Jimmy C. Tai scite author profile

The focus of this study is to compare the aerothermodynamic cycle design space of a gas turbine engine generated using two on-design approaches. The traditional approach uses a single design point (SDP) for on-design cycle analysis, where off-design cycle analysis must be performed at other operating conditions of interest. A multi-design point (MDP) method performs on-design cycle analysis at all operating conditions where performance requirements are specified. Effects on the topography of the cycle design space as well as the feasibility of the space are examined. The impacts that performance requirements and cycle assumptions have on the bounds and topography of the feasible space are investigated. The deficiencies of a SDP method in determining an optimum gas turbine engine will be shown for a given set of requirements. Analysis will demonstrate that the MDP method, unlike the SDP method, always obtains a properly sized engine for a set of given requirements and cycle design variables, resulting in an increased feasible region of the aerothermodynamic cycle design space from which the optimum performance engine can be obtained.

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Integrated Gas Turbine and Environmental Control System Pack Sizing and Analysis

Shi

Chakraborty

Tai

et al. 2018

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Jimmy C. Tai

Cycle Selection and Sizing of a Single-Aisle Transport with the Electrically Variable Engine(TM) (EVE) for Fleet Level Fuel Optimization

Modeling and Design of a Partially Electric Distributed Aircraft Propulsion System with GT-HEAT

Development and Application of GT-HEAT for the Electrically Variable Engine(TM) Design

Cycle Design Exploration Using Multi-Design Point Approach

Integrated Gas Turbine and Environmental Control System Pack Sizing and Analysis

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