Effect of noise on a model thermoacoustic system at its stability boundary [electronic resource] / Richard Steinert.
2016
TJ778
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Title
Effect of noise on a model thermoacoustic system at its stability boundary [electronic resource] / Richard Steinert.
Author
ISBN
9783658138233 (electronic book)
3658138238 (electronic book)
9783658138226
3658138238 (electronic book)
9783658138226
Published
Wiesbaden : Springer Spektrum, 2016.
Language
English
Description
1 online resource (xiv, 44 pages) : illustrations.
Item Number
10.1007/978-3-658-13823-3 doi
Call Number
TJ778
Dewey Decimal Classification
621.43/3
Summary
In experiments on a prototypical combustor, Richard Steinert identifies new insights on the impact of noise on the phenomenon known as thermoacoustic instability. The phenomenon is a concerning issue which creates a technical limit on the efficiency and environmental impact of fossil fuels combustion in industrial combustors. It poses a threat to the structural integrity of practical systems such as gas turbine combustors and rocket engines. The experiments demonstrate that thermoacoustic systems feature an interesting noise-induced behaviour known as coherence resonance - a coherent response of dynamical systems close to their stability boundary that is induced by stochastic excitation. The work contained in this publication is an example illustrating the importance of fundamental considerations in solving perplexing engineering issues. Contents Determination of the System's Stability Characteristics Single Frequency Excitation in the Bistable Region Noise Induced Response in the Stable Region Target Groups Researchers and students in the fields of physical engineering, thermoacoustics, combustion and dynamical systems Practitioners in these areas The Author Richard Steinert wrote his Master's Thesis at the chair of Fluid Dynamics at the Technische Universität Berlin.
Bibliography, etc. Note
Includes bibliographical references.
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Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed April 25, 2016).
Series
BestMasters.
Available in Other Form
Print version: 9783658138226
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Table of Contents
Determination of the System's Stability Characteristics
Single Frequency Excitation in the Bistable Region
Noise Induced Response in the Stable Region.
Single Frequency Excitation in the Bistable Region
Noise Induced Response in the Stable Region.