Verfügbarkeit: High intensity combustors - steady isobaric combustion

High intensity combustors - steady isobaric combustion: final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung"

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Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim ; New York ; Chichester ; Singapore ; Brisbane Wiley-VCH-Verl. 2002
Schlagworte:	Combustion chambers Materials at high temperatures Brennkammer Hochtemperatur Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIX, 463 S. Ill., graph. Darst.
ISBN:	3527277315

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Datensatz im Suchindex

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adam_text	Titel: High intensity combustors - steady isobaric combustion Autor: Wittig, Sigmar Jahr: 2002 Contents 1 Fuel Preparation................. 1 Advances in Fuel Preparation............ 3 Sigmar Wittig and Georg Maier 1.1 Atomization and Spray Propagation in Gas Turbine Combustors................... 6 Georg Maier, Robert Meier, Michael Wilhnann, Reinhold Kneer, Johann Himmelsbach, Hans-Jorg Bauer, and Sigmar Wittig 1.1.1 Introduction.................. 8 1.1.2 Experimental Setup................ 9 1.1.3 Combustion Concepts............... 10 1.1.4 Atomization Systems............... 11 1.1.5 Spray Propagation/Mixture Formation......... 15 1.1.5.1 LPP Concept.................. 15 1.1.5.2 LIM Concept.................. 17 1.1.6 Performance Characterization with PDPA Results..... 19 1.1.6.1 LPP Concept.................. 19 1.1.6.2 LIM Concept.................. 21 1.1.7 Summary and Outlook.............. 22 1.2 Calculation of Two Phase Flows in Combustors..... 25 Roland Schmehl, Goran Klose, Georg Maier, and Sigmar Wittig 1.2.1 Introduction.................. 27 1.2.2 Lagrangian Approach............... 29 1.2.2.1 Spray Dispersion................. 29 1.2.2.2 Spray Evaporation................ 30 1.2.2.3 Secondary Droplet Breakup............. 31 1.2.2.4 Iterative Solution Procedure............. 39 1.2.3 The Hybrid Procedure............... 41 Contents 1.2.4 Simulation of a LPP Premix Duct Flow......... 42 1.2.4.1 Discretization of the Spray............. 44 1.2.4.2 Results.................... 47 1.2.5 Conclusions.................. 51 1.3 Investigations of Droplet Evaporation at Elevated Pressures . 54 Klaus Prommersberger, Jorg Stengele, Klaus Dullenkopf, Johann Himmelsbach, and Sigmar Wittig 1.3.1 Introduction.................. 56 1.3.2 Droplet Evaporation Models............ 58 1.3.2.1 Gas Phase Equations............... 58 1.3.2.2 Droplet Motion................. 60 1.3.2.3 Description of the Heat and Mass Transport Model of the Liquid Phase................ 60 1.3.2.4 Phase Equilibrium at High Pressures......... 62 1.3.3 Experimental Setup................ 62 1.3.4 Results.................... 65 1.3.4.1 Single Component Droplets............. 66 1.3.4.2 Two-Component Droplets............. 68 1.3.5 Conclusion................... 70 1.4 Shear-Driven Liquid Wall Films in Combustor Flows: Recent Advances in Experiment and Numerical Simulation . 73 Heiko Rosskamp, Alfred ElsaBer, Joachim Ebner, Georg Maier, Berthold Noll, and Soksik Kim 1.4.1 Introduction.................. 75 1.4.2 Measurement Techniques............. 77 1.4.2.1 Film Thickness Measurement System......... 78 1.4.2.2 Velocity Profile Measurements in Liquid Films...... 79 1.4.3 Computation of Wall Film Flows........... 83 1.4.3.1 Improved Flow Models for Liquid Wall Films...... 83 1.4.3.2 Coupled Wall Film and Gas Phase CFD-Code...... 87 1.4.4 Summary and Outlook.............. 89 1.5 Pressure-Swirl and Twin-Fluid Atomization with Regard to Industrial Liquid Fuel Combustion.......... 92 Andreas Kufferath, Martin Loffler-Mang, Andreas Horvay, and Wolfgang Leuckel 1.5.1 Introduction.................. 92 1.5.2 Results and Discussion for Pressure-Swirl Atomization ... 95 1.5.2.1 Pressure-Swirl Atomization without Spill Return..... 95 1.5.2.2 Pressure-Swirl Atomizer with Spill Return....... 