E-Book, Englisch, 420 Seiten
Developments and Applications
E-Book, Englisch, 420 Seiten
Reihe: Woodhead Publishing Series in Energy
ISBN: 978-0-85709-732-3
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Autoren/Hrsg.
Weitere Infos & Material
1;Cover
;1
2;Coal Power Plant Materials and Life Assessment: Developments and Applications;4
3;Copyright
;5
4;Contents;6
5;Contributor contact details;12
6;Woodhead Publishing Series in Energy;16
7;Part I:
Materials for coal power plant construction;20
7.1;1:
Grade 91 heatresistant martensitic steel;22
7.1.1;1.1 Introduction;22
7.1.2;1.2 Chemical compositions, heat treatments and microstructure;23
7.1.3;1.3 Estimation of longterm creep strength;32
7.1.4;1.4 Microstructure evolution;50
7.1.5;1.5 Degradation in welded joints: type IV fracture;57
7.1.6;1.6 Creep–fatigue properties;61
7.1.7;1.7 Steam oxidation and exfoliation of oxide scale;61
7.1.8;1.8 Sources of further information and advice;64
7.1.9;1.9 References;65
7.2;2:
Grade 92 creepstrength-enhanced ferritic steel;71
7.2.1;2.1 Introduction;71
7.2.2;2.2 Chemical composition and alloy design of Grade 92 steel;72
7.2.3;2.3 The manufacturing process and microstructure;76
7.2.4;2.4 Physical properties;77
7.2.5;2.5 Other mechanical properties of Grade 92 steel;80
7.2.6;2.6 Creep rupture and strain properties;84
7.2.7;2.7 Optimizing the chemical composition for creep rupture strength of Grade 92 steel;89
7.2.8;2.8 Equilibrium phase diagram of Grade 92 steel;101
7.2.9;2.9 Continuous cooling rate transformation diagram (CCT diagram);102
7.2.10;2.10 Field test record;102
7.2.11;2.11 Production records;103
7.2.12;2.12 References;104
7.3;3:
T23 and T24 – new generation low alloyed steels;106
7.3.1;3.1 Introduction;106
7.3.2;3.2 Developments in low alloy steels;106
7.3.3;3.3 The metallurgy of low alloy steels;109
7.3.4;3.4 Welding and weld performance;113
7.3.5;3.5 Service and lifetime properties;120
7.3.6;3.6 Fabrication issues;121
7.3.7;3.7 Conclusion;123
7.3.8;3.8 References;124
7.4;4:
Traditional low alloy steels in power plant design;126
7.4.1;4.1 Introduction;126
7.4.2;4.2 Metallurgy of low alloy creepresisting steels;127
7.4.3;4.3 Low alloy steels used for other components;133
7.4.4;4.4 History of the use of low alloy steels;135
7.4.5;4.5 Properties of low alloy steels;138
7.4.6;4.6 Design stress values for low alloy steels;141
7.4.7;4.7 Hightemperature properties of welds;142
7.4.8;4.8 Conclusion;143
7.4.9;4.9 References;143
7.5;5:
Creep strength of austenitic stainless steels for boiler applications;146
7.5.1;5.1 Introduction;146
7.5.2;5.2 Creep strength;147
7.5.3;5.3 Modelling of creep strength;154
7.5.4;5.4 Conclusion;161
7.5.5;5.5 References;162
7.6;6:
Nickelbase alloys for advanced power plant components;166
7.6.1;6.1 Introduction;166
7.6.2;6.2 Development of nickelbase alloys;167
7.6.3;6.3 Critical components;169
7.6.4;6.4 Materials testing programmes;170
7.6.5;6.5 Candidate alloys;173
7.6.6;6.6 Properties of the candidate alloys;179
7.6.7;6.7 Conclusion and future trends;184
7.6.8;6.8 References;184
8;Part II:
Performance assessment of coal power plants;188
8.1;7:
Inservice loading data and life assessment procedures in coal power plants;190
8.1.1;7.1 Introduction;190
8.1.2;7.2 Data collection;192
8.1.3;7.3 Fundamental techniques and data collation;204
8.1.4;7.4 Data analysis and life assessment;207
8.1.5;7.5 Modelling performance and life assessment;211
