim 12, further comprising providing a flow of intake air to the common intake plenum, and throttling the flow of intake air upstream of the common intake plenum. 14. The method of claim 8, further comprising: in a third mode of operation, injecting gaseous fuel into each cylinder via only the corresponding second injector when the engine load requires an amount of gaseous fuel which is at or below the first amount. 15. A method of operating a gaseous fuel engine having one or more cylinders, the method comprising: providing two gaseous fuel injectors per cylinder, including: a first injector and a second injector, wherein the second injector has a higher injection capacity than an injection capacity of the first injector;providing an intake valve per cylinder configured to transition between a closed position and an open position;analyzing an intake valve opening duration in which the intake valve is in the open position; andinjecting gaseous fuel into each cylinder only within the corresponding intake valve opening duration, the injection of gaseous fuel including: injecting gaseous fuel into each cylinder via only the corresponding first injector in a first mode of engine operation when the intake valve opening duration is greater than a predetermined duration; andinjecting gaseous fuel into each cylinder via only the corresponding second injector in a second mode of operation when the intake valve opening duration is less than the predetermined valve opening duration. 16. The method of claim 15, the method further comprising: providing the engine with a plurality of cylinders; andproviding a common intake plenum, in fluid communication with every one of the plurality of cylinders, without individual runners to each of the cylinders,wherein injecting gaseous fuel into each cylinder includes injecting gaseous fuel for all of the cylinders of the engine into the common intake plenum. 17. The method of claim 16, further comprising providing a flow of intake air to the common intake plenum, and throttling the flow of intake air upstream of the common intake plenum. 18. The method of claim 15, further comprising providing all of the gaseous fuel injectors of the engine in fluid communication with a common fuel supply having a supply pressure incident upon all of the gaseous fuel injectors. 19. The method of claim 18, wherein the injection capacity of each of the first and second fuel injectors is the maximum amount of fuel that can be injected within the corresponding intake valve opening duration, given the supply pressure. 20. The method of claim 15, further comprising injecting gaseous fuel into each cylinder via only the corresponding second injector in a third mode of engine operation when the intake valve opening duration is greater than the predetermined duration.
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