Effectiveness of Mechanical Turbo Compounding in a Modern Heavy-Duty Diesel Engine

Callahan Timothy J.; Branyon David P.; Forster Ana C.; Ross Michael G.; Simpson Dean J.

doi:10.20485/jsaeijae.3.2_69

International Journal of Automotive Engineering (Apr 2012)

Effectiveness of Mechanical Turbo Compounding in a Modern Heavy-Duty Diesel Engine

Callahan Timothy J.,
Branyon David P.,
Forster Ana C.,
Ross Michael G.,
Simpson Dean J.

Affiliations

Callahan Timothy J.: Southwest Research Institute
Branyon David P.: Southwest Research Institute
Forster Ana C.: Southwest Research Institute
Ross Michael G.: Southwest Research Institute
Simpson Dean J.: Southwest Research Institute

DOI: https://doi.org/10.20485/jsaeijae.3.2_69
Journal volume & issue: Vol. 3, no. 2
pp. 69 – 73

Abstract

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Over the years, multiple engine manufacturers have offered mechanical turbo compounding on some engine models as a means to improve the efficiency of diesel engines. In theory, converting exhaust energy which would otherwise be wasted to shaft work seems like a technical path that no manufacturer should ignore especially in today’s world with the uncertainty of future CO2 emission regulations or fuel economy standards. This paper offers an independent examination of the effectiveness of the most recent implementation of mechanical turbo compounding on the Detroit Diesel (Daimler) DD15. In order to evaluate the effectiveness, an analysis procedure was developed for computing the tradeoff between power generated by the power turbine and losses incurred due to higher exhaust back-pressure as a result of the power turbine with consideration to the requirement for some minimum exhaust pressure to drive EGR.

Published in International Journal of Automotive Engineering

ISSN: 2185-0992 (Online)
Publisher: Society of Automotive Engineers of Japan, Inc.
Country of publisher: Japan
LCC subjects: Technology: Motor vehicles. Aeronautics. Astronautics
Website: https://ijae.jp/

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