8.1.6;7.6 Application towards improving service life;212
8.1.7;7.7 Advantages and limitations of approaches;214
8.1.8;7.8 Emerging trends;214
8.1.9;7.9 References;216
8.2;8:
Residual life evaluation techniques, defect assessment procedures and monitoring in coal power plants;218
8.2.1;8.1 Introduction;218
8.2.2;8.2 Residual life evaluation techniques;221
8.2.3;8.3 Defect assessment procedures;233
8.2.4;8.4 Monitoring;238
8.2.5;8.5 Future trends;240
8.2.6;8.6 Sources of further information and advice;246
8.2.7;8.7 References;246
8.3;9:
Fracture mechanics and testing for crack initiation and growth assessment in coal power plants;248
8.3.1;9.1 Introduction;248
8.3.2;9.2 Experimental determination of hightemperature crack initiation and growth;249
8.3.3;9.3 Analysis of crack data;258
8.3.4;9.4 Crack initiation;261
8.3.5;9.5 Crack growth;270
8.3.6;9.6 Conclusion;279
8.3.7;9.7 References;280
8.3.8;9.8 Appendix: nomenclature;283
8.4;10:
Riskbased inspection and life management in boilers in coal power plants;284
8.4.1;10.1 Introduction;284
8.4.2;10.2 Fundamentals of riskbased life management of boilers;286
8.4.3;10.3 Example of a maintenance strategy for a tube bank;292
8.4.4;10.4 Example of problems with repeated measurements;296
8.4.5;10.5 Management of creepaffected components;298
8.4.6;10.6 Management of creep cracks;300
8.4.7;10.7 References;302
8.4.8;10.8 Appendix 1: a background to risk;303
8.4.9;10.9 Appendix 2: riskbased inspection (RBI);304
8.5;11:
Practical determination of probability of failure in riskbased inspection and life management of coal power plants;307
8.5.1;11.1 Introduction;307
8.5.2;11.2 Basic principles and requirements for Risk-based Inspection (RBI) in CWA 15740:2008;309
8.5.3;11.3 Risk-based Inspection and Maintenance Procedures for European Industry (RIMAP) procedure;312
8.5.4;11.4 Requirements for Probability of Failure (PoF) analysis;315
8.5.5;11.5 PoF and damage/failure rates data;317
8.5.6;11.6 RIMAP method for determination of PoF;318
8.5.7;11.7 Practical application of the approach;325
8.5.8;11.8 Conclusion;333
8.5.9;11.9 References;334
8.6;12: Preservation of power plant boilers/heat recovery steam generators (HRSGs) during shortand longterm shutdowns
;337
8.6.1;12.1 Introduction;337
8.6.2;12.2 Layup monitoring and maintenance;340
8.6.3;12.3 Dry storage;344
8.6.4;12.4 Wet storage;346
8.6.5;12.5 Water treatment plant and cooling water systems;349
8.6.6;12.6 Other parts of power plants/combined cycle gas turbines (CCGTs);351
8.6.7;12.7 Conclusion;351
8.6.8;12.8 Sources of further information and advice;351
8.6.9;12.9 Reference;351
8.7;13:
Damage to coal power plants due to cyclic operation;352
8.7.1;13.1 Introduction;352
8.7.2;13.2 UK experience with twoshifting;353
8.7.3;13.3 Commercial reasons for cyclic operation/ twoshifting;355
8.7.4;13.4 Failure mechanisms and implications for key components;357
8.7.5;13.5 Miscellaneous issues;373
8.7.6;13.6 Conclusion;376
8.7.7;13.7 References;376
8.8;14:
Cost modelling of coal power plant startup in cyclical operation;377
8.8.1;14.1 Introduction;377
8.8.2;14.2 Historical background;378
8.8.3;14.3 Componentlevel engineering studies;380
8.8.4;14.4 Plantand unitlevel studies;384
8.8.5;14.5 Statistical studies;386
8.8.6;14.6 Cost of cycling estimates;389
8.8.7;14.7 The Irish single electricity market study;393
8.8.8;14.8 Conclusion;404
8.8.9;14.9 References;405
9;Index;408
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