Modelling of heat transfer and vehicle dynamics for thermal load reduction by hypersonic flight optimization

M. Dinkelmann; M. Wächter; G. Sachs

doi:10.1076/mcmd.8.3.237.14098

Modelling of heat transfer and vehicle dynamics for thermal load reduction by hypersonic flight optimization

M. Dinkelmann
, M. Wächter
, G. Sachs

TUM Emeriti of Excellence

Technical University of Munich

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Heat input reduction by appropriate, optimal trajectory control is considered for the range cruise and the return-to-base cruise of a hypersonic vehicle propelled by a turbo/ram jet engines combination. A mathematical model is developed for describing the unsteady heat transfer through the thermal protection system. This model is coupled to the model of the dynamics of the vehicle. An efficient optimization technique is applied for constructing a solution for the two cruise problems. The results show that significant heat input reductions can be achieved with only a small penalty in fuel consumption.

Original language	English
Pages (from-to)	237-255
Number of pages	19
Journal	Mathematical and Computer Modelling of Dynamical Systems
Volume	8
Issue number	3
DOIs	https://doi.org/10.1076/mcmd.8.3.237.14098
State	Published - Sep 2002

Keywords

Hypersonic vehicle
Instationary heat flux
Trajectory optimization

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10.1076/mcmd.8.3.237.14098

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abstract = "Heat input reduction by appropriate, optimal trajectory control is considered for the range cruise and the return-to-base cruise of a hypersonic vehicle propelled by a turbo/ram jet engines combination. A mathematical model is developed for describing the unsteady heat transfer through the thermal protection system. This model is coupled to the model of the dynamics of the vehicle. An efficient optimization technique is applied for constructing a solution for the two cruise problems. The results show that significant heat input reductions can be achieved with only a small penalty in fuel consumption.",

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AU - Sachs, G.

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AB - Heat input reduction by appropriate, optimal trajectory control is considered for the range cruise and the return-to-base cruise of a hypersonic vehicle propelled by a turbo/ram jet engines combination. A mathematical model is developed for describing the unsteady heat transfer through the thermal protection system. This model is coupled to the model of the dynamics of the vehicle. An efficient optimization technique is applied for constructing a solution for the two cruise problems. The results show that significant heat input reductions can be achieved with only a small penalty in fuel consumption.

KW - Hypersonic vehicle

KW - Instationary heat flux

KW - Trajectory optimization

UR - https://www.scopus.com/pages/publications/0242489579

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IS - 3

ER -

Modelling of heat transfer and vehicle dynamics for thermal load reduction by hypersonic flight optimization

Abstract

Keywords

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