A laboratory scale gas turbine combustor is characterised for combustion instability by maintaining the mean fuel flow rate constant and by increasing the inlet air flow rate. It was observed that the combustor became unstable at lower equivalence ratios. High speed flame imaging was done to determine the key instability mechanism. It is found that the flame branch merging plays the most key role in exciting acoustics in the combustor.

Satyanarayanan R. Chakravarthy

Department of Aerospace Engineering

Combustors

Gas turbines

Rate constants

Combustion dynamics

Combustion instabilities

Equivalence ratios

FLAME IMAGING

Gas turbine combustor

High Speed

INSTABILITY MECHANISMS

SELF - EXCITED

combustion

IIT Madras is a public technical and research university located in Chennai, Tamil Nadu. Founded in 1959, it is recognised as an Institute of National Importance.

IIT Madras has been ranked as the top engineering institute in India for four years in a row by the National Institutional Ranking Framework of the MHRD

It currently offers undergraduate, postgraduate and research degrees across 16 disciplines in Engineering, Sciences, Humanities and Management. About 596 faculty belonging to science and engineering departments and centres of the Institute are engaged in teaching, research and industrial consultancy.

IIT Madras

ASPACC 2015 - 10th Asia-Pacific Conference on Combustion

Combustion dynamics of acoustically self-excited swirl gas combustor

Journal	ASPACC 2015 - 10th Asia-Pacific Conference on Combustion
Publisher	Combustion Institute
Open Access	No