Multi-Point Design of Parallel Hybrid Aero Engines
Paper i proceeding, 2020

A parallel hybrid configuration is a feasible means to reduce fuel consumption of gas turbines propelling aircraft. It introduces an electric drive on one of the spools of the gas turbine, typically the low pressure spool. The electric drive is supplied by a battery, which can also be charged when excess power is available (for instance during conditions requiring handling bleed in conventional designs). It also requires a thermal management system to dissipate heat away from electric components. While the scientific literature describes parallel hybrid studies and anticipated benefits assuming various future entry into service dates, there is limited information on the design of the gas turbine component of such a system. For conventional gas turbines, multi-point design schemes are used. This paper describes, in a consistent fashion and based on a formalized notation, how such multi-point design schemes are applied to parallel hybrid aero engines. It interprets published approaches, fills gaps in methodology descriptions with meaningful assumptions and summarizes design intent. It also discusses cycle designs generated by different methodologies based on the same cycle model. Results show that closure equations prescribing boost power can be preferable over closure equations prescribing temperature ratios for uniqueness and engineering intuitiveness while the latter can be beneficial in a second step for design space exploration.

Författare

Michael Sielemann

Modelon

Clément Coïc

Modelon

Xin Zhao

Chalmers, Mekanik och maritima vetenskaper, Strömningslära

Dimitra Eirini Diamantidou

Mälardalens högskola

Konstantinos Kyprianidis

Mälardalens högskola

AIAA Propulsion and Energy 2020 Forum


9781624106057 (ISBN)

2020 AIAA/IEEE Electric Aircraft Technologies Symposium (EATS)
New Orleans, LA, USA,

Ämneskategorier

Design

Rymd- och flygteknik

Energiteknik

DOI

10.2514/6.2020-3556

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Senast uppdaterat

2023-04-21