Propulsion and Power, An Exploration of Gas Turbine Performance Modeling
Year: 2018 Language: english Author: Joachim Kurzke & Ian Halliwell Genre: Handbook Publisher: Springer Format: PDF Quality: eBook Pages count: 766 Description: This book is written for anyone interested in preliminary design of gas turbine engines, their operation, and their performance. But it is much more than that. For practicing engineers, we offer some new and unique approaches to performance analysis, interpretation of test data, and rapid answers to what-if questions. For students and teachers, we supply some fresh ways of looking at engine technology to make the learning and teaching experience more enjoyable and encourage further exploration. We present industrial systems modeling and performance prediction, but we connect them solidly to a knowledge of thermodynamics and turbomachinery supplied typically by university courses in propulsion and power generation. The book is intended for teachers as a source of information for lecture materials and exercises for their students. It is illustrated extensively with examples and data from real engine cycles, all of which can be reproduced with GasTurb™or other equivalent software. The book discusses the practical application of thermodynamic, aerodynamic, and mechanical principles. We describe the theoretical background of the simulation elements and the relevant correlations through which they are applied, however we refrain from detailed derivations. We try to explain things simply. We want the readers to understand the subject themselves, rather than be impressed by our knowledge, so we are not worried about being accused of writing popular science. While working in industry under pressure, who remembers all the complex mathematical derivations? Most of the time, you don’t need them, except perhaps to develop a new product or design tool—and such activities should not be based on extrapolation of an existing idea but on confident extensions of engineering fundamentals. Therefore, you should know the basic physical laws and how to apply them. We want to teach you to make best use of existing software. We want to prevent you from doing too much trial and error. We want you to avoid some of the errors we made! Having said that, errors cannot be avoided sometimes, but their effects can be minimized, and much can be learned by always checking results for plausibility.
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Propulsion and Power, An Exploration of Gas Turbine Performance Modeling
Year: 2018
Language: english
Author: Joachim Kurzke & Ian Halliwell
Genre: Handbook
Publisher: Springer
Format: PDF
Quality: eBook
Pages count: 766
Description: This book is written for anyone interested in preliminary design of gas turbine
engines, their operation, and their performance. But it is much more than that. For
practicing engineers, we offer some new and unique approaches to performance
analysis, interpretation of test data, and rapid answers to what-if questions. For
students and teachers, we supply some fresh ways of looking at engine technology
to make the learning and teaching experience more enjoyable and encourage further
exploration. We present industrial systems modeling and performance prediction,
but we connect them solidly to a knowledge of thermodynamics and turbomachinery
supplied typically by university courses in propulsion and power generation.
The book is intended for teachers as a source of information for lecture
materials and exercises for their students. It is illustrated extensively with examples
and data from real engine cycles, all of which can be reproduced with GasTurb™or
other equivalent software.
The book discusses the practical application of thermodynamic, aerodynamic,
and mechanical principles. We describe the theoretical background of the simulation
elements and the relevant correlations through which they are applied, however
we refrain from detailed derivations. We try to explain things simply. We want the
readers to understand the subject themselves, rather than be impressed by our
knowledge, so we are not worried about being accused of writing popular science.
While working in industry under pressure, who remembers all the complex
mathematical derivations? Most of the time, you don’t need them, except perhaps to
develop a new product or design tool—and such activities should not be based on
extrapolation of an existing idea but on confident extensions of engineering fundamentals.
Therefore, you should know the basic physical laws and how to apply
them. We want to teach you to make best use of existing software. We want to
prevent you from doing too much trial and error. We want you to avoid some of the
errors we made! Having said that, errors cannot be avoided sometimes, but their
effects can be minimized, and much can be learned by always checking results for
plausibility.
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