The effects of high shaft power offtake (POT) in a direct drive, a geared drive, and a novel turbofan configuration are investigated. A design and off-design performance analysis shows the configuration specific limitations and advantages. The more electric aircraft (MEA) concept promises to offer advantages with respect to aircraft performance, maintenance, and operating costs. The engines for the MEA concept are based on conventional turbofan architectures. These engines are designed for significantly increased shaft POT that is required by the airframe, and the shaft power is usually taken off the high-pressure (HP) spool. This can impair the off-design performance of the engine and lead to compromises during engine design and to operability limitations. Taking the power off the low-pressure (LP) spool mitigates some of the problems but has other limitations. In this work, an alternative novel turbofan architecture is investigated for its potential to avoid the problems related to high shaft POTs. This architecture is called the dual drive booster because it uses a summation gearbox to drive the booster from both the LP and HP spool. The shaft power, if taken off the booster spool, is effectively provided by both the LP and HP spools, which allows the provision of very high power levels. This new concept is benchmarked against a two-spool direct drive and a geared drive turbofan (GTF). Furthermore, it is described, how the new architecture can incorporate an embedded motor generator. The presented concept mitigates some of the problems, which are encountered during high POT in conventional configurations. In particular, the core compressors are less affected by a change in shaft POT. This allows higher POTs and gives more flexibility during engine design and operation. Additionally, the potential to use the new configuration as a gas turbine-electric hybrid engine is assessed, where electrical power boost is applied during critical flight phases. The ability to convert additional shaft power is compared with conventional configurations. Here, the new configuration also shows superior behavior because the core compressors are significantly less affected by power input than in conventional configurations. The spool speed and its variation are more suitable for electrical machines than in conventional configuration with LP spool power transfer. The dual drive booster concept is particularly suited for applications with high shaft POTs and inputs, and should be considered for propulsion of MEAs.
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December 2018
Research-Article
Dual Drive Booster for a Two-Spool Turbofan: High Shaft Power Offtake Capability for More Electric Aircraft and Hybrid Aircraft Concepts
Vadim Kloos,
Vadim Kloos
Institute of Jet Propulsion and Turbomachinery,
RWTH Aachen University,
Templergraben 55,
Aachen 52062, Germany
e-mail: kloos@ist.rwth-aachen.de
RWTH Aachen University,
Templergraben 55,
Aachen 52062, Germany
e-mail: kloos@ist.rwth-aachen.de
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Trevor H. Speak,
Trevor H. Speak
Derwent Aviation Consulting Ltd,
Burton on Trent DE14 1SN, UK
e-mail: trevor.speak@hotmail.com
58-60 Wetmore Road
,Burton on Trent DE14 1SN, UK
e-mail: trevor.speak@hotmail.com
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Robert J. Sellick,
Robert J. Sellick
Derwent Aviation Consulting Ltd,
Burton on Trent DE14 1SN, UK
e-mail: robertsellick@msn.com
58-60 Wetmore Road
,Burton on Trent DE14 1SN, UK
e-mail: robertsellick@msn.com
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Peter Jeschke
Peter Jeschke
Institute of Jet Propulsion and Turbomachinery,
RWTH Aachen University,
Aachen 52062, Germany
e-mail: jeschke@ist.rwth-aachen.de
RWTH Aachen University,
Templergraben 55
,Aachen 52062, Germany
e-mail: jeschke@ist.rwth-aachen.de
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Vadim Kloos
Institute of Jet Propulsion and Turbomachinery,
RWTH Aachen University,
Templergraben 55,
Aachen 52062, Germany
e-mail: kloos@ist.rwth-aachen.de
RWTH Aachen University,
Templergraben 55,
Aachen 52062, Germany
e-mail: kloos@ist.rwth-aachen.de
Trevor H. Speak
Derwent Aviation Consulting Ltd,
Burton on Trent DE14 1SN, UK
e-mail: trevor.speak@hotmail.com
58-60 Wetmore Road
,Burton on Trent DE14 1SN, UK
e-mail: trevor.speak@hotmail.com
Robert J. Sellick
Derwent Aviation Consulting Ltd,
Burton on Trent DE14 1SN, UK
e-mail: robertsellick@msn.com
58-60 Wetmore Road
,Burton on Trent DE14 1SN, UK
e-mail: robertsellick@msn.com
Peter Jeschke
Institute of Jet Propulsion and Turbomachinery,
RWTH Aachen University,
Aachen 52062, Germany
e-mail: jeschke@ist.rwth-aachen.de
RWTH Aachen University,
Templergraben 55
,Aachen 52062, Germany
e-mail: jeschke@ist.rwth-aachen.de
Contributed by the Aircraft Engine Committee of ASME for publication in the JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER. Manuscript received June 24, 2018; final manuscript received July 1, 2018; published online November 29, 2018. Editor: Jerzy T. Sawicki.
J. Eng. Gas Turbines Power. Dec 2018, 140(12): 121201 (9 pages)
Published Online: November 29, 2018
Article history
Received:
June 24, 2018
Revised:
July 1, 2018
Citation
Kloos, V., Speak, T. H., Sellick, R. J., and Jeschke, P. (November 29, 2018). "Dual Drive Booster for a Two-Spool Turbofan: High Shaft Power Offtake Capability for More Electric Aircraft and Hybrid Aircraft Concepts." ASME. J. Eng. Gas Turbines Power. December 2018; 140(12): 121201. https://doi.org/10.1115/1.4040822
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