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A diesel engine, having a plurality of individually controllable fuel injected cylinders, is operated in a skip firing mode to reduce smoke emissions during low power operation. The system senses certain identified engine operating parameters and when these parameters exceed predetermined thresholds

A diesel engine, having a plurality of individually controllable fuel injected cylinders, is operated in a skip firing mode to reduce smoke emissions during low power operation. The system senses certain identified engine operating parameters and when these parameters exceed predetermined thresholds for a predetermined time, then the skip firing is implemented. In another embodiment, it is possible to implement several different skip firing patterns dependent upon engine performance. Upon implementation of skip firing, the engine timing angle is reset by a fixed angle and a multiplication factor is included in the speed loop integrator to ensure that the appropriate fuel volume value is injected into each cylinder immediately upon initiation of skip firing. Skip firing is then disabled when another set of predetermined conditions is satisfied.

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1. A method for selectively operating a locomotive powered by a diesel engine in a skip firing mode, wherein control of the diesel engine is provided by a discrete-position throttle, and wherein the engine includes a plurality of individually controllable cylinders, the method comprising:(a) during

1. A method for selectively operating a locomotive powered by a diesel engine in a skip firing mode, wherein control of the diesel engine is provided by a discrete-position throttle, and wherein the engine includes a plurality of individually controllable cylinders, the method comprising:(a) during a predetermined time interval, determining the relationship between selected engine operating parameters and a predetermined reference value for each of the selected engine operating parameters;(b) determining whether the throttle has been moved from a first to a second discrete position during the predetermined time interval; and(c) in response to steps (a) and (b) implementing a skip firing pattern for the cylinders. 2. The method of claim 1 wherein the diesel engine further comprises a cooling water system, and wherein fuel having a fuel value is injected into each one of the cylinders during operation of the diesel engine, wherein the selected engine operating parameters are selected from among: a diesel engine cooling water temperature, a diesel engine temperature, a fuel value and a diesel engine speed. 3. The method of claim 1 wherein the diesel engine further comprises a cooling water system, and wherein the step (a) further comprises at least determining whether a cooling water temperature is greater than approximately 140° F. 4. The method of claim 1 wherein step (a) further comprises at least determining whether a temperature of the diesel engine is greater than a predetermined value. 5. The method of claim 1 wherein fuel having a fuel value is injected into each one of the cylinders during operation of the diesel engine, and wherein the step (a) further comprises at least determining a relationship between the fuel value and a fuel value skip-on threshold. 6. The method of claim 1 wherein fuel having a fuel value is injected into each one of the cylinders during operation of the diesel engine, and wherein the step (a) further comprises at least determining whether the fuel value is less than a fuel value skip-on threshold. 7. The method of claim 1 wherein the predetermined time interval is selected to avoid initiation of the skip firing mode in response to transients in one or more engine operating parameters. 8. The method of claim 1 wherein the step (a) further comprises at least determining whether a desired engine speed is approximately equal to a reference speed. 9. The method of claim 1 wherein the step (a) comprises at least determining whether the diesel engine is accelerating. 10. The method of claim 1 wherein the diesel engine operates at an engine timing angle, further comprising a step (d) changing the engine timing angle. 11. The method of claim 10 wherein the step (d) further comprises retarding the engine timing angle. 12. The method of claim 1 further comprising a step (d) terminating engine skip firing when during a predetermined time interval selected engine operating conditions have a predetermined relationship with predetermined reference values. 13. The method of claim 12 wherein the diesel engine further comprises a cooling water system, and wherein fuel having a fuel value is injected into each one of the cylinders during operation of the diesel engine, wherein the selected engine operating parameters are selected from among: a diesel engine cooling water temperature, a diesel engine temperature, a fuel value and a diesel engine speed. 14. The method of claim 1 wherein the step (c) further comprises inhibiting fuel injection to selected cylinders. 15. The method of claim 1 wherein the step (c) further comprises multiplying a fuel value representing a quantity of fuel injected into each cylinder by a factor representing a total number of cylinders in the engine compared with a total number of cylinders firing in accordance with the skip firing pattern. 16. The method of claim 1 wherein the step (c) further comprises including a fuel value multiplication factor in an engine speed control loop t hat controls the plurality of cylinders. 17. A method for selectively operating a locomotive powered by a diesel engine in a skip firing mode, wherein control of the diesel engine is provided by a discrete-position throttle, and wherein the engine includes a plurality of individually controllable cylinders, the method comprising:(a) determining that the engine is operating in a steady state condition during a predetermined time interval;(b) determining whether the throttle has been moved from a first to a second discrete position during the predetermined time interval;(c) in response to steps (a) and (b):(c1) implementing a skip firing pattern for the cylinders; and(c2) including a multiplication factor in the engine speed control loop. 18. A method for selectively operating a locomotive powered by a diesel engine in a skip firing mode, wherein the engine includes a plurality of individually fuelable cylinders, wherein the diesel engine is cooled by cooling water and drives a traction alternator for supplying motive power to the locomotive, the method comprising:implementing skip firing if a first engine operating condition is in a first predetermined state for a first predetermined time and if a second engine operating condition is in a second predetermined state for the first predetermined time, wherein the first engine operating condition comprises a cylinder firing test having an active state or an inactive state, a determination of a temperature of the cooling water and a determination of whether the engine traction alternator is supplying motive power, and wherein the first operating condition is in the first state when the cylinder firing test is in the inactive state, the temperature of the cooling water is greater than a predetermined value and the traction alternator is not supplying motive power;terminating skip firing when either the first engine operating condition is not in the first predetermined state or when the second engine operating condition is not in the second predetermined state; andterminating skip firing if a third engine operating condition is in a third state for a second predetermined time. 19. An apparatus for selectively operating a locomotive powered by a diesel engine in a skip firing mode, wherein control of the diesel engine is provided by a discrete-position throttle, and wherein the engine includes a plurality of individually fuelable cylinders, the apparatus comprising:sensors for ascertaining selected engine operating conditions;a comparator for determining that each selected operating condition has a predetermined relationship with a predetermined reference value for a predetermined time;a module for determining whether the throttle has been moved from a first to a second position during the predetermined time; anda controller for implementing a skip firing pattern by terminating fuel delivery to a number of the plurality of cylinders while the remaining cylinders continue operating, for changing the engine timing angle and for increasing the fuel delivered to the operating cylinders of the plurality of cylinders. 20. The apparatus of claim 19, wherein the diesel engine operates at an engine timing angle, and wherein the controller retards the engine timing angle. 21. The apparatus of claim 19 wherein the controller increases fuel delivered to the operating cylinders of the plurality of cylinders in relation to the number of the plurality of cylinders to which fuel delivery has been terminated.