Verfügbarkeit: Representation theorems in computer science

Representation theorems in computer science: a treatment in logic engineering

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Bibliographische Detailangaben
1. Verfasser:	Özçep, Özgür Lütfü (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cham Springer [2019]
Schlagworte:	Theory of Computation Logic in AI. Data Mining and Knowledge Discovery Information Storage and Retrieval Information theory Artificial intelligence Computer logic Data mining Information storage and retrieval systems
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xiii, 187 Seiten Diagramme
ISBN:	9783030257873

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adam_text	CONTENTS LIST OF FIGURES XIII LIST OF TABLES XIX NOMENCLATURE XXI 1. INTRODUCTION 1 1.1. STEAM- AND WATER INJECTION IN GAS TURBINES ......................... 1 1.2. THERMOACOUSTIC INSTABILITIES .................................................. 3 1.3. GOAL AND STRUCTURE OF THIS W ORK ........................................... 5 2. THEORETICAL BACKGROUND S 2.1. GOVERNING E QUATIONS ........................................................... 9 2.1.1. LINEARIZED EULER EQUATIONS (LEE).............................. 9 2.1.2. WAVE EQUATION ........................................................... 11 2.1.3. ANALYTICAL SOLUTION OF THE WAVE E QUATION ................ 13 2.2. LOW-ORDER NETWORK MODELING ........................................... 14 2.3. BOUNDARY CONDITIONS ........................................................... 16 2.4. FINITE ELEMENT METHOD IN ACOUSTICS .................................... 17 2.5. FLAME DYNAMICS .................................................................... 19 2.5.1. FLAME TRANSFER FUNCTIONS ......................................... 20 2.5.2. RANKINE-HUGONIOT RELATIONS FOR ACOUSTIC PERTURBATIONS 21 2.6. COMBUSTOR DYNAMICS ........................................................... 24 2.6.1. MODAL EXPANSION OF THE WAVE E QUATION .................. 25 2.6.2. HARMONIC OSCILLATOR .................................................. 27 2.6.2. 1. LINEAR SYSTEM S ........................................... 28 2.6.2.2. NON-LINEAR SYSTEM S .................................. 30 2.7. SOLUTION OF NON-LINEAR OPTIMIZATION PROBLEM S .................. 31 2.7.1. LEAST-SQUARES OPTIMIZATION....................................... 32 2.7.2. BAYESIAN INFERENCE .................................................... 33 2.7.3. MARKOV-CHAIN MONTE-CARLO METHOD (MCMC) ......... 33 2.7.4. METROPOLIS-HASTINGS A LGORITHM ................................ 34 2.7.5. GIBBS SAM PLING ......................................................... 35 3. MEASURING METHODS AND DATA PROCESSING 37 3.1. DETERMINATION OF SCATTERING M ATRICES .................................. 37 3.2. MEASUREMENT OF SOURCE T ERM S.............................................. 40 3.3. MEASUREMENT OF FLAME TRANSFER FUNCTIONS ........................... 40 3.4. DETERMINATION OF DAMPING AND GROWTH R ATES..................... 42 3.4.1. IMPULSE RESPONSE METHOD ....................................... 43 3.4.2. STOCHASTIC FORCING METHOD ....................................... 46 3.4.3. DETERMINATION OF ACOUSTIC DISSIPATION AND FLAME GAIN 48 3.4.4. GROWTH RATE DETERMINATION....................................... 49 3.5. FLAME IM AGING....................................................................... 50 3.5.1. STATIONARY FLAME IM AGES ........................................... 51 3.5.2. PHASE-RESOLVED FLAME IM AGES .................................. 52 3.6. SPRAY DISTRIBUTION AND DROPLET S IZ E S .................................. 