98 VI Contents 1.5.3 Results and Discussion for Internal-Mixing Air-Assist Atomization.................. 102 1.5.3.1 Influence of Outlet Port Length........... 103 1.5.3.2 Influence of Liquid Flow Conditions on Spray Characteristics 104 2 Flow and Combustion............... 109 Flow, Mixing, and Reaction in High Intensity Combustors . Ill Bernhard Lenze 2.1 Stabilisation of Turbulent Concentric and Swirling Flames Based on Flow and Mixing Pattern Investigations .... 114 Peter Schmittel, Bernd Prade, Stefan Hoffmann, and Bernhard Lenze 2.1.1 Introduction.................. 114 2.1.2 Flow-and Mixing Pattern............. 115 2.1.2.1 Disk Stabilized Flame............... 116 2.1.2.2 Swirling Flames................. 118 2.1.3 Flame Stability Models.............. 120 2.1.3.1 Disk Stabilized Flames.............. 121 2.1.3.2 Swirl Flames.................. 123 2.1.4 Experimental Setup and Measurement Technique .... 124 2.1.5 Results and Discussion.............. 126 2.1.5.1 Disk Stabilized Flames.............. 127 2.1.5.2 Swirling Flames................. 130 2.2 Velocity-Fields, Reynolds Stresses, and Swirl-Induced Intermittency in Free and Enclosed Rotating Flows .... 135 Frank Holzapfel, Klaus Dobbeling, and Bernhard Lenze 2.2.1 Introduction.................. 136 2.2.2 Experimental Apparatus.............. 137 2.2.3 Mean Velocities and Turbulence Quantities....... 138 2.2.4 Swirl-Induced Intermittency............ 145 2.2.5 Is Self-Induced Intermittency Periodic?........ 151 2.2.6 Similar Effects in Confined Swirling Flows....... 153 2.3 Mathematical Modeling of Turbulent Swirling Flames . . . 156 Peter Habisreuther, Matthias Philipp, Heinrich Eickhoff, and Wolfgang Leuckel 2.3.1 Introduction.................. 156 2.3.2 Combustion Systems............... 157 VII Contents 2.3.3 Swirling Flow Modeling.............. 158 2.3.3.1 Numerical Method and Turbulence Modeling...... 159 2.3.3.2 Turbulent Reaction Model for Heat Release....... 159 2.3.3.3 Flow Predictions ................ 160 2.3.4 Modeling Combustion Stability........... 162 2.3.4.1 Turbulent Reaction Model............. 162 2.3.4.2 Results.................... 163 2.3.5 Modeling Thermal NO-Formation.......... 166 2.3.5.1 Kinetics.................... 166 2.3.5.2 Turbulence/Reaction Coupling........... 167 2.3.5.3 Two-Domain Model for Thermal NO-Formation..... 169 2.3.5.4 Results of the Turbulent Thermal NO-Formation Model . . 171 2.4 Stability and Burnout of Swirling Flames with Wastewater Injection.................... 176 Karsten Ehrhardt and Wolfgang Leuckel 2.4.1 Introduction.................. 177 2.4.2 Experimental.................. 178 2.4.3 Results and Discussion.............. 180 2.4.3.1 Incomplete Burnout................ 180 2.4.3.2 Flame Stability................. 186 3 Pollutant Formation............... 193 Formation of Pollutants in Combustion........ 195 W. Leuckel 3.1 Formation and Reduction of Thermal and Fuel Nitrogen Oxides in Flames................ 199 Dieter Stapf, Peter Jansohn, Stefan Koger, and Wolfgang Leuckel 3.1.1 Introduction and Motivation............ 200 3.1.2 Fundamentals.................. 201 3.1.2.1 Nitrogen Oxide Formation in Combustion....... 201 3.1.2.2 Primary Measures for NOX Reduction......... 202 3.1.2.3 Characteristics of Type-I and Type-II Flames...... 203 3.1.3 Experimental.................. 204 3.1.3.1 Swirl Burner.................. 204 3.1.3.2 Plug Flow Reactor................ 205 3.1.4 Results.................... 206 3.1.4.1 Minimization of NOX Emission of Swirling Turbulent Diffusion Flames................. 206 3.1.4.2 Development of Chemical Kinetics Modelling...... 210 Vffl Contents 3.1.4.3 Coupling of Chemistry and Turbulence in Process Modelling of NO..................... 215 3.1.5 Conclusions.................. 219 3.2 Soot Formation from Gaseous Hydrocarbons in Turbulent Combustion.................. 221 Wolfgang Leuckel, Michael Huth, and Bernd Bartenbach 3.2.1 Introduction.................. 222 3.2.1.1 Physico-Chemical State of the Art.......... 222 3.2