Internal-combustion engines – Charge forming device – Including cylinder pressure or temperature responsive means
Reexamination Certificate
2002-03-21
2003-09-16
Denion, Thomas (Department: 3748)
Internal-combustion engines
Charge forming device
Including cylinder pressure or temperature responsive means
C123S676000, C060S602000, C060S603000
Reexamination Certificate
active
06619261
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to systems for controlling an operating condition of an internal combustion engine, and more specifically to systems for controlling an engine control mechanism in a manner that limits the engine operating condition to within a desired operating range.
BACKGROUND AND SUMMARY OF THE INVENTION
When combustion occurs in an environment with excess oxygen, peak combustion temperatures increase which leads to the formation of unwanted emissions, such as oxides of nitrogen (NO
x
). This problem is aggravated through the use of turbocharger machinery operable to increase the mass of fresh air flow, and hence increase the concentrations of oxygen and nitrogen present in the combustion chamber when temperatures are high during or after the combustion event.
One known technique for reducing unwanted emissions such as NO
x
involves introducing chemically inert gases into the fresh air flow stream for subsequent combustion. By thusly reducing the oxygen concentration of the resulting charge to be combusted, the fuel burns slower and peak combustion temperatures are accordingly reduced, thereby lowering the production of NO
x
. In an internal combustion engine environment, such chemically inert gases are readily abundant in the form of exhaust gases, and one known method for achieving the foregoing result is through the use of a so-called Exhaust Gas Recirculation (EGR) system operable to controllably introduce (i.e., recirculate) exhaust gas from the exhaust manifold into the fresh air stream flowing to the intake manifold valve, for controllably introducing exhaust gas to the intake manifold. Through the use of an on-board microprocessor, control of the EGR valve is typically accomplished as a function of information supplied by a number of engine operational sensors.
While EGR systems of the foregoing type are generally.effective in reducing unwanted emissions resulting from the combustion process, a penalty is paid thereby in the form of a resulting loss in engine efficiency. A tradeoff thus exists in typical engine control strategies between the level of NO
x
production and engine operating efficiency, and difficulties associated with managing this tradeoff have been greatly exacerbated by the increasingly stringent requirements of government-mandated emission standards.
In order to achieve the dual, yet diametrically opposed, goals of limiting the production of NO
x
emissions to acceptably low levels while also maximizing engine operational efficiency under a variety of load conditions, substantial effort must be devoted to determining with a high degree of accuracy the correct proportions of air, fuel and exhaust gas making up the combustion charge. To this end, accurate, real-time values of a number of EGR system-related operating parameters must therefore be obtained, preferably at low cost. Control strategies must then be developed to make use of such information in accurately controlling the engine, EGR system and/or turbocharger. The present invention is accordingly directed to techniques for controlling engine operation to maintain one or more engine operating conditions within desired operating limits.
The present invention provides a system for controlling engine fueling in a manner that limits turbocharger turbine temperature to an established turbocharger turbine temperature limit.
The present invention also provides a system for controlling engine fueling in a manner that limits engine exhaust temperature to an established engine exhaust temperature limit.
The present invention further provides a system for controlling engine fueling in a manner that limits peak cylinder pressure to an established peak cylinder pressure limit.
The present invention further provides a system for controlling one or more turbocharger air handling mechanisms in a manner that limits turbocharger rotational speed to an established turbocharger speed limit.
These and other objects of the present invention will become more apparent from the following description of the preferred embodiment.
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Vittorio David A.
Wang Yue Yun
Wright John F.
Barnes & Thornburg
Cummins Inc.
Denion Thomas
Trieu Thai-Ba
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