54 3.6.1. MIE-SCATTERING............................................................ 54 3.6.2. PARTICLE S IZ IN G ............................................................ 55 4. EXPERIMENTAL SETUP 57 4.1. ATMOSPHERIC SINGLE BURNER TEST-RIG..................................... 57 4.2. SWIRL-BURNER WITH WATER INJECTION ......................................... 59 5. STATIONARY FLAME AND FLOW PROPERTIES 63 5.1. OPERATING CONDITIONS............................................................ 63 5.2. FLAME SHAPE AND FLAME L E N G TH ........................................... 65 5.3. SPRAY D ISTR IB U TIO N ................................................................ 70 5.4. DROPLET PROPERTIES ................................................................ 71 6. ACOUSTIC PROPERTIES AND FLAME RESPONSE 75 6.1. SCATTERING MATRICES OF THE B U RN ER ......................................... 75 6.2. NOISE EMISSION WITH WATER INJECTION..................................... 77 6.3. FLAME TRANSFER FUNCTIONS....................................................... 78 6.3.1. DRY O P ERA TIO N ........................................................... 79 6.3.2. WATER INJECTION AT CONSTANT EQUIVALENCE R ATIO ......... 81 6.3.3. WATER INJECTION AT CONSTANT ADIABATIC FLAME TEM PERATURE ................................................................................ 83 6.4. PHASE-RESOLVED HEAT RELEASE OSCILLATIONS ........................... 87 7. THERMOACOUSTIC MODES WITH WATER INJECTION 91 7.1. AEROACOUSTIC DAMPING PROPERTIES OF THE COMBUSTOR ........... 91 7.2. COMBUSTOR DAMPING UNDER DRY OPERATION ......................... 94 7.3. COMBUSTOR DAMPING WITH WATER INJECTION ........................... 97 7.3.1. WATER INJECTION AT CONSTANT EQUIVALENCE R ATIO ......... 97 7.3.2. WATER INJECTION AT CONSTANT ADIABATIC FLAME TEM PERATURE ...................................................................... 100 7.3.3. INFLUENCE OF THE DOWNSTREAM BOUNDARY CONDITION ON THERMOACOUSTIC DAMPING....................................... 104 7.3.4. ACOUSTIC DISSIPATION AND FLAME G A IN ......................... 107 7.4. BENCHMARK OF DIFFERENT METHODS FOR THERMAL POWER INCREASE 113 8. NUMERICAL SIMULATION AND STABILITY ANALYSIS 117 8.1. MODELING APPROACH AND NUMERICAL SETUP.............................. 117 8.1.1. ACOUSTIC SCATTERING BEHAVIOR: CFD/CAA APPROACH . 117 8.1.2. THERMOACOUSTIC STABILITY: EIGENVALUE ANALYSIS .... 120 8.2. DETERMINATION OF STATIONARY FLOW- AND TEMPERATURE FIELDS . 123 8.2.1. STATIONARY FLOW F IE LD .................................................. 123 8.2.2. DETERMINATION OF THE LOCAL SPEED OF SOUND ................ 124 8.3. ACOUSTIC SCATTERING BEHAVIOR OF THE B U RN E R ........................... 127 8.4. QUALITATIVE ANALYSIS OF OCCURRING M O D E S .............................. 130 8.5. QUANTITATIVE STABILITY ANALYSIS................................................ 133 8.5.1. ACOUSTIC D A M P IN G ................................................................135 8.5.1.1. ACOUSTIC DAM PING UNDER NON-REACTIVE C O N D ITIO N S ............................................................. 135 8.5.1.2. ACOUSTIC DAMPING UNDER REACTIVE CONDITIONS 137 8.5.2. THERMOACOUSTIC DAMPING WITH WATER INJECTION .... 138 8.5.2.1. EXPERIMENTAL SCATTERING MATRICES OF BURNER AND F L A M E ............................................................. 138 5.5.2.2. SIMULATED BURNER SCATTERING MATRIX AND ANALYTICAL FLAME TRANSFER FUNCTION.............. 140 5.5.2.3. SIMULATED BURNER SCATTERING MATRIX AND SCALED FLAME TRANSFER FUNCTION .................... 