Verfügbarkeit: Solving tribology problems in rotating machines

Solving tribology problems in rotating machines:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Prashad, Har (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press [u.a.] 2006
Schriftenreihe:	Woodhead publishing in mechanical engineering
Schlagworte:	Lebensdauer Wälzlager Antrieb > Technik Magnetlager Versagen Hydrodynamisches Lager Fallstudie
Online-Zugang:	lizenzfrei Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XVI, 247 S. zahlr. Ill. und graph. Darst.
ISBN:	0849392098 1845691105 9781845691103

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Datensatz im Suchindex

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adam_text	SOLVING TRIBOLOGY PROBLEMS IN ROTATING MACHINES OCA RATON H PRASHAD (G) CRC PRESS BOSTON NEW YORK WASHINGTON, DC WOODHEAD PUBLISHING LIMITED CAMBRIDGE ENGLAND CONTENTS PREFACE XM ABOUT THE AUTHOR XV 1 RELIABILITY ANALYSIS OF ROILING-ELEMENT BEANNGS A GENERAL REVIEW INTRODUCTION DETECTION OF BEARING MALFUNCTION AND DETERMINATION OF DEFECT FREQUENCIES RESONANT FREQUENCIES EXPERIMENTAL PROCEDURA INSTRUMENTATION DETAILS AND TECHNIQUES 4 DETERMINATION OF DEFECT FREQUENCIES AND ENERGY LEVELS RESULTS AND DISCUSSION Y CONCLUSIONS AND RECOMMENDATIONS 19 20 REFERENCES 90 NOMENCLATURE FUNCTIONAL PERFORMANCE OF ROILING-ELEMENT BEARINGS FOR ACCEPTANCE IN ROUTINE APPLICATIONS 22 ?? A SENERAL REVIEW 11 INTRODUCTION BEARING TEST PHILOSOPHY 23 BEARING TEST MACHINE 25 EXPERIMENTAL PROCEDURA 26 DATA DEDUCTION RESULTS AND DISCUSSION 3U OVERALL VIBRATION LEVELS OF BEARINGS 37 PREDICTED LIFE OF BEARINGS 37 COMPARISON OF PERFORMANCE OF BEARINGS 38 VI CONTENTS 2.11 CONCLUSIONS 2.12 REFERENCES 3 CAGE AND ROLLER SLIP OF ROLIING-ELEMENT BEARINGS 3.1 A GENERAL REVIEW 3.2 INTRODUCTION 3.3 CHARACTERISTIC DEFECT FREQUENCIES 3.4 EXPERIMENTAL PROCEDURE 3.5 SPECTRAL ANALYSIS TECHNIQUE 3.6 DETERMINATION OF DEFECT FREQUENCIES AND ENERGY LEVELS 3.7 RESULTS AND DISCUSSION 3.8 COMPARISON OF BEARINGS 3.9 CONCLUSIONS 3.10 REFERENCES 3.11 APPENDIX 3.12 NOMENCLATURE 4 DIAGNOSIS AND CAUSE ANALYSIS OF ROLIING-ELEMENT BEARINGS FAILURE IN ELECTRIC POWER EQUIPMENT 4.1 A GENERAL REVIEW 4.2 INTRODUCTION 4.3 BEARING ARRANGEMENT AND NATURE OF BEARING FAILURE 4.4 INVESTIGATIONS, OBSERVATION OF FAILURE S AND DATA COLLECTION 4.5 RESULTS AND DISCUSSION 4.6 CONCLUSIONS 4.7 REFERENCES 5 LOCALIZED ELECTRICAL CURRENT IN ROLIING-ELEMENT BEARINGS 5.1 A GENERAL REVIEW 5.2 INTRODUCTION 5.3 BEARING ARRANGEMENT AND THE NATURE OF BEARING FAILURE 