AE 6410 - Combustion Dynamics Course, II. Historical Overview From Liquid Propellant Rocket Combustion Instability, Ed. Harrje and Reardon, NASA Publication SP-194 I. Introduction II. Historical Overview III. Linear and nonlinear stability concepts IV. Unsteady Flow Fields V. Linear Acoustic Wave Propagation VI. Thermo-acoustics/Stability analysis VII. Nonlinear Analysis VIII. Passive and Active Control of Combustion Instabilities IX. Data Analysis and Experimental Methods
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AE 6410 - Combustion Dynamics Course,
II. Historical Overview
From Liquid Propellant Rocket Combustion Instability, Ed. Harrjeand Reardon, NASA Publication SP-194
I. Introduction
II. Historical Overview
III. Linear and nonlinear stability concepts
IV. Unsteady Flow Fields
V. Linear Acoustic Wave Propagation
VI. Thermo-acoustics/Stability analysis
VII. Nonlinear Analysis
VIII. Passive and Active Control of Combustion Instabilities
IX. Data Analysis and Experimental Methods
AE 6410 - Combustion Dynamics Course,
A. Thermo-acoustics• Rijke Tube (heated gauze in
tube)• Self-excited oscillations in
cryogenic tubes (N. Rott)• Thermo-acoustic
refrigerators/heat pumps (Swift, Garrett)
See Swift Reference
Purdue’s Thermoacoustic Refrigerator
Los Alamos NL’s Thermoacoustic Engine
AE 6410 - Combustion Dynamics Course,
Rijke Tube
AE 6410 - Combustion Dynamics Course,
Fuel+Air
u’ – velocity oscillation
p’ – pressure oscillation
Figure 3. An example of a flame driven instability in a tube open at both ends.
AE 6410 - Combustion Dynamics Course,
B. Industrial Systems(see Putnam’s book)
• Oil fired heating units• Scrap melting burners
• Boilers
• Pulse combustion
From Thring et al., ed. , Pulsating Combustion: The Collected Works of F.H. Reynst, Pergamon Press, 1961
AE 6410 - Combustion Dynamics Course,
Ramjets and Afterburners
• Vortex-flame interactions generated large oscillations
• Caused un-starting of inlet shock, thus improper performance
From D. Smith, Ph.D. thesis
AE 6410 - Combustion Dynamics Course,
AE 6410 - Combustion Dynamics Course,
AE 6410 - Combustion Dynamics Course,
AE 6410 - Combustion Dynamics Course,
AE 6410 - Combustion Dynamics Course,
Figure 4. Landfill gas flares that experienced low frequency, combustion driven oscillations13.
AE 6410 - Combustion Dynamics Course,
AE 6410 - Combustion Dynamics Course,
C. Liquid Rockets
• Range of mechanisms related to atomization, evaporation, mixing, reaction
• F-1 Engine– used on Saturn V– largest thrust engine
developed by U.S– Problem overcome with over
2000 (out of 3200) full scale tests
From Liquid Propellant Rocket Combustion Instability, Ed. Harrje and Reardon, NASA Publication SP-194
From “Combustion Instability Problems in Low Emission Industrial Gas Turbine Engines”, R. Pandalai, presentation at AGTSR Combustion Workshop II, 1995
AE 6410 - Combustion Dynamics Course,
G. Gas TurbinesGE Aeroderivatives
From “Combustion Instability Problems in Low Emission Industrial Gas Turbine Engines”, R. Pandalai, presentation at AGTSR Combustion Workshop II, 1995
AE 6410 - Combustion Dynamics Course,
G. Gas TurbinesSolar Turbines
From “Experience at Solar Turbines with Combustion Oscillations in Lean Premixed Combustion”, presentation at 1995 AGTSR meeting
• Centaur 50– Oscillation below 0.5 psi from 50-90%
load– Full load oscillations > 0.5 psi, 430 Hz– 6-16% pilot used to minimize
oscillations– Injector fretting, sheet metal fatigue
• Mars 100 – Acceptable oscillations at full load– Fretting, metal fatigue– 360 Hz oscillation– Increasing pilot reduces amplitude
AE 6410 - Combustion Dynamics Course,
G. Gas TurbinesSiemens-Westinghouse
From “Application of Active Combustion Instability Control to a Heavy Duty Gas Turbine”, J. Hermann et al., presentation at 1997 Workshop on Dynamics and Control of Combustion Instabilities in Propulsion and Power Systems
• Dynamics problems near full load in VX4.3A – 217 and 433 Hz (2nd and 4th
harmonics)– Problem dealt with by
• “Symmetry breaking” – varying premixer config. around circumference