144 9. SUMMARY AND CONCLUSION 147 A. MATRIX-VECTOR NOTATION OF THE LEES 151 B. VALIDATION OF THE STOCHASTIC FORCING METHOD 153 B.L. SINGLE M ODE C A S E .................................................................................155 B.2. MULTI-MODE C A S E .................................................................................156 B.3. ERROR A N A LY S IS ......................................................................................157 C. OPERATING PARAMETERS OF THE TEST-RIG 159 D. COMPARISON BETWEEN FLAME DRIVING AND FTF 163 E. SCATTERING MATRICES OF BURNER AND FLAME 167 SUPERVISED STUDENT THESES 171 PREVIOUS PUBLICATIONS 173 BIBLIOGRAPHY 175
adam_txt	CONTENTS LIST OF FIGURES XIII LIST OF TABLES XIX NOMENCLATURE XXI 1. INTRODUCTION 1 1.1. STEAM- AND WATER INJECTION IN GAS TURBINES . 1 1.2. THERMOACOUSTIC INSTABILITIES . 3 1.3. GOAL AND STRUCTURE OF THIS W ORK . 5 2. THEORETICAL BACKGROUND S 2.1. GOVERNING E QUATIONS . 9 2.1.1. LINEARIZED EULER EQUATIONS (LEE). 9 2.1.2. WAVE EQUATION . 11 2.1.3. ANALYTICAL SOLUTION OF THE WAVE E QUATION . 13 2.2. LOW-ORDER NETWORK MODELING . 14 2.3. BOUNDARY CONDITIONS . 16 2.4. FINITE ELEMENT METHOD IN ACOUSTICS . 17 2.5. FLAME DYNAMICS . 19 2.5.1. FLAME TRANSFER FUNCTIONS . 20 2.5.2. RANKINE-HUGONIOT RELATIONS FOR ACOUSTIC PERTURBATIONS 21 2.6. COMBUSTOR DYNAMICS . 24 2.6.1. MODAL EXPANSION OF THE WAVE E QUATION . 25 2.6.2. HARMONIC OSCILLATOR . 27 2.6.2. 1. LINEAR SYSTEM S . 28 2.6.2.2. NON-LINEAR SYSTEM S . 30 2.7. SOLUTION OF NON-LINEAR OPTIMIZATION PROBLEM S . 31 2.7.1. LEAST-SQUARES OPTIMIZATION. 32 2.7.2. BAYESIAN INFERENCE . 33 2.7.3. MARKOV-CHAIN MONTE-CARLO METHOD (MCMC) . 33 2.7.4. METROPOLIS-HASTINGS A LGORITHM . 34 2.7.5. GIBBS SAM PLING . 35 3. MEASURING METHODS AND DATA PROCESSING 37 3.1. DETERMINATION OF SCATTERING M ATRICES . 37 3.2. MEASUREMENT OF SOURCE T ERM S. 40 3.3. MEASUREMENT OF FLAME TRANSFER FUNCTIONS . 40 3.4. DETERMINATION OF DAMPING AND GROWTH R ATES. 42 3.4.1. IMPULSE RESPONSE METHOD . 43 3.4.2. STOCHASTIC FORCING METHOD . 46 3.4.3. DETERMINATION OF ACOUSTIC DISSIPATION AND FLAME GAIN 48 3.4.4. GROWTH RATE DETERMINATION. 49 3.5. FLAME IM AGING. 50 3.5.1. STATIONARY FLAME IM AGES . 51 3.5.2. PHASE-RESOLVED FLAME IM AGES . 52 3.6. SPRAY DISTRIBUTION AND DROPLET S IZ E S . 54 3.6.1. MIE-SCATTERING. 54 3.6.2. PARTICLE S IZ IN G . 55 4. EXPERIMENTAL SETUP 57 4.1. ATMOSPHERIC SINGLE BURNER TEST-RIG. 57 4.2. SWIRL-BURNER WITH WATER INJECTION . 59 5. STATIONARY FLAME AND FLOW PROPERTIES 63 5.1. OPERATING CONDITIONS. 63 5.2. FLAME SHAPE AND FLAME L E N G TH . 65 5.3. SPRAY D ISTR IB U TIO N . 70 5.4. DROPLET PROPERTIES . 71 6. ACOUSTIC PROPERTIES AND FLAME RESPONSE 75 6.1. SCATTERING MATRICES OF THE B U RN ER . 75 6.2. NOISE EMISSION WITH WATER INJECTION. 77 6.3. FLAME TRANSFER FUNCTIONS. 78 6.3.1. DRY O P ERA TIO N . 79 6.3.2. WATER INJECTION AT CONSTANT EQUIVALENCE R ATIO . 81 6.3.3. WATER INJECTION AT CONSTANT ADIABATIC FLAME TEM PERATURE . 83 6.4. PHASE-RESOLVED HEAT RELEASE OSCILLATIONS . 87 7. THERMOACOUSTIC MODES WITH WATER INJECTION 91 7.1. AEROACOUSTIC DAMPING PROPERTIES OF THE COMBUSTOR . 91 7.2. COMBUSTOR DAMPING UNDER DRY OPERATION . 94 7.3. COMBUSTOR DAMPING WITH WATER INJECTION . 97 7.3.1. WATER INJECTION AT CONSTANT EQUIVALENCE R ATIO . 97 7.3.2. WATER INJECTION AT CONSTANT ADIABATIC FLAME TEM PERATURE . 100 7.3.3. INFLUENCE OF THE DOWNSTREAM BOUNDARY CONDITION ON THERMOACOUSTIC DAMPING. 104 7.3.4. ACOUSTIC DISSIPATION AND FLAME G A IN . 107 7.4. BENCHMARK OF DIFFERENT METHODS FOR THERMAL POWER INCREASE 113 8. NUMERICAL SIMULATION AND STABILITY ANALYSIS 117 8.1. MODELING APPROACH AND NUMERICAL SETUP. 117 8.1.1. ACOUSTIC SCATTERING BEHAVIOR: CFD/CAA APPROACH . 117 8.1.2. THERMOACOUSTIC STABILITY: EIGENVALUE ANALYSIS . 120 8.2. DETERMINATION OF STATIONARY FLOW- AND TEMPERATURE FIELDS . 123 8.2.1. STATIONARY FLOW F IE LD . 123 8.2.2. DETERMINATION OF THE LOCAL SPEED OF SOUND . 124 8.3. ACOUSTIC SCATTERING BEHAVIOR OF THE B U RN E R . 127 8.4. QUALITATIVE ANALYSIS OF OCCURRING M O D E S . 130 8.5. QUANTITATIVE STABILITY ANALYSIS. 133 8.5.1. ACOUSTIC D A M P IN G .135 8.5.1.1. ACOUSTIC DAM PING UNDER NON-REACTIVE C O N D ITIO N S . 135 8.5.1.2. ACOUSTIC DAMPING UNDER REACTIVE CONDITIONS 137 8.5.2. THERMOACOUSTIC DAMPING WITH WATER INJECTION . 138 8.5.2.1. EXPERIMENTAL SCATTERING MATRICES OF BURNER AND F L A M E . 138 5.5.2.2. SIMULATED BURNER SCATTERING MATRIX AND ANALYTICAL FLAME TRANSFER FUNCTION. 140 5.5.2.3. SIMULATED BURNER SCATTERING MATRIX AND SCALED FLAME TRANSFER FUNCTION . 144 9. SUMMARY AND CONCLUSION 147 A. MATRIX-VECTOR NOTATION OF THE LEES 151 B. VALIDATION OF THE STOCHASTIC FORCING METHOD 153 B.L. SINGLE M ODE C A S E .155 B.2. MULTI-MODE C A S E .156 B.3. ERROR A N A LY S IS .157 C. OPERATING PARAMETERS OF THE TEST-RIG 159 D. COMPARISON BETWEEN FLAME DRIVING AND FTF 163 E. SCATTERING MATRICES OF BURNER AND FLAME 167 SUPERVISED STUDENT THESES 171 PREVIOUS PUBLICATIONS 173 BIBLIOGRAPHY 175
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spelling	Özçep, Özgür Lütfü Verfasser (DE-588)140325166 aut Representation theorems in computer science a treatment in logic engineering Özgür Lütfü Özçep Cham Springer [2019] © 2019 xiii, 187 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier Theory of Computation Logic in AI. Data Mining and Knowledge Discovery Information Storage and Retrieval Information theory Artificial intelligence Computer logic Data mining Information storage and retrieval systems Erscheint auch als Online-Ausgabe 978-3-030-25785-9 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032490939&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Özçep, Özgür Lütfü Representation theorems in computer science a treatment in logic engineering Theory of Computation Logic in AI. Data Mining and Knowledge Discovery Information Storage and Retrieval Information theory Artificial intelligence Computer logic Data mining Information storage and retrieval systems
title	Representation theorems in computer science a treatment in logic engineering
title_auth	Representation theorems in computer science a treatment in logic engineering
title_exact_search	Representation theorems in computer science a treatment in logic engineering
title_exact_search_txtP	Representation theorems in computer science a treatment in logic engineering
title_full	Representation theorems in computer science a treatment in logic engineering Özgür Lütfü Özçep
title_fullStr	Representation theorems in computer science a treatment in logic engineering Özgür Lütfü Özçep
title_full_unstemmed	Representation theorems in computer science a treatment in logic engineering Özgür Lütfü Özçep
title_short	Representation theorems in computer science
title_sort	representation theorems in computer science a treatment in logic engineering
title_sub	a treatment in logic engineering
topic	Theory of Computation Logic in AI. Data Mining and Knowledge Discovery Information Storage and Retrieval Information theory Artificial intelligence Computer logic Data mining Information storage and retrieval systems
topic_facet	Theory of Computation Logic in AI. Data Mining and Knowledge Discovery Information Storage and Retrieval Information theory Artificial intelligence Computer logic Data mining Information storage and retrieval systems
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032490939&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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