5.4 INVESTIGATIONS, OBSERVATIONS AND DATA COLLECTION 5.5 THEORETICAL MODEL AND APPROACH TO DETERMINE THE FLOW OF LOCALIZED CURRENT IN A BEARING 5.6 FIELD STRENGTH ON TRACK SURFACES OF RACES AND ROLLING-ELEMENTS 5.7 MAGNETIC FLUX DENSITY 5.8 DETERMINATION OF TIME SPAN FOR THE APPEARANCE OF FLUTES ON TRACK SURFACES 5.9 DATA DEDUCTION 5.10 RESULTS AND DISCUSSION CONTENTS VII 5.11 CONCLUSIONS 80 5.12 REFERENCES 81 5.13 NOMENCLATURE 82 6 RESPONSE AND PERFOTMANCE OF A ROFLING-ELEMENT BEARING UNDER THE INFLUENCE OF AN ELECTRIC CURRENT 84 6.1 A GENERAL REVIEW 84 6.2 INTRODUCTION 84 6.3 BEHAVIOUR OF GREASE IN NON-INSULATED BEARINGS 86 6.4 EFFECT OF CURRENT ON FORMATION OF CORRUGATED PATTERNS ON THE ROLLER TRACK OF RACES OF ROLLER BEARINGS 90 6.5 EFFECT OF CURRENT LEAKAGE ON ELECTRO-ADHESION FORCES IN ROLLING FRICTION AND MAGNETIC FLUX DENSITY DISTRIBUTION ON BEARING SURFACES 92 6.6 EFFECT OF OPERATING PARAMETERS ON THE THRESHOLD VOLTAGES AND IMPEDANCE RESPONSE OF NON-INSULATED ROLLING-ELEMENT BEARINGS 94 6.7 IMPEDANCE, CAPACITANCE AND CHARGE ACCUMULATION ON ROLLER BEARINGS 95 6.8 CONTACT TEMPERATURE, CONTACT STRESSES AND SLIP BANDS INITIATION ON ROLLER TRACK OF RACES 96 6.9 EFFECTS OF INSTANTANEOUS CHARGE LEAKAGE ON ROLLER TRACKS OF ROLLER BEARINGS LUBRICATED WITH HIGH-RESISTIVITY LUBRICANTS 98 6.10 CAPACITIVE EFFECTS OF ROLLER BEARINGS ON REPEATED STARTS AND STOPS OF A MACHINE 99 6.11 MECHANISM OF BEARING FAILURES 100 6.12 CONCLUSION 102 6.13 REFERENCES 102 6.14 NOMENCLATURE 103 7 EFFECT OF OIL GRADES AND CLEARANCE RATIOS ON THE RELIABILITY OF CYLINDRICAL HYDRODYNAMIC BEARINGS 106 7.1 A GENERAL REVIEW 106 7.2 INTRODUCTION 106 7.3 BACKGROUND 107 7.4 THEORETICAL 109 7.5 EVALUATION OF VISCOSITY COEFFICIENTS 110 7.6 DETERMINATION OF VISCOSITY INTEGRAL 112 7.7 ASSESSMENT OF BEARING PERFORMANCE 114 7.8 EFFECT OF OIL GRADES ON TEMPERATURE RISE AND SAFE LOAD- CARRYING CAPACITY OF BEARINGS 116 VIII CONTENTS 7.9 7.10 7.11 7.12 7.13 8 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 9.1 9.2 9.3 9.4 9.5 9.6 9.7 10 10.1 10.2 10.3 10.4 10.5 10.6 10.7 BEARING TURBULENCE AND TRANSITION SPEED RESULTS AND DISCUSSION CONCLUSIONS AND RECOMMENDATIONS REFERENCES NOMENCLATURE SPHERICAL SEATING OF HYDRODYNAMIC JOURNAL BEARINGS A GENERAL REVIEW INTRODUCTION THEORETICAL BASIS OF THE SIMPLIFIED DESIGN METHODOLOGY EVALUATION OF MINIMUM VALUES OF CONSTANT OF MOMENT OF FNCTION AND OPTIMUM VALUES OF THE DESIGN PARAMETERS OF SPHERICAL SEATING FUNCTIONAL NOMOGRAPHS FOR EVALUATION OF OPTIMUM VALUES FOR SPHERICAL SEATING