Chances in wind energy: a probabilistic approach to wind turbine fatigue design
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Delft
DUWIND Delft University Wind Energy Research Institute
2006
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Zugl.: Delft, Techn. Univ., Diss., 2006 |
| Beschreibung: | XXIV, 263 S. graph. Darst. |
| ISBN: | 9076468125 9789076468129 |
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| adam_text | CHANCES IN WIND ENERGY A PROBABILISTIC APPROACH TO WIND TURBINE FATIGUE
DESIGN PROEFSCHRIFT TER VERKRIJGING VAN DE GRAAD VAN DOCTOR AAN DE
TECHNISCHE UNIVERSITEIT DELFT OP GEZAG VAN DE RECTOR MAGNIFICUS PROF.
DR. IR. J.T. FOKKEMA IN HET OPENBAAR TE VERDEDIGEN TEN OVERSTAAN VAN EEN
COMMISSIE, DOOR HET COLLEGE VOOR PROMOTIES AANGEWEZEN, OP DINSDAG 17
OKTOBER 2006 OM 15:00 UUR DOOR HERMAN FREDERIK VELDKAMP WERKTUIGKUNDIG
INGENIEUR GEBOREN TE KOKONAO, NEDERLANDS NIEUW-GUINEA CONTENTS FOREWORD
XI SUMMARY XIII SAMENVATTING XVII SAMMENFATNING XXI 1 INTRODUCTION 1 1.1
WIND TURBINE USE 1 1.2 ISSUES 2 1.3 PREVIOUS WORK 6 1.4 OBJECTIVES 8 1.5
SCOPE OF THIS THESIS 9 1.6 ORGANISATION 10 1.7 NOMENCLATURE 10 2
ECONOMIC DESIGN 11 2.1 INTRODUCTION 11 2.2 DESIGN CONDITIONS 12 2.3
TARGET RELIABILITY FROM A SAFETY PERSPECTIVE 17 2.4 CODE VALUES 19 2.5
CURRENTLY ACHIEVED VALUES 20 2.6 TARGET RELIABILITY FROM A FINANCIAL
PERSPECTIVE 21 2.7 SOME PHILOSOPHICAL ISSUES 26 3 CONVENTIONAL DESIGN 29
3.1 INTRODUCTION 29 3.2 GENERAL PROCEDURE 29 3.3 IDEAL AND SIMPLIFIED
CALCULATION 31 3.4 CONVENTIONAL MODELS 33 3.4.1 WIND 33 VI CONTENTS
3.4.2 SEA 39 3.4.3 AERODYNAMICS 41 3.4.4 WIND TURBINE 41 3.4.5 MATERIAL
BEHAVIOUR 42 3.5 LOAD VERIFICATION AND DESIGN ADJUSTMENT 43 3.6 SITE
ADMISSION 44 4 WIND 47 4.1 INTRODUCTION 47 4.2 WIND SPEED HISTORY 47
4.2.1 REDUCTION TO 10 MINUTE LOAD CASES 47 4.2.2 INFLUENCE OF SEED
FACTORS 50 4.3 WIND SPEED AND WIND DIRECTION DISTRIBUTIONS 51 4.3.1
IDEALISED DISTRIBUTIONS 51 4.3.2 ESTIMATION OF WIND SPEED 54 4.3.3
TRANSFORMATION TO HUB HEIGHT 59 4.3.4 YEARLY VARIATION 62 4.4 TURBULENCE
INTENSITY 63 4.4.1 INTRODUCTION 63 4.4.2 ESTIMATION OF AVERAGE
TURBULENCE 64 4.4.3 INFLUENCE ON LOADS 65 4.5 WIND FIELD 70 4.5.1
INTRODUCTION 70 4.5.2 SPECTRUM 71 4.5.3 COHERENCE FUNCTION 72 4.5.4
NON-GAUSSIAN TURBULENCE 73 4.5.5 MODELLING OF UNCERTAINTY 73 4.6 WIND
SHEAR 73 4.7 AIR DENSITY 75 4.8 INFLOW ANGLE 76 4.9 WAKE EFFECTS 77 4.10
COMPLEX TERRAIN 78 5 SEA 81 5.1 INTRODUCTION 81 5.2 LUMPING OF LOAD
CASES 82 5.2.1 ESTIMATION OF SIGNIFICANT WAVE HEIGHT 82 5.2.2 YEARLY
VARIATION OF SIGNIFICANT WAVE HEIGHT 83 5.3 WAVE SPECTRUM 84 5.4 WAVE
KINEMATICS 87 5.4.1 WAVE FIELD GENERATION 88 5.4.2 WAVE KINEMATICS 88
CONTENTS VII 5.5 DRAG AND INERTIA COEFFICIENT 89 5.6 TIDE 93 5.7 CURRENT
93 6 AERODYNAMICS AND WIND TURBINE 95 6.1 INTRODUCTION 95 6.2 BLADE
ELEMENT MOMENTUM METHOD 95 6.3 RESULTING DISTRIBUTION FOR BEM
UNCERTAINTY 97 6.4 CONTROL SYSTEM 99 6.5 CUT OUT WIND SPEED 100 6.6
STRUCTURAL MODEL 100 6.6.1 BLADE REPRESENTATION 101 6.6.2 TOWER
REPRESENTATION 102 6.6.3 EIGENFREQUENCY ERRORS 102 6.7 FEM MODELLING 103
7 FATIGUE 107 7.1 INTRODUCTION 107 7.1.1 S-N OR WOHLER CURVE 108 7.1.2
SCATTER 109 7.1.3 VARIABLE AMPLITUDE LOADING ILL 7.1.4 LIFE CURVE 112
7.2 FATIGUE LIFE PREDICTION 114 7.2.1 ACCEPTABLE SCATTER 114 7.2.2
SYNTHETIC S-N CURVE 115 7.2.3 MEASURED S-N CURVE 116 7.2.4 LIFE CURVE
AND RELATIVE MINER RULE - . 117 7.2.5 FRACTURE MECHANICS 118 7.2.6
OVERVIEW 119 7.3 TREATMENT OF UNCERTAINTY 121 7.4 MATERIAL DATA 122
7.4.1 CAST IRON 122 7.4.2 WELDS 125 7.4.3 BOLTS 128 7.5 FATIGUE OF
BLADES 129 7.5.1 INTRODUCTION 129 7.5.2 S-N CURVE 130 7.5.3 FATIGUE LIFE
PREDICTION 131 VIII CONTENTS 8 OPTIMAL PARTIAL FACTORS 133 8.1
INTRODUCTION 133 8.2 LIMIT STATE FUNCTION 134 8.3 SITE EQUIVALENT
FATIGUE LOAD 135 8.4 FATIGUE RESISTANCE 136 8.5 FAILURE PROBABILITY 138
8.6 EXAMPLE 140 8.7 STANDARD CALCULATION 144 8.8 OPTIMISATION AND
COMPARISON TO STANDARD VALUES 147 8.9 REDUCTION OF VARIATION 152 8.10
INFLUENCE ON TURBINE INVESTMENT 153 9 SENSITIVITY ANALYSIS 155 9.1
INTRODUCTION 155 9.2 EXPLANATION OF RESULTS 156 9.3 REAL FAILURE
PROBABILITY 157 9.4 EQUIVALENT LOAD DEFINITION ; , . 159 9.5 EXPONENT OF
S-N CURVE 162 9.6 WIND TURBINE LIFE 164 9.7 COMPLEX TERRAIN 164 9.8
OFFSHORE 165 9.9 LOAD VERIFICATION 166 10 CONCLUSIONS AND
RECOMMENDATIONS 169 10.1 UNCERTAINTIES 169 10.2 REVIEW OF MODELS 169
10.3 PARTIAL SAFETY FACTORS 170 10.4 RECOMMENDATIONS FOR FURTHER
RESEARCH 171 10.4.1 DESIGN METHODS 171 10.4.2 MATERIALS 171 BIBLIOGRAPHY
173 INDEX 192 A COORDINATE SYSTEM AND NOMENCLATURE 195 A.I COORDINATE
SYTEM 195 A.2 LOAD COMPONENTS 196 A.3 ACRONYMS 196 A.4 SYMBOLS 197
CONTENTS IX B WIND TURBINE DATA 205 B.I WIND TURBINE 205 B.2 WIND
TURBINE COMPONENT COST 205 C FATIGUE AND EQUIVALENT LOAD 209 C.I
EQUIVALENT LOAD 209 C.2 MEAN STRESS CORRECTION 211 C.3 FATIGUE LIMIT 215
C.4 EQUIVALENT TURBULENCE 215 C.5 ESTIMATION OF S-N CURVE FROM TESTS 219
D WIND DATA 223 E LOW CYCLE FATIGUE 227 E. 1 TRANSITION MATRIX 227 E.2
CALCULATIONS 231 F SOME NOTES ON PROBABILISTIC METHODS 235 F.I FIRST
ORDER RELIABILITY METHOD 235 F.2 APPROXIMATION OF LIMIT STATE FUNCTION
237 F.3 MULTIPLE CRITICAL LOCATIONS 240 F.4 SIZE OF CRITICAL LOCATION
243 G WIND FIELD GENERATION METHODS 247 G.I ONE DIMENSIONAL CASE 247 G.2
VEERS METHOD 250 G.3 MODIFIED VEERS METHOD 251 G.4 INCORPORATING
MEASURED WIND 252 G.5 THREE DIMENSIONAL CASE (MANN S METHOD) 253 G.6
TECHNICALITIES 255 G.7 SOME RESULTS 260 H CURRICULUM VITAE 263
|
| adam_txt |
CHANCES IN WIND ENERGY A PROBABILISTIC APPROACH TO WIND TURBINE FATIGUE
DESIGN PROEFSCHRIFT TER VERKRIJGING VAN DE GRAAD VAN DOCTOR AAN DE
TECHNISCHE UNIVERSITEIT DELFT OP GEZAG VAN DE RECTOR MAGNIFICUS PROF.
DR. IR. J.T. FOKKEMA IN HET OPENBAAR TE VERDEDIGEN TEN OVERSTAAN VAN EEN
COMMISSIE, DOOR HET COLLEGE VOOR PROMOTIES AANGEWEZEN, OP DINSDAG 17
OKTOBER 2006 OM 15:00 UUR DOOR HERMAN FREDERIK VELDKAMP WERKTUIGKUNDIG
INGENIEUR GEBOREN TE KOKONAO, NEDERLANDS NIEUW-GUINEA CONTENTS FOREWORD
XI SUMMARY XIII SAMENVATTING XVII SAMMENFATNING XXI 1 INTRODUCTION 1 1.1
WIND TURBINE USE 1 1.2 ISSUES 2 1.3 PREVIOUS WORK 6 1.4 OBJECTIVES 8 1.5
SCOPE OF THIS THESIS 9 1.6 ORGANISATION 10 1.7 NOMENCLATURE 10 2
ECONOMIC DESIGN 11 2.1 INTRODUCTION 11 2.2 DESIGN CONDITIONS 12 2.3
TARGET RELIABILITY FROM A SAFETY PERSPECTIVE 17 2.4 CODE VALUES 19 2.5
CURRENTLY ACHIEVED VALUES 20 2.6 TARGET RELIABILITY FROM A FINANCIAL
PERSPECTIVE 21 2.7 SOME PHILOSOPHICAL ISSUES 26 3 CONVENTIONAL DESIGN 29
3.1 INTRODUCTION 29 3.2 GENERAL PROCEDURE 29 3.3 IDEAL AND SIMPLIFIED
CALCULATION 31 3.4 CONVENTIONAL MODELS 33 3.4.1 WIND 33 VI CONTENTS
3.4.2 SEA 39 3.4.3 AERODYNAMICS 41 3.4.4 WIND TURBINE 41 3.4.5 MATERIAL
BEHAVIOUR 42 3.5 LOAD VERIFICATION AND DESIGN ADJUSTMENT 43 3.6 SITE
ADMISSION 44 4 WIND 47 4.1 INTRODUCTION 47 4.2 WIND SPEED HISTORY 47
4.2.1 REDUCTION TO 10 MINUTE LOAD CASES 47 4.2.2 INFLUENCE OF SEED
FACTORS 50 4.3 WIND SPEED AND WIND DIRECTION DISTRIBUTIONS 51 4.3.1
IDEALISED DISTRIBUTIONS 51 4.3.2 ESTIMATION OF WIND SPEED 54 4.3.3
TRANSFORMATION TO HUB HEIGHT 59 4.3.4 YEARLY VARIATION 62 4.4 TURBULENCE
INTENSITY 63 4.4.1 INTRODUCTION 63 4.4.2 ESTIMATION OF AVERAGE
TURBULENCE 64 4.4.3 INFLUENCE ON LOADS 65 4.5 WIND FIELD 70 4.5.1
INTRODUCTION 70 4.5.2 SPECTRUM 71 4.5.3 COHERENCE FUNCTION 72 4.5.4
NON-GAUSSIAN TURBULENCE 73 4.5.5 MODELLING OF UNCERTAINTY 73 4.6 WIND
SHEAR 73 4.7 AIR DENSITY 75 4.8 INFLOW ANGLE 76 4.9 WAKE EFFECTS 77 4.10
COMPLEX TERRAIN 78 5 SEA 81 5.1 INTRODUCTION 81 5.2 LUMPING OF LOAD
CASES 82 5.2.1 ESTIMATION OF SIGNIFICANT WAVE HEIGHT 82 5.2.2 YEARLY
VARIATION OF SIGNIFICANT WAVE HEIGHT 83 5.3 WAVE SPECTRUM 84 5.4 WAVE
KINEMATICS 87 5.4.1 WAVE FIELD GENERATION 88 5.4.2 WAVE KINEMATICS 88
CONTENTS VII 5.5 DRAG AND INERTIA COEFFICIENT 89 5.6 TIDE 93 5.7 CURRENT
93 6 AERODYNAMICS AND WIND TURBINE 95 6.1 INTRODUCTION 95 6.2 BLADE
ELEMENT MOMENTUM METHOD 95 6.3 RESULTING DISTRIBUTION FOR BEM
UNCERTAINTY 97 6.4 CONTROL SYSTEM 99 6.5 CUT OUT WIND SPEED 100 6.6
STRUCTURAL MODEL 100 6.6.1 BLADE REPRESENTATION 101 6.6.2 TOWER
REPRESENTATION 102 6.6.3 EIGENFREQUENCY ERRORS 102 6.7 FEM MODELLING 103
7 FATIGUE 107 7.1 INTRODUCTION 107 7.1.1 S-N OR WOHLER CURVE 108 7.1.2
SCATTER 109 7.1.3 VARIABLE AMPLITUDE LOADING ILL 7.1.4 LIFE CURVE 112
7.2 FATIGUE LIFE PREDICTION 114 7.2.1 ACCEPTABLE SCATTER 114 7.2.2
SYNTHETIC S-N CURVE 115 7.2.3 MEASURED S-N CURVE 116 7.2.4 LIFE CURVE
AND RELATIVE MINER RULE - . 117 7.2.5 FRACTURE MECHANICS 118 7.2.6
OVERVIEW 119 7.3 TREATMENT OF UNCERTAINTY 121 7.4 MATERIAL DATA 122
7.4.1 CAST IRON 122 7.4.2 WELDS 125 7.4.3 BOLTS 128 7.5 FATIGUE OF
BLADES 129 7.5.1 INTRODUCTION 129 7.5.2 S-N CURVE 130 7.5.3 FATIGUE LIFE
PREDICTION 131 VIII CONTENTS 8 OPTIMAL PARTIAL FACTORS 133 8.1
INTRODUCTION 133 8.2 LIMIT STATE FUNCTION 134 8.3 SITE EQUIVALENT
FATIGUE LOAD 135 8.4 FATIGUE RESISTANCE 136 8.5 FAILURE PROBABILITY 138
8.6 EXAMPLE 140 8.7 STANDARD CALCULATION 144 8.8 OPTIMISATION AND
COMPARISON TO STANDARD VALUES 147 8.9 REDUCTION OF VARIATION 152 8.10
INFLUENCE ON TURBINE INVESTMENT 153 9 SENSITIVITY ANALYSIS 155 9.1
INTRODUCTION 155 9.2 EXPLANATION OF RESULTS 156 9.3 REAL FAILURE
PROBABILITY 157 9.4 EQUIVALENT LOAD DEFINITION ; , . 159 9.5 EXPONENT OF
S-N CURVE 162 9.6 WIND TURBINE LIFE 164 9.7 COMPLEX TERRAIN 164 9.8
OFFSHORE 165 9.9 LOAD VERIFICATION 166 10 CONCLUSIONS AND
RECOMMENDATIONS 169 10.1 UNCERTAINTIES 169 10.2 REVIEW OF MODELS 169
10.3 PARTIAL SAFETY FACTORS 170 10.4 RECOMMENDATIONS FOR FURTHER
RESEARCH 171 10.4.1 DESIGN METHODS 171 10.4.2 MATERIALS 171 BIBLIOGRAPHY
173 INDEX 192 A COORDINATE SYSTEM AND NOMENCLATURE 195 A.I COORDINATE
SYTEM 195 A.2 LOAD COMPONENTS 196 A.3 ACRONYMS 196 A.4 SYMBOLS 197
CONTENTS IX B WIND TURBINE DATA 205 B.I WIND TURBINE 205 B.2 WIND
TURBINE COMPONENT COST 205 C FATIGUE AND EQUIVALENT LOAD 209 C.I
EQUIVALENT LOAD 209 C.2 MEAN STRESS CORRECTION 211 C.3 FATIGUE LIMIT 215
C.4 EQUIVALENT TURBULENCE 215 C.5 ESTIMATION OF S-N CURVE FROM TESTS 219
D WIND DATA 223 E LOW CYCLE FATIGUE 227 E. 1 TRANSITION MATRIX 227 E.2
CALCULATIONS 231 F SOME NOTES ON PROBABILISTIC METHODS 235 F.I FIRST
ORDER RELIABILITY METHOD 235 F.2 APPROXIMATION OF LIMIT STATE FUNCTION
237 F.3 MULTIPLE CRITICAL LOCATIONS 240 F.4 SIZE OF CRITICAL LOCATION
243 G WIND FIELD GENERATION METHODS 247 G.I ONE DIMENSIONAL CASE 247 G.2
VEERS METHOD 250 G.3 MODIFIED VEERS METHOD 251 G.4 INCORPORATING
MEASURED WIND 252 G.5 THREE DIMENSIONAL CASE (MANN'S METHOD) 253 G.6
TECHNICALITIES 255 G.7 SOME RESULTS 260 H CURRICULUM VITAE 263 |
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| index_date | 2024-07-02T15:43:46Z |
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| publisher | DUWIND Delft University Wind Energy Research Institute |
| record_format | marc |
| spelling | Veldkamp, Herman Frederik Verfasser aut Chances in wind energy a probabilistic approach to wind turbine fatigue design door Herman Frederik Veldkamp Delft DUWIND Delft University Wind Energy Research Institute 2006 XXIV, 263 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Zugl.: Delft, Techn. Univ., Diss., 2006 Materials Fatigue Probabilities Wind turbines Design and construction Wind turbines Reliability Windenergie (DE-588)4079329-1 gnd rswk-swf Design (DE-588)4011510-0 gnd rswk-swf Windturbine (DE-588)4189962-3 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Windenergie (DE-588)4079329-1 s Windturbine (DE-588)4189962-3 s Design (DE-588)4011510-0 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015001347&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Veldkamp, Herman Frederik Chances in wind energy a probabilistic approach to wind turbine fatigue design Materials Fatigue Probabilities Wind turbines Design and construction Wind turbines Reliability Windenergie (DE-588)4079329-1 gnd Design (DE-588)4011510-0 gnd Windturbine (DE-588)4189962-3 gnd |
| subject_GND | (DE-588)4079329-1 (DE-588)4011510-0 (DE-588)4189962-3 (DE-588)4113937-9 |
| title | Chances in wind energy a probabilistic approach to wind turbine fatigue design |
| title_auth | Chances in wind energy a probabilistic approach to wind turbine fatigue design |
| title_exact_search | Chances in wind energy a probabilistic approach to wind turbine fatigue design |
| title_exact_search_txtP | Chances in wind energy a probabilistic approach to wind turbine fatigue design |
| title_full | Chances in wind energy a probabilistic approach to wind turbine fatigue design door Herman Frederik Veldkamp |
| title_fullStr | Chances in wind energy a probabilistic approach to wind turbine fatigue design door Herman Frederik Veldkamp |
| title_full_unstemmed | Chances in wind energy a probabilistic approach to wind turbine fatigue design door Herman Frederik Veldkamp |
| title_short | Chances in wind energy |
| title_sort | chances in wind energy a probabilistic approach to wind turbine fatigue design |
| title_sub | a probabilistic approach to wind turbine fatigue design |
| topic | Materials Fatigue Probabilities Wind turbines Design and construction Wind turbines Reliability Windenergie (DE-588)4079329-1 gnd Design (DE-588)4011510-0 gnd Windturbine (DE-588)4189962-3 gnd |
| topic_facet | Materials Fatigue Probabilities Wind turbines Design and construction Wind turbines Reliability Windenergie Design Windturbine Hochschulschrift |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015001347&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT veldkamphermanfrederik chancesinwindenergyaprobabilisticapproachtowindturbinefatiguedesign |