Thermoacoustic Combustion Instability Control
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portes grátis
Thermoacoustic Combustion Instability Control
Engineering Applications and Computer Codes
Zhao, Dan
Elsevier Science & Technology
02/2023
1144
Mole
Inglês
9780323899109
15 a 20 dias
Descrição não disponível.
1. Introduction to thermoacoustic instability
2. Nonlinear dynamics of thermoacoutics
3. Non-normality, transient growth and non-orthogonality
4. Intrinsic thermoacoustics
5. Acoustic-flames interaction
6. Active control of thermoacoustics
7. Passive control of thermoacoustic instability
9. Aeroacoustic dampers
10. CFD thermoacoustics instability
11. POD and EMD analyses of Rijke-type thermoacoustic instability
2. Nonlinear dynamics of thermoacoutics
3. Non-normality, transient growth and non-orthogonality
4. Intrinsic thermoacoustics
5. Acoustic-flames interaction
6. Active control of thermoacoustics
7. Passive control of thermoacoustic instability
9. Aeroacoustic dampers
10. CFD thermoacoustics instability
11. POD and EMD analyses of Rijke-type thermoacoustic instability
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acoustic dampers; Acoustic disturbances; Acoustic forcing; Acoustic liners; Acoustic resonance; Acoustical energy; Active control; Aeroacoustics; Ammonia; Blow off; CFD model; CO; Chaos; Chemical reaction model; Coherence resonance; Colored noise; Combustion emissions; Combustion instability; DMD; Diffusion flame; Electronics; Energy conversion; Energy harvester; Energy harvesting; Engine system; Entropy; Equivalence ratio; FDF; FTF; Feedback control; Finite element; Flame curvature; Fuel flow rate; Growth rate; Heat recirculation; Homogeneous-heterogeneous; Hopf bifurcation; Hydrocarbon fuel; Intrinsic thermoacoustic instability; LEE; LES; Limit cycle; Markov process; Micro-burners; Micro-combustion; Modal theory; Mode decomposition; NOx; Newton-Raphson iteration method; Non-normality; Non-orthogonality; Nonlinear dynamics; Observer; Online; Oxy-fuel; PLIF; POD; Passive control; Piezoelectric; Piezoelectric transducer; Plane waves; Premixed combustion; Premixed flame; Prime mover; Propulsion; RANS; Ramjet; Rayleigh criterion; Real-time; Refrigeration; Renewable energy; Rijke; Rijke tube; Signal-to-noise ratio; Solid fuel Ramjet; Soot; Stability analysis; Standing-wave; Stochastic properties; Swirl-stabilized flame; Swirling combustor; Temperature distribution; Thermal energy; Thermoacoustic engine; Thermoacoustic engines; Thermoacoustic instabilities; Thermoacoustic instability; Thermoacoustic oscillations; Thermoacoustics; Thermodynamic performances; Thermos-acoustic-piezo; Transfer matrix method; Transient growth; Traveling-wave; Tubular flame; Turbulence; Turbulent flame; Vortical structures; Vorticity
1. Introduction to thermoacoustic instability
2. Nonlinear dynamics of thermoacoutics
3. Non-normality, transient growth and non-orthogonality
4. Intrinsic thermoacoustics
5. Acoustic-flames interaction
6. Active control of thermoacoustics
7. Passive control of thermoacoustic instability
9. Aeroacoustic dampers
10. CFD thermoacoustics instability
11. POD and EMD analyses of Rijke-type thermoacoustic instability
2. Nonlinear dynamics of thermoacoutics
3. Non-normality, transient growth and non-orthogonality
4. Intrinsic thermoacoustics
5. Acoustic-flames interaction
6. Active control of thermoacoustics
7. Passive control of thermoacoustic instability
9. Aeroacoustic dampers
10. CFD thermoacoustics instability
11. POD and EMD analyses of Rijke-type thermoacoustic instability
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acoustic dampers; Acoustic disturbances; Acoustic forcing; Acoustic liners; Acoustic resonance; Acoustical energy; Active control; Aeroacoustics; Ammonia; Blow off; CFD model; CO; Chaos; Chemical reaction model; Coherence resonance; Colored noise; Combustion emissions; Combustion instability; DMD; Diffusion flame; Electronics; Energy conversion; Energy harvester; Energy harvesting; Engine system; Entropy; Equivalence ratio; FDF; FTF; Feedback control; Finite element; Flame curvature; Fuel flow rate; Growth rate; Heat recirculation; Homogeneous-heterogeneous; Hopf bifurcation; Hydrocarbon fuel; Intrinsic thermoacoustic instability; LEE; LES; Limit cycle; Markov process; Micro-burners; Micro-combustion; Modal theory; Mode decomposition; NOx; Newton-Raphson iteration method; Non-normality; Non-orthogonality; Nonlinear dynamics; Observer; Online; Oxy-fuel; PLIF; POD; Passive control; Piezoelectric; Piezoelectric transducer; Plane waves; Premixed combustion; Premixed flame; Prime mover; Propulsion; RANS; Ramjet; Rayleigh criterion; Real-time; Refrigeration; Renewable energy; Rijke; Rijke tube; Signal-to-noise ratio; Solid fuel Ramjet; Soot; Stability analysis; Standing-wave; Stochastic properties; Swirl-stabilized flame; Swirling combustor; Temperature distribution; Thermal energy; Thermoacoustic engine; Thermoacoustic engines; Thermoacoustic instabilities; Thermoacoustic instability; Thermoacoustic oscillations; Thermoacoustics; Thermodynamic performances; Thermos-acoustic-piezo; Transfer matrix method; Transient growth; Traveling-wave; Tubular flame; Turbulence; Turbulent flame; Vortical structures; Vorticity