DESIGN PARAMETERS GUIDELINES FOR CHOOSING THE OPTIMUM VALUES FOR SPHERICAL SEATMG DESIGN PARAMETERS CONCLUSIONS AND RECOMMENDATIONS REFERENCES NOMENCLATURE LIFE ESTIMATION OF TURBINE OILS: A METHODOLOGY AND CNTERION FOR ACCEPTANCE OR REJECTION A GENERAL REVIEW INTRODUCTION EXPERIMENTAL INVESTIGATIONS DATA DEDUCTION RESULTS AND DISCUSSION CONCLUSIONS AND RECOMMENDATIONS REFERENCES AXIAL FORCE ON MOTOR BEARINGS: A TOOL FOR PERFORMANCE EVALUATION A GENERAL REVIEW INTRODUCTION AXIAL FORCE MEASUREMENT TECHNIQUE EXPERIMENTAL DETERMINATION OF AXIAL FORCE RESULTS AND DISCUSSION CONCLUSIONS AND FUTURE STUDIES BIBLIOGRAPHY 117 120 126 128 128 130 130 130 131 133 134 136 136 137 137 139 139 139 140 141 142 147 148 149 149 149 150 152 152 153 153 CONTENTS IX 11 AN ANALYSIS OF THE PROGRESSIVE INCREASE IN VIBRATION OF A LARGE SYNCHRONOUS EIECTRIC MOTOR 11.1 A GENERAL REVIEW 11.2 INTRODUCTION 11.3 POSSIBLE SOURCES OF VIBRATION 1 I .4 DIAGNOSIS OF CAUSES OF VIBRATIONS 11.5 SYSTEM DESIGN, BEARING ASSEMBLY AND CHARACTERISTIC FEATURES OF THE SYNCHRONOUS MOTOR UNDER INVESTIGATION 11.6 INVESTIGATIONS AND ANALYSIS U.7 RESULTS AND DISCUSSION 11.8 CONCLUSIONS AND RECOMMENDATIONS 11.9 REFERENCES 12 A STUDY OF THE CAUSES OF FAILURE OF ROLLING-EJEMEM BEANNGS IN ALTERNATORS 154 154 154 155 156 157 158 161 163 164 165 165 165 12.1 A GENERAL WVIEW 12.2 INTRODUCTION 12.3 DESIGN FEATURES OF THE ALTERNATORS 12.4 THE NATURE OF BEARING FAILURE ^FAE 12.5 DATA COLLECTION AND INVESTIGATIONS ]67 12.6 CAUSES OF SHAFT VOLTAGE AND FLOW OF CURRENT THROUGH BEARINGS 12.7 RESULTS AND DISCUSSION 12.8 CONCLUSIONS AND RECOMMENDATIONS 12.9 REFERENCES 171 172 175 175 13 THE DIAGNOSIS OF THE CAUSE OF A BEARING PROBLEM IN A SYNCHRONOUS CONDENSER 17 7 13.1 A GENERAL REVIEW J 7 7 13.2 INTRODUCTION J77 13.3 TECJINICAI DETAILS OF THE SYNCHRONOUS CONDENSER 178 13.4 EXPERIMENTAL PROCEDURE 178 13.5 MEASUREMENT OBTAINED 170 13.6 THEORETICAL , QR . UE. L COMPANSON OF THEORETICAL AND EXPERIMENTAL DATA 183 13.8 RESULTS AND DISCUSSION 1 84 13.9 CONCLUSIONS AND RECOMMENDATIONS JG5 13.10 REFERENCES 13.11 NOMENCLATURE 185 186 X CONTENTS 15.1 15.2 15.3 15.4 15.5 15.6 15.7 15.8 15.9 16 16.1 16.2 16.3 16.4 16.5 16.6 16.7 16.8 14 THE CAUSE OF NOISE AT THE TOP BEARINGS OF VERTICAL PUMP-MOTOR SETS 187 14.1 INTRODUCTION IO 7 14.2 SUMP LAYOUT AND CONSTRUCTION 187 14.3 SYSTEM LAYOUT L 8 C 14.4 SYSTEM BEHAVIOUR LG9 14.5 FACTORS CAUSING THE UNUSUAL SYSTEM BEHAVIOUR 191 14.6 VIBRATION SPECTRA AND ANALYSIS 191 14.7 RESULTS AND DISCUSSION J93 14.8 DESIGN OF THE BEARING USED AND ITS SIGNIFICANCE 199 14.9 EXPLANATION OF THE CAUSE OF NOISE AT THE MOTOR TOP BEARING 200 14.10 CONCLUSIONS AND RECOMMENDATIONS 200 14.11 BIBLIOGRAPHY 202 15 MODIFICATIONS TO THE DESIGN AND BEARINGS OF HORIZONTAL AXIS WINDMILLS USED FOR PUMPING WATER, TO ACHIEVE TROUBLE-FREE, RELIABLE OPERATION 203 A GENERAL REVIEW 203 INTRODUCTION 203 DESIGN FEATURES 204 OPERATIONAL PHILO SOPHY 204 TRANSMISSION SYSTEM 205 BEARINGS AND PERFORMANCE OF THE RECIPROCATING PUMP 205 RECOMMENDATIONS 209 CONCLUSIONS REFERENCES 213 213 MAGNETIC SUSPENSION BEARINGS FOR AC ENERGY METERS 214 A GENERAL REVIEW 214 INTRODUCTION 214 DESIGN CONSIDERATIONS 216 MECHANICAL REQUIREMENTS 220 TYPICAL CONSTRUCTION 221 FRICTIONAL TORQUE STUDIES 222 CONCLUSIONS AND DISCUSSION 226 BIBLIOGRAPHY 227 17 A NEW GENERATION OF ROLLING-ELEMENT BEARING WITH AN OUTLINE OF ITS PERFORMANCE ADVANTAGES 228 17.1 A GENERAL REVIEW 228 17.2 INTRODUCTION CONTENTS XI 17.3 17.4 17.5 17.6 17.7 17.8 17.9 17.10 17.11 17.12 17.13 BASIC CONCEPT AND PRINCIPLE OF OPERATION OF DDHPB 229 THEORETICAL ANALYSIS 230 THEORY BEHIND PERFORMANCE EVALUATION OF BEARINGS 232 DESIGN AND TEST CONDITIONS OF DDHPB 233 BEARING TEST SET-UP AND EXPERIMENTAL DETAILS FOR TESTING DDHPB VIS-AE-VIS CONVENTIONAL BEARINGS 235 DATA DEDUCTION 235 RESULTS AND DISCUSSION 237 BRIEF SUMMARY OF THE PUBLISHED RESEARCH ON DDHPB 239 CONCLUSIONS 239 REFERENCES 240 NOMENCLATARE 241 INDEX
adam_txt	SOLVING TRIBOLOGY PROBLEMS IN ROTATING MACHINES OCA RATON H PRASHAD (G) CRC PRESS BOSTON NEW YORK WASHINGTON, DC WOODHEAD PUBLISHING LIMITED CAMBRIDGE ENGLAND CONTENTS PREFACE XM ABOUT THE AUTHOR XV 1 RELIABILITY ANALYSIS OF ROILING-ELEMENT BEANNGS A GENERAL REVIEW INTRODUCTION DETECTION OF BEARING MALFUNCTION AND DETERMINATION OF DEFECT FREQUENCIES RESONANT FREQUENCIES EXPERIMENTAL PROCEDURA INSTRUMENTATION DETAILS AND TECHNIQUES 4 DETERMINATION OF DEFECT FREQUENCIES AND ENERGY LEVELS RESULTS AND DISCUSSION Y CONCLUSIONS AND RECOMMENDATIONS 19 20 REFERENCES 90 NOMENCLATURE FUNCTIONAL PERFORMANCE OF ROILING-ELEMENT BEARINGS FOR ACCEPTANCE IN ROUTINE APPLICATIONS 22 ?? A SENERAL REVIEW 11 INTRODUCTION BEARING TEST PHILOSOPHY 23 BEARING TEST MACHINE 25 EXPERIMENTAL PROCEDURA 26 DATA DEDUCTION RESULTS AND DISCUSSION 3U OVERALL VIBRATION LEVELS OF BEARINGS 37 PREDICTED LIFE OF BEARINGS 37 COMPARISON OF PERFORMANCE OF BEARINGS 38 VI CONTENTS 2.11 CONCLUSIONS 2.12 REFERENCES 3 CAGE AND ROLLER SLIP OF ROLIING-ELEMENT BEARINGS 3.1 A GENERAL REVIEW 3.2 INTRODUCTION 3.3 CHARACTERISTIC DEFECT FREQUENCIES 3.4 EXPERIMENTAL PROCEDURE 3.5 SPECTRAL ANALYSIS TECHNIQUE 3.6 DETERMINATION OF DEFECT FREQUENCIES AND ENERGY LEVELS 3.7 RESULTS AND DISCUSSION 3.8 COMPARISON OF BEARINGS 3.9 CONCLUSIONS 3.10 REFERENCES 3.11 APPENDIX 3.12 NOMENCLATURE 4 DIAGNOSIS AND CAUSE ANALYSIS OF ROLIING-ELEMENT BEARINGS FAILURE IN ELECTRIC POWER EQUIPMENT 4.1 A GENERAL REVIEW 4.2 INTRODUCTION 4.3 BEARING ARRANGEMENT AND NATURE OF BEARING FAILURE 4.4 INVESTIGATIONS, OBSERVATION OF FAILURE S AND DATA COLLECTION 4.5 RESULTS AND DISCUSSION 4.6 CONCLUSIONS 4.7 REFERENCES 5 LOCALIZED ELECTRICAL CURRENT IN ROLIING-ELEMENT BEARINGS 5.1 A GENERAL REVIEW 5.2 INTRODUCTION 5.3 BEARING ARRANGEMENT AND THE NATURE OF BEARING FAILURE 5.4 INVESTIGATIONS, OBSERVATIONS AND DATA COLLECTION 5.5 THEORETICAL MODEL AND APPROACH TO DETERMINE THE FLOW OF LOCALIZED CURRENT IN A BEARING 5.6 FIELD STRENGTH ON TRACK SURFACES OF RACES AND ROLLING-ELEMENTS 5.7 MAGNETIC FLUX DENSITY 5.8 DETERMINATION OF TIME SPAN FOR THE APPEARANCE OF FLUTES ON TRACK SURFACES 5.9 DATA DEDUCTION 5.10 RESULTS AND DISCUSSION CONTENTS VII 5.11 CONCLUSIONS 80 5.12 REFERENCES 81 5.13 NOMENCLATURE 82 6 RESPONSE AND PERFOTMANCE OF A ROFLING-ELEMENT BEARING UNDER THE INFLUENCE OF AN ELECTRIC CURRENT 84 6.1 A GENERAL REVIEW 84 6.2 INTRODUCTION 84 6.3 BEHAVIOUR OF GREASE IN NON-INSULATED BEARINGS 86 6.4 EFFECT OF CURRENT ON FORMATION OF CORRUGATED PATTERNS ON THE ROLLER TRACK OF RACES OF ROLLER BEARINGS 90 6.5 EFFECT OF CURRENT LEAKAGE ON ELECTRO-ADHESION FORCES IN ROLLING FRICTION AND MAGNETIC FLUX DENSITY DISTRIBUTION ON BEARING SURFACES 92 6.6 EFFECT OF OPERATING PARAMETERS ON THE THRESHOLD VOLTAGES AND IMPEDANCE RESPONSE OF NON-INSULATED ROLLING-ELEMENT BEARINGS 94 6.7 IMPEDANCE, CAPACITANCE AND CHARGE ACCUMULATION ON ROLLER BEARINGS 95 6.8 CONTACT TEMPERATURE, CONTACT STRESSES AND SLIP BANDS INITIATION ON ROLLER TRACK OF RACES 96 6.9 EFFECTS OF INSTANTANEOUS CHARGE LEAKAGE ON ROLLER TRACKS OF ROLLER BEARINGS LUBRICATED WITH HIGH-RESISTIVITY LUBRICANTS 98 6.10 CAPACITIVE EFFECTS OF ROLLER BEARINGS ON REPEATED STARTS AND STOPS OF A MACHINE 99 6.11 MECHANISM OF BEARING FAILURES 100 6.12 CONCLUSION 102 6.13 REFERENCES 102 6.14 NOMENCLATURE 103 7 EFFECT OF OIL GRADES AND CLEARANCE RATIOS ON THE RELIABILITY OF CYLINDRICAL HYDRODYNAMIC BEARINGS 106 7.1 A GENERAL REVIEW 106 7.2 INTRODUCTION 106 7.3 BACKGROUND 107 7.4 THEORETICAL 109 7.5 EVALUATION OF VISCOSITY COEFFICIENTS 110 7.6 DETERMINATION OF VISCOSITY INTEGRAL 112 7.7 ASSESSMENT OF BEARING PERFORMANCE 114 7.8 EFFECT OF OIL GRADES ON TEMPERATURE RISE AND SAFE LOAD- CARRYING CAPACITY OF BEARINGS 116 VIII CONTENTS 7.9 7.10 7.11 7.12 7.13 8 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 9.1 9.2 9.3 9.4 9.5 9.6 9.7 10 10.1 10.2 10.3 10.4 10.5 10.6 10.7 BEARING TURBULENCE AND TRANSITION SPEED RESULTS AND DISCUSSION CONCLUSIONS AND RECOMMENDATIONS REFERENCES NOMENCLATURE SPHERICAL SEATING OF HYDRODYNAMIC JOURNAL BEARINGS A GENERAL REVIEW INTRODUCTION THEORETICAL BASIS OF THE SIMPLIFIED DESIGN METHODOLOGY EVALUATION OF MINIMUM VALUES OF CONSTANT OF MOMENT OF FNCTION AND OPTIMUM VALUES OF THE DESIGN PARAMETERS OF SPHERICAL SEATING FUNCTIONAL NOMOGRAPHS FOR EVALUATION OF OPTIMUM VALUES FOR SPHERICAL SEATING DESIGN PARAMETERS GUIDELINES FOR CHOOSING THE OPTIMUM VALUES FOR SPHERICAL SEATMG DESIGN PARAMETERS CONCLUSIONS AND RECOMMENDATIONS REFERENCES NOMENCLATURE LIFE ESTIMATION OF TURBINE OILS: A METHODOLOGY AND CNTERION FOR ACCEPTANCE OR REJECTION A GENERAL REVIEW INTRODUCTION EXPERIMENTAL INVESTIGATIONS DATA DEDUCTION RESULTS AND DISCUSSION CONCLUSIONS AND RECOMMENDATIONS REFERENCES AXIAL FORCE ON MOTOR BEARINGS: A TOOL FOR PERFORMANCE EVALUATION A GENERAL REVIEW INTRODUCTION AXIAL FORCE MEASUREMENT TECHNIQUE EXPERIMENTAL DETERMINATION OF AXIAL FORCE RESULTS AND DISCUSSION CONCLUSIONS AND FUTURE STUDIES BIBLIOGRAPHY 117 120 126 128 128 130 130 130 131 133 134 136 136 137 137 139 139 139 140 141 142 147 148 149 149 149 150 152 152 153 153 CONTENTS IX 11 AN ANALYSIS OF THE PROGRESSIVE INCREASE IN VIBRATION OF A LARGE SYNCHRONOUS EIECTRIC MOTOR 11.1 A GENERAL REVIEW 11.2 INTRODUCTION 11.3 POSSIBLE SOURCES OF VIBRATION 1 I .4 DIAGNOSIS OF CAUSES OF VIBRATIONS 11.5 SYSTEM DESIGN, BEARING ASSEMBLY AND CHARACTERISTIC FEATURES OF THE SYNCHRONOUS MOTOR UNDER INVESTIGATION 11.6 INVESTIGATIONS AND ANALYSIS U.7 RESULTS AND DISCUSSION 11.8 CONCLUSIONS AND RECOMMENDATIONS 11.9 REFERENCES 12 A STUDY OF THE CAUSES OF FAILURE OF ROLLING-EJEMEM BEANNGS IN ALTERNATORS 154 154 154 155 156 157 158 161 163 164 165 165 165 12.1 A GENERAL WVIEW 12.2 INTRODUCTION 12.3 DESIGN FEATURES OF THE ALTERNATORS 12.4 THE NATURE OF BEARING FAILURE ^FAE 12.5 DATA COLLECTION AND INVESTIGATIONS ]67 12.6 CAUSES OF SHAFT VOLTAGE AND FLOW OF CURRENT THROUGH BEARINGS 12.7 RESULTS AND DISCUSSION 12.8 CONCLUSIONS AND RECOMMENDATIONS 12.9 REFERENCES 171 172 175 175 13 THE DIAGNOSIS OF THE CAUSE OF A BEARING PROBLEM IN A SYNCHRONOUS CONDENSER 17 7 13.1 A GENERAL REVIEW J 7 7 13.2 INTRODUCTION J77 13.3 TECJINICAI DETAILS OF THE SYNCHRONOUS CONDENSER 178 13.4 EXPERIMENTAL PROCEDURE 178 13.5 MEASUREMENT OBTAINED 170 13.6 THEORETICAL , QR . UE. L COMPANSON OF THEORETICAL AND EXPERIMENTAL DATA 183 13.8 RESULTS AND DISCUSSION 1 84 13.9 CONCLUSIONS AND RECOMMENDATIONS JG5 13.10 REFERENCES 13.11 NOMENCLATURE 185 186 X CONTENTS 15.1 15.2 15.3 15.4 15.5 15.6 15.7 15.8 15.9 16 16.1 16.2 16.3 16.4 16.5 16.6 16.7 16.8 14 THE CAUSE OF NOISE AT THE TOP BEARINGS OF VERTICAL PUMP-MOTOR SETS 187 14.1 INTRODUCTION IO 7 14.2 SUMP LAYOUT AND CONSTRUCTION 187 14.3 SYSTEM LAYOUT L 8 C 14.4 SYSTEM BEHAVIOUR LG9 14.5 FACTORS CAUSING THE UNUSUAL SYSTEM BEHAVIOUR 191 14.6 VIBRATION SPECTRA AND ANALYSIS 191 14.7 RESULTS AND DISCUSSION J93 14.8 DESIGN OF THE BEARING USED AND ITS SIGNIFICANCE 199 14.9 EXPLANATION OF THE CAUSE OF NOISE AT THE MOTOR TOP BEARING 200 14.10 CONCLUSIONS AND RECOMMENDATIONS 200 14.11 BIBLIOGRAPHY 202 15 MODIFICATIONS TO THE DESIGN AND BEARINGS OF HORIZONTAL AXIS WINDMILLS USED FOR PUMPING WATER, TO ACHIEVE TROUBLE-FREE, RELIABLE OPERATION 203 A GENERAL REVIEW 203 INTRODUCTION 203 DESIGN FEATURES 204 OPERATIONAL PHILO SOPHY 204 TRANSMISSION SYSTEM 205 BEARINGS AND PERFORMANCE OF THE RECIPROCATING PUMP 205 RECOMMENDATIONS 209 CONCLUSIONS REFERENCES 213 213 MAGNETIC SUSPENSION BEARINGS FOR AC ENERGY METERS 214 A GENERAL REVIEW 214 INTRODUCTION 214 DESIGN CONSIDERATIONS 216 MECHANICAL REQUIREMENTS 220 TYPICAL CONSTRUCTION 221 FRICTIONAL TORQUE STUDIES 222 CONCLUSIONS AND DISCUSSION 226 BIBLIOGRAPHY 227 17 A NEW GENERATION OF ROLLING-ELEMENT BEARING WITH AN OUTLINE OF ITS PERFORMANCE ADVANTAGES 228 17.1 A GENERAL REVIEW 228 17.2 INTRODUCTION CONTENTS XI 17.3 17.4 17.5 17.6 17.7 17.8 17.9 17.10 17.11 17.12 17.13 BASIC CONCEPT AND PRINCIPLE OF OPERATION OF DDHPB 229 THEORETICAL ANALYSIS 230 THEORY BEHIND PERFORMANCE EVALUATION OF BEARINGS 232 DESIGN AND TEST CONDITIONS OF DDHPB 233 BEARING TEST SET-UP AND EXPERIMENTAL DETAILS FOR TESTING DDHPB VIS-AE-VIS CONVENTIONAL BEARINGS 235 DATA DEDUCTION 235 RESULTS AND DISCUSSION 237 BRIEF SUMMARY OF THE PUBLISHED RESEARCH ON DDHPB 239 CONCLUSIONS 239 REFERENCES 240 NOMENCLATARE 241 INDEX
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id	DE-604.BV023222853
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index_date	2024-07-02T20:16:46Z
indexdate	2024-07-09T21:13:27Z
institution	BVB
isbn	0849392098 1845691105 9781845691103
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016408721
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physical	XVI, 247 S. zahlr. Ill. und graph. Darst.
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publisher	CRC Press [u.a.]
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spelling	Prashad, Har Verfasser aut Solving tribology problems in rotating machines H. Prashad Boca Raton [u.a.] CRC Press [u.a.] 2006 XVI, 247 S. zahlr. Ill. und graph. Darst. txt rdacontent n rdamedia nc rdacarrier Woodhead publishing in mechanical engineering Literaturangaben Lebensdauer (DE-588)4034837-4 gnd rswk-swf Wälzlager (DE-588)4064163-6 gnd rswk-swf Antrieb Technik (DE-588)4002360-6 gnd rswk-swf Magnetlager (DE-588)4114487-9 gnd rswk-swf Versagen (DE-588)4258790-6 gnd rswk-swf Hydrodynamisches Lager (DE-588)4160906-2 gnd rswk-swf Fallstudie gnd rswk-swf Wälzlager (DE-588)4064163-6 s Hydrodynamisches Lager (DE-588)4160906-2 s Magnetlager (DE-588)4114487-9 s Antrieb Technik (DE-588)4002360-6 s Lebensdauer (DE-588)4034837-4 s Versagen (DE-588)4258790-6 s Fallstudie f DE-604 Erscheint auch als Online-Ausgabe 978-1-84569-111-0 http://www.gbv.de/dms/ilmenau/toc/504021648prash.PDF lizenzfrei Inhaltsverzeichnis GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016408721&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Prashad, Har Solving tribology problems in rotating machines Lebensdauer (DE-588)4034837-4 gnd Wälzlager (DE-588)4064163-6 gnd Antrieb Technik (DE-588)4002360-6 gnd Magnetlager (DE-588)4114487-9 gnd Versagen (DE-588)4258790-6 gnd Hydrodynamisches Lager (DE-588)4160906-2 gnd
subject_GND	(DE-588)4034837-4 (DE-588)4064163-6 (DE-588)4002360-6 (DE-588)4114487-9 (DE-588)4258790-6 (DE-588)4160906-2
title	Solving tribology problems in rotating machines
title_auth	Solving tribology problems in rotating machines
title_exact_search	Solving tribology problems in rotating machines
title_exact_search_txtP	Solving tribology problems in rotating machines
title_full	Solving tribology problems in rotating machines H. Prashad
title_fullStr	Solving tribology problems in rotating machines H. Prashad
title_full_unstemmed	Solving tribology problems in rotating machines H. Prashad
title_short	Solving tribology problems in rotating machines
title_sort	solving tribology problems in rotating machines
topic	Lebensdauer (DE-588)4034837-4 gnd Wälzlager (DE-588)4064163-6 gnd Antrieb Technik (DE-588)4002360-6 gnd Magnetlager (DE-588)4114487-9 gnd Versagen (DE-588)4258790-6 gnd Hydrodynamisches Lager (DE-588)4160906-2 gnd
topic_facet	Lebensdauer Wälzlager Antrieb Technik Magnetlager Versagen Hydrodynamisches Lager Fallstudie
url	http://www.gbv.de/dms/ilmenau/toc/504021648prash.PDF http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016408721&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT prashadhar solvingtribologyproblemsinrotatingmachines

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