Modelling and investigation of turbine generator oscillations: an operator's perspective
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Abschlussarbeit Buch |
| Sprache: | English |
| Veröffentlicht: |
2005
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | 234 S. graph. Darst. |
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| 245 | 1 | 0 | |a Modelling and investigation of turbine generator oscillations |b an operator's perspective |c von Rajiv Kumar |
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| 300 | |a 234 S. |b graph. Darst. | ||
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Datensatz im Suchindex
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| adam_text | O UNIVERSITAT KARLSRUHE (TH) INSTITUT FUR ELEKTROENERGIESYSTEME UND
HOCHSPANNUNGSTECHNIK INSTITUTSLEITUNG: PROF. DR.-LNG. THOMAS LEIBFRIED M
MODELLING AND INVESTIGATION OF TURBINE GENERATOR OSCILLATIONS - AN
OPERATOR S PERSPECTIVE ZUR ERLANGUNG DES AKADEMISCHEN GRADES EINES
DOKTOR-LNGENIEURS VON DER FAKULTAT FUR ELEKTROTECHNIK UND
INFORMATIONSTECHNIK DER UNIVERSITAT FRIDERICIANA KARLSRUHE (TH)
GENEHMIGTE DISSERTATION VON M.SC. RAJIV KUMAR AUS JUNPAT, U.P., INDIEN
TAG DER MIINDLICHEN PRIIFUNG: 24. MAY 2005 HAUPTREFERENT: PROF. DR.-LNG.
DR. H.C.MULT. A.J. SCHWAB KORREFERENT: PROF. DR.-LNG. THOMAS LEIBFRIED
CONTENTS OVERVIEW OF THE THESIS 9 1.1 OBJECTIVES 10 1.2 METHODS 11 1.2.1
EASY TO COMPREHEND BLOCK DIAGRAM AND GRAPHICAL APPROACH 11 1.2.2
APPLICATION OF POWER PLANT OPERATING EXPERIENCE 12 1.2.3 RECONSTRUCTION
OF DADRI POWER PLANT EVENTS 12 1.2.4 USING COMBINATION OF SOFTWARES
NETOMAC AND MATLAB/SIMULINK TO ANALYSE SSR 12 1.3 CONTRIBUTIONS 12 1.3.1
GENERAL CONTRIBUTIONS TO THE LITERATURE 12 1.3.2 CONTRIBUTIONS SPECIFIC
TO THE DADRI POWER STATION 13 1.4 THESIS ORGANIZATION 14 STEAM TURBINE
GENERATOR OPERATION 15 2.1 STEAM TURBINE GENERATOR OPERATING EVENTS 15
2.1.1 STARTUP 15 2.1.2 STEADY STATE ON-LOAD OPERATION 18 2.1.3
LOADSHEDDING 18 2.1.4 LARGE DROP IN SYSTEM VOLTAGE 18 2.1.5 UNIT
TRIPPING 18 2.1.6 SYSTEM FREQUENCY FLUCTUATIONS 19 2.2 A NOTE ON POWER
STATION SPEED MEASUREMENT 19 2.3 REAL PLANT EXAMPLES OF OPERATING EVENTS
AT DADRI POWER STATION 20 2.3.1 UNIT SYNCHRONIZATION AND BLOCK LOADING
21 2.3.2 UNIT LOAD RAISING 23 2.3.3 STEADY STATE ON-LOAD OPERATION 23
2.3.4 LOAD SHEDDING ON ID FAN B TRIP 24 2.3.5 GRID FREQUENCY
FLUCTUATIONS 24 CONTENTS 2.3.6 UNIT TRIP 25 2.4 ISSUES WHICH ARE OF
CONCERN TO THE POWER PLANT OPERATORS 26 2.5 MOTIVATION FOR THE THESIS 28
2.6 ISSUES THAT ARE EXCLUDED FROM THE SCOPE OF THIS THESIS 28 STEAM
TURBINE GENERATOR MODELS 29 3.1 REVIEW OF THE EXISTING LITERATURE FOR
TURBINE GENERATOR MODELLING 30 3.2 THE NEED FOR DEVELOPING THE MODELS IN
THIS THESIS 30 3.3 STEAM TURBINE GENERATOR ROTOR SHAFT SYSTEM MODEL 31
3.3.1 DIFFERENTIAL EQUATIONS 32 3.3.2 MODEL BLOCK DIAGRAM 36 3.3.3 MODEL
PARAMETERS 41 3.3.4 PROPOSED APPLICATION OF THE MODEL 42 3.3.5
LIMITATIONS OF THE ROTOR SHAFT SYSTEM MODEL 43 3.4 GRAPHICAL
REPRESENTATION OF DQO TRANSFORMATION 44 3.4.1 BALANCED STEADY STATE
OPERATION 45 3.4.2 BALANCED DYNAMIC OPERATION 48 3.4.3 TRANSIENT
CONDITIONS 49 3.4.4 TRANSFORMATION FROM R, S, T-SYSTEM TO D, Q, 0-SYSTEM
49 3.5 EQUIVALENT CIRCUIT FOR SYNCHRONOUS GENERATOR 50 3.5.1 D-AXIS 51
3.5.2 3.5.3 COMPLETE EQUIVALENT CIRCUITS OF GENERATOR D-AXIS AND Q-AXIS
58 3.6 MODEL FOR SYNCHRONOUS GENERATOR CONNECTED TO INFINITE BUS SYSTEM
59 3.6.1 DIFFERENTIAL EQUATIONS 59 3.6.2 MODEL BLOCK DIAGRAM 63 3.6.3
MODEL PARAMETERS 68 3.6.4 PROPOSED APPLICATION OF THE MODEL 69 3.6.5
LIMITATIONS OF THE SYNCHRONOUS GENERATOR MODEL 69 3.7 MODEL FOR
AUTOMATIC EXCITATION CONTROL SYSTEM 69 3.7.1 DIFFERENTIAL EQUATIONS 69
3.7.2 MODEL BLOCK DIAGRAM 70 3.7.3 MODEL PARAMETERS 71 3.7.4 PROPOSED
APPLICATION OF THE MODEL 72 3.7.5 LIMITATIONS OF THE EXCITATION CONTROL
SYSTEM MODEL 72 3.8 ITERATIVE USE OF TURBINE AND GENERATOR MODELS 72 3.9
PASSIVE NETWORK IMPEDANCE SCANNING MODEL 73 CONTENTS 3.9.1 MODEL
PARAMETERS 74 3.9.2 PROPOSED APPLICATION OF THE MODEL 75 3.9.3
LIMITATIONS OF THE IMPEDANCE SCANNING MODEL 75 3.10 MODEL OF BUS
CONNECTED PARALLEL GENERATORS FOR INVESTIGATING SSR CONSEQUENCES IN
SOFTWARE NETOMAC 75 3.10.1 MODEL PARAMETERS 76 3.10.2 PROPOSED
APPLICATION OF THE MODEL 78 3.10.3 LIMITATIONS OF THE NETOMAC SSR MODEL
78 VALIDATION AND SUITABILITY OF MODELS 79 4.1 STEAM TURBINE GENERATOR
ROTOR SHAFT SYSTEM MODEL 79 4.1.1 NATURAL FREQUENCIES 80 4.1.2 TURBINE
GENERATOR STARTUP AND LOADING TO RATED TORQUE 81 4.1.3 STEP RESPONSE OF
THE MODEL 83 4.1.4 ACCEPTABILITY OF THE MODEL 87 4.2 SYNCHRONOUS
GENERATOR CONNECTED TO AN INFINITE BUS MODEL 88 4.2.1 GENERATOR
SYNCHRONIZATION, BLOCK LOADING, AND RAMP LOADING 89 4.2.2 STEADY STATE
RATED LOAD OPERATION 98 4.2.3 ACCEPTABILITY OF THE MODEL 102 4.3
AUTOMATIC EXCITATION CONTROL SYSTEM MODEL 102 4.3.1 10 % STEP INCREASE
IN MECHANICAL TORQUE INPUT TO GENERATOR 102 4.3.2 COMPARISON WITH
REFERENCE 106 4.3.3 ACCEPTABILITY OF THE MODEL 106 4.4 ITERATIVE USE OF
TURBINE AND GENERATOR MODELS 106 4.5 IMPEDANCE SCANNING OF THE PASSIVE
NETWORK MODEL 109 4.6 NETOMAC MODEL FOR SSR INVESTIGATION 110 4.6.1 TIME
DOMAIN SIMULATION OF IEEE FIRST BENCHMARK MODEL 110 4.6.2 POWER DENSITY
SPECTRUM OF GENERATOR CURRENT ILL 4.6.3 ACCEPTABILITY OF THE MODEL 112
SEQUENCE OF EVENTS AND ROOT CAUSE ANALYSIS 113 5.1 FAULTY
SYNCHRONIZATION 113 5.1.1 SEQUENCE OF EVENTS AND ROOT CAUSE ANALYSIS 114
5.1.2 ROTOR SHAFT TRANSMITTED TORQUES AND TORSIONAL ANGLES 130 5.2
SUDDEN LOAD SHEDDING 132 5.2.1 SEQUENCE OF EVENTS AND ROOT CAUSE
ANALYSIS 133 5.2.2 ROTOR SHAFT TRANSMITTED TORQUES AND TORSIONAL ANGLES
144 5.3 10% STEP REDUCTION IN INFINITE BUS VOLTAGE 146 CONTENTS 5.3.1
SEQUENCE OF EVENTS AND ROOT CAUSE ANALYSIS 147 5.3.2 ROTOR SHAFT
TRANSMITTED TORQUES AND TORSIONAL ANGLES 153 6 RECONSTRUCTION OF DADRI
POWER PLANT EVENTS 155 6.1 RECONSTRUCTION OF REAL PLANT OPERATING EVENTS
155 6.1.1 OBSERVATIONS 164 6.2 ANALYSIS OF ISSUES WHICH ARE OF CONCERN
TO THE POWER PLANT OPERATORS 166 6.2.1 SUDDEN AND LARGE SPIKES IN
TURBINE SPEED 166 6.2.2 CONTINUOUS FLUCTUATIONS IN SYSTEM FREQUENCY 166
6.2.3 UNIT TRIP 167 6.2.4 EXCITATION SYSTEM NOT IN AUTO CONTROL MODE 167
6.2.5 MISALIGNMENT AT LP TURBINE TO GENERATOR COUPLING 167 6.2.6 PAST
EVENTS AT DADRI 168 6.2.7 ADDITIONAL ONLINE MEASUREMENTS AND RECORDING
FACILITIES 168 7 SUBSYNCHRONOUS RESONANCE 169 7.1 SIMULATION OF SSR 169
7.2 ANALYSIS OF RESULTS 170 7.3 ROTOR SHAFT TRANSMITTED TORQUES AND
TORSIONAL ANGLES 174 7.4 CONCLUDING REMARK 177 8 SUMMARY OF THE THESIS
AND OUTLOOK 179 8.1 SUMMARY 179 8.2 OUTLOOK 181 A CALCULATION OF
PARAMETERS FOR ROTOR SHAFT 183 B ANALYSIS OF SYNCHRONOUS GENERATOR
CIRCUITS 185 C FLUX LINKAGE STATE SPACE MODEL FOR SYNCHRONOUS GENERATOR
SYSTEM 193 D GENERATOR MODEL INPUT / OUTPUT SCALING AND GAIN FACTORS 199
E BASE FOR GENERATOR ROTOR QUANTITIES 205 F COMPUTATION OF NATURAL
FREQUENCIES OF THE ROTOR SHAFT SYSTEM 217 G LIST OF SYMBOLS AND ACRONYMS
219 BIBLIOGRAPHY 225
|
| adam_txt |
O UNIVERSITAT KARLSRUHE (TH) INSTITUT FUR ELEKTROENERGIESYSTEME UND
HOCHSPANNUNGSTECHNIK INSTITUTSLEITUNG: PROF. DR.-LNG. THOMAS LEIBFRIED M
MODELLING AND INVESTIGATION OF TURBINE GENERATOR OSCILLATIONS - AN
OPERATOR'S PERSPECTIVE " ZUR ERLANGUNG DES AKADEMISCHEN GRADES EINES
DOKTOR-LNGENIEURS VON DER FAKULTAT FUR ELEKTROTECHNIK UND
INFORMATIONSTECHNIK DER UNIVERSITAT FRIDERICIANA KARLSRUHE (TH)
GENEHMIGTE DISSERTATION VON M.SC. RAJIV KUMAR AUS JUNPAT, U.P., INDIEN
TAG DER MIINDLICHEN PRIIFUNG: 24. MAY 2005 HAUPTREFERENT: PROF. DR.-LNG.
DR. H.C.MULT. A.J. SCHWAB KORREFERENT: PROF. DR.-LNG. THOMAS LEIBFRIED
CONTENTS OVERVIEW OF THE THESIS 9 1.1 OBJECTIVES 10 1.2 METHODS 11 1.2.1
EASY TO COMPREHEND BLOCK DIAGRAM AND GRAPHICAL APPROACH 11 1.2.2
APPLICATION OF POWER PLANT OPERATING EXPERIENCE 12 1.2.3 RECONSTRUCTION
OF DADRI POWER PLANT EVENTS 12 1.2.4 USING COMBINATION OF SOFTWARES
NETOMAC AND MATLAB/SIMULINK TO ANALYSE SSR 12 1.3 CONTRIBUTIONS 12 1.3.1
GENERAL CONTRIBUTIONS TO THE LITERATURE 12 1.3.2 CONTRIBUTIONS SPECIFIC
TO THE DADRI POWER STATION 13 1.4 THESIS ORGANIZATION 14 STEAM TURBINE
GENERATOR OPERATION 15 2.1 STEAM TURBINE GENERATOR OPERATING EVENTS 15
2.1.1 STARTUP 15 2.1.2 STEADY STATE ON-LOAD OPERATION 18 2.1.3
LOADSHEDDING 18 2.1.4 LARGE DROP IN SYSTEM VOLTAGE 18 2.1.5 UNIT
TRIPPING 18 2.1.6 SYSTEM FREQUENCY FLUCTUATIONS 19 2.2 A NOTE ON POWER
STATION SPEED MEASUREMENT 19 2.3 REAL PLANT EXAMPLES OF OPERATING EVENTS
AT DADRI POWER STATION 20 2.3.1 UNIT SYNCHRONIZATION AND BLOCK LOADING
21 2.3.2 UNIT LOAD RAISING 23 2.3.3 STEADY STATE ON-LOAD OPERATION 23
2.3.4 LOAD SHEDDING ON ID FAN B TRIP 24 2.3.5 GRID FREQUENCY
FLUCTUATIONS 24 CONTENTS 2.3.6 UNIT TRIP 25 2.4 ISSUES WHICH ARE OF
CONCERN TO THE POWER PLANT OPERATORS 26 2.5 MOTIVATION FOR THE THESIS 28
2.6 ISSUES THAT ARE EXCLUDED FROM THE SCOPE OF THIS THESIS 28 STEAM
TURBINE GENERATOR MODELS 29 3.1 REVIEW OF THE EXISTING LITERATURE FOR
TURBINE GENERATOR MODELLING 30 3.2 THE NEED FOR DEVELOPING THE MODELS IN
THIS THESIS 30 3.3 STEAM TURBINE GENERATOR ROTOR SHAFT SYSTEM MODEL 31
3.3.1 DIFFERENTIAL EQUATIONS 32 3.3.2 MODEL BLOCK DIAGRAM 36 3.3.3 MODEL
PARAMETERS 41 3.3.4 PROPOSED APPLICATION OF THE MODEL 42 3.3.5
LIMITATIONS OF THE ROTOR SHAFT SYSTEM MODEL 43 3.4 GRAPHICAL
REPRESENTATION OF DQO TRANSFORMATION 44 3.4.1 BALANCED STEADY STATE
OPERATION 45 3.4.2 BALANCED DYNAMIC OPERATION 48 3.4.3 TRANSIENT
CONDITIONS 49 3.4.4 TRANSFORMATION FROM R, S, T-SYSTEM TO D, Q, 0-SYSTEM
49 3.5 EQUIVALENT CIRCUIT FOR SYNCHRONOUS GENERATOR 50 3.5.1 D-AXIS 51
3.5.2 3.5.3 COMPLETE EQUIVALENT CIRCUITS OF GENERATOR D-AXIS AND Q-AXIS
58 3.6 MODEL FOR SYNCHRONOUS GENERATOR CONNECTED TO INFINITE BUS SYSTEM
59 3.6.1 DIFFERENTIAL EQUATIONS 59 3.6.2 MODEL BLOCK DIAGRAM 63 3.6.3
MODEL PARAMETERS 68 3.6.4 PROPOSED APPLICATION OF THE MODEL 69 3.6.5
LIMITATIONS OF THE SYNCHRONOUS GENERATOR MODEL 69 3.7 MODEL FOR
AUTOMATIC EXCITATION CONTROL SYSTEM 69 3.7.1 DIFFERENTIAL EQUATIONS 69
3.7.2 MODEL BLOCK DIAGRAM 70 3.7.3 MODEL PARAMETERS 71 3.7.4 PROPOSED
APPLICATION OF THE MODEL 72 3.7.5 LIMITATIONS OF THE EXCITATION CONTROL
SYSTEM MODEL 72 3.8 ITERATIVE USE OF TURBINE AND GENERATOR MODELS 72 3.9
PASSIVE NETWORK IMPEDANCE SCANNING MODEL 73 CONTENTS 3.9.1 MODEL
PARAMETERS 74 3.9.2 PROPOSED APPLICATION OF THE MODEL 75 3.9.3
LIMITATIONS OF THE IMPEDANCE SCANNING MODEL 75 3.10 MODEL OF BUS
CONNECTED PARALLEL GENERATORS FOR INVESTIGATING SSR CONSEQUENCES IN
SOFTWARE NETOMAC 75 3.10.1 MODEL PARAMETERS 76 3.10.2 PROPOSED
APPLICATION OF THE MODEL 78 3.10.3 LIMITATIONS OF THE NETOMAC SSR MODEL
78 VALIDATION AND SUITABILITY OF MODELS 79 4.1 STEAM TURBINE GENERATOR
ROTOR SHAFT SYSTEM MODEL 79 4.1.1 NATURAL FREQUENCIES 80 4.1.2 TURBINE
GENERATOR STARTUP AND LOADING TO RATED TORQUE 81 4.1.3 STEP RESPONSE OF
THE MODEL 83 4.1.4 ACCEPTABILITY OF THE MODEL 87 4.2 SYNCHRONOUS
GENERATOR CONNECTED TO AN INFINITE BUS MODEL 88 4.2.1 GENERATOR
SYNCHRONIZATION, BLOCK LOADING, AND RAMP LOADING 89 4.2.2 STEADY STATE
RATED LOAD OPERATION 98 4.2.3 ACCEPTABILITY OF THE MODEL 102 4.3
AUTOMATIC EXCITATION CONTROL SYSTEM MODEL 102 4.3.1 10 % STEP INCREASE
IN MECHANICAL TORQUE INPUT TO GENERATOR 102 4.3.2 COMPARISON WITH
REFERENCE 106 4.3.3 ACCEPTABILITY OF THE MODEL 106 4.4 ITERATIVE USE OF
TURBINE AND GENERATOR MODELS 106 4.5 IMPEDANCE SCANNING OF THE PASSIVE
NETWORK MODEL 109 4.6 NETOMAC MODEL FOR SSR INVESTIGATION 110 4.6.1 TIME
DOMAIN SIMULATION OF IEEE FIRST BENCHMARK MODEL 110 4.6.2 POWER DENSITY
SPECTRUM OF GENERATOR CURRENT ILL 4.6.3 ACCEPTABILITY OF THE MODEL 112
SEQUENCE OF EVENTS AND ROOT CAUSE ANALYSIS 113 5.1 FAULTY
SYNCHRONIZATION 113 5.1.1 SEQUENCE OF EVENTS AND ROOT CAUSE ANALYSIS 114
5.1.2 ROTOR SHAFT TRANSMITTED TORQUES AND TORSIONAL ANGLES 130 5.2
SUDDEN LOAD SHEDDING 132 5.2.1 SEQUENCE OF EVENTS AND ROOT CAUSE
ANALYSIS 133 5.2.2 ROTOR SHAFT TRANSMITTED TORQUES AND TORSIONAL ANGLES
144 5.3 10% STEP REDUCTION IN INFINITE BUS VOLTAGE 146 CONTENTS 5.3.1
SEQUENCE OF EVENTS AND ROOT CAUSE ANALYSIS 147 5.3.2 ROTOR SHAFT
TRANSMITTED TORQUES AND TORSIONAL ANGLES 153 6 RECONSTRUCTION OF DADRI
POWER PLANT EVENTS 155 6.1 RECONSTRUCTION OF REAL PLANT OPERATING EVENTS
155 6.1.1 OBSERVATIONS 164 6.2 ANALYSIS OF ISSUES WHICH ARE OF CONCERN
TO THE POWER PLANT OPERATORS 166 6.2.1 SUDDEN AND LARGE SPIKES IN
TURBINE SPEED 166 6.2.2 CONTINUOUS FLUCTUATIONS IN SYSTEM FREQUENCY 166
6.2.3 UNIT TRIP 167 6.2.4 EXCITATION SYSTEM NOT IN AUTO CONTROL MODE 167
6.2.5 MISALIGNMENT AT LP TURBINE TO GENERATOR COUPLING 167 6.2.6 PAST
EVENTS AT DADRI 168 6.2.7 ADDITIONAL ONLINE MEASUREMENTS AND RECORDING
FACILITIES 168 7 SUBSYNCHRONOUS RESONANCE 169 7.1 SIMULATION OF SSR 169
7.2 ANALYSIS OF RESULTS 170 7.3 ROTOR SHAFT TRANSMITTED TORQUES AND
TORSIONAL ANGLES 174 7.4 CONCLUDING REMARK 177 8 SUMMARY OF THE THESIS
AND OUTLOOK 179 8.1 SUMMARY 179 8.2 OUTLOOK 181 A CALCULATION OF
PARAMETERS FOR ROTOR SHAFT 183 B ANALYSIS OF SYNCHRONOUS GENERATOR
CIRCUITS 185 C FLUX LINKAGE STATE SPACE MODEL FOR SYNCHRONOUS GENERATOR
SYSTEM 193 D GENERATOR MODEL INPUT / OUTPUT SCALING AND GAIN FACTORS 199
E BASE FOR GENERATOR ROTOR QUANTITIES 205 F COMPUTATION OF NATURAL
FREQUENCIES OF THE ROTOR SHAFT SYSTEM 217 G LIST OF SYMBOLS AND ACRONYMS
219 BIBLIOGRAPHY 225 |
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| any_adam_object_boolean | 1 |
| author | Kumar, Rajiv |
| author_facet | Kumar, Rajiv |
| author_role | aut |
| author_sort | Kumar, Rajiv |
| author_variant | r k rk |
| building | Verbundindex |
| bvnumber | BV021549345 |
| ctrlnum | (OCoLC)255495446 (DE-599)BVBBV021549345 |
| format | Thesis Book |
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| genre | (DE-588)4113937-9 Hochschulschrift gnd-content |
| genre_facet | Hochschulschrift |
| id | DE-604.BV021549345 |
| illustrated | Illustrated |
| index_date | 2024-07-02T14:31:02Z |
| indexdate | 2024-07-09T20:38:23Z |
| institution | BVB |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014765444 |
| oclc_num | 255495446 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM DE-1102 DE-634 DE-83 |
| owner_facet | DE-91 DE-BY-TUM DE-1102 DE-634 DE-83 |
| physical | 234 S. graph. Darst. |
| publishDate | 2005 |
| publishDateSearch | 2005 |
| publishDateSort | 2005 |
| record_format | marc |
| spelling | Kumar, Rajiv Verfasser aut Modelling and investigation of turbine generator oscillations an operator's perspective von Rajiv Kumar 2005 234 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Zugl.: Karlsruhe, Univ., Diss., 2005 Dampfkraftwerk - Dampfturbine - Turbogenerator - Synchrongenerator - Schwingungsverhalten - Numerisches Modell Dampfkraftwerk (DE-588)4010988-4 gnd rswk-swf Dampfturbine (DE-588)4011002-3 gnd rswk-swf Turbogenerator (DE-588)4186463-3 gnd rswk-swf Schwingungsverhalten (DE-588)4180569-0 gnd rswk-swf Synchrongenerator (DE-588)4121751-2 gnd rswk-swf Numerisches Modell (DE-588)4338132-7 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Dampfkraftwerk (DE-588)4010988-4 s Dampfturbine (DE-588)4011002-3 s Turbogenerator (DE-588)4186463-3 s Synchrongenerator (DE-588)4121751-2 s Schwingungsverhalten (DE-588)4180569-0 s Numerisches Modell (DE-588)4338132-7 s DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014765444&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kumar, Rajiv Modelling and investigation of turbine generator oscillations an operator's perspective Dampfkraftwerk - Dampfturbine - Turbogenerator - Synchrongenerator - Schwingungsverhalten - Numerisches Modell Dampfkraftwerk (DE-588)4010988-4 gnd Dampfturbine (DE-588)4011002-3 gnd Turbogenerator (DE-588)4186463-3 gnd Schwingungsverhalten (DE-588)4180569-0 gnd Synchrongenerator (DE-588)4121751-2 gnd Numerisches Modell (DE-588)4338132-7 gnd |
| subject_GND | (DE-588)4010988-4 (DE-588)4011002-3 (DE-588)4186463-3 (DE-588)4180569-0 (DE-588)4121751-2 (DE-588)4338132-7 (DE-588)4113937-9 |
| title | Modelling and investigation of turbine generator oscillations an operator's perspective |
| title_auth | Modelling and investigation of turbine generator oscillations an operator's perspective |
| title_exact_search | Modelling and investigation of turbine generator oscillations an operator's perspective |
| title_exact_search_txtP | Modelling and investigation of turbine generator oscillations an operator's perspective |
| title_full | Modelling and investigation of turbine generator oscillations an operator's perspective von Rajiv Kumar |
| title_fullStr | Modelling and investigation of turbine generator oscillations an operator's perspective von Rajiv Kumar |
| title_full_unstemmed | Modelling and investigation of turbine generator oscillations an operator's perspective von Rajiv Kumar |
| title_short | Modelling and investigation of turbine generator oscillations |
| title_sort | modelling and investigation of turbine generator oscillations an operator s perspective |
| title_sub | an operator's perspective |
| topic | Dampfkraftwerk - Dampfturbine - Turbogenerator - Synchrongenerator - Schwingungsverhalten - Numerisches Modell Dampfkraftwerk (DE-588)4010988-4 gnd Dampfturbine (DE-588)4011002-3 gnd Turbogenerator (DE-588)4186463-3 gnd Schwingungsverhalten (DE-588)4180569-0 gnd Synchrongenerator (DE-588)4121751-2 gnd Numerisches Modell (DE-588)4338132-7 gnd |
| topic_facet | Dampfkraftwerk - Dampfturbine - Turbogenerator - Synchrongenerator - Schwingungsverhalten - Numerisches Modell Dampfkraftwerk Dampfturbine Turbogenerator Schwingungsverhalten Synchrongenerator Numerisches Modell Hochschulschrift |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014765444&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kumarrajiv modellingandinvestigationofturbinegeneratoroscillationsanoperatorsperspective |