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| Authors: | G. P. Blair, D. O. Mackey, M. C. Ashe, G. F. Chatfield |
| Title: | Exhaust Tuning on a Four-Stroke Engine; Experimentation and Simulation |
| Date: | November, 2001 |
| Published: | SAE Small Engine Technology Conference, Pisa, Italy - SAE 2001-01-1797/4218 |
| Abstract: |
A Yamaha YZ400, 5-valve, 4-stroke cycle, motocross racing, motorcycle engine is instrumented to provide
pressure diagrams in the exhaust system which are recorded over the usable engine speed range at full
throttle from 5000 rpm to 11000 rpm. The engine produces a maximum of some 34 kW (46 hp) power output. The
production muffler-ended exhaust system is replaced with two alternative and more highly tuned exhaust
systems, namely a straight pipe and a straight pipe and diffuser. The complete engine geometry together
with these two exhaust systems is simulated using an engine simulation software package (VIRTUAL ENGINES)
and the experimentally recorded exhaust pressure diagrams and performance characteristics of power, torque,
etc., are compared with the predictions of the theoretical simulation. The variation of the exhaust system
produces differing performance characteristics whose origins the measured pressure diagrams and recorded
performance characteristics struggle to explain. The simulation, on the other hand, not only computes
accurately the exhaust pressure diagrams and the performance characteristics over the entire speed range but
also explains the origins of variations in these performance characteristics. This illustrates not only the
effectiveness, or otherwise, of this type of exhaust tuning on a four-stroke engine but also the
effectiveness of an accurate engine simulation as a design and development tool. Finally, from the
experimental and simulation evidence presented the paper draws numerical conclusions on empirical design
factors for the basics of exhaust system tuning.
You may obtain a copy of this paper at the SAE International website. |
