Feedback control of thermo acoustic instabilities

Thermoacoustic instabilities in a combustion process may be generated as a result of the coupling of an unsteady heat source and acoustic resonator. The “Rijke Tube” as a tool is greatly useful for studying the interactions and relations temperature, density and pressure variations of sound waves ha...

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Bibliographic Details
Main Author: Low, Raymond Shan Yin
Other Authors: Basman Elhadidi
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2020
Subjects:
Online Access:https://hdl.handle.net/10356/141839
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Institution: Nanyang Technological University
Language: English
Description
Summary:Thermoacoustic instabilities in a combustion process may be generated as a result of the coupling of an unsteady heat source and acoustic resonator. The “Rijke Tube” as a tool is greatly useful for studying the interactions and relations temperature, density and pressure variations of sound waves have on each other. P.L. Rijke discovered the “Rijke Tube” which is made up of a hollow open cylinder with a source of heat placed inside. The heat from the source is converted into sound through self-amplifying standing waves. The Rijke tube allows for the position of the heat source and the amount of heat input from the source to be varied to better understand the thermoacoustic phenomenon. The purpose of this study is to be able to observe and control the effect of adding a sound of a certain frequency to the Rijke tube while it is in operation to see if it has any effect on the thermo acoustic instabilities of the system using National Instrument’s analog discovery 2 with the integrated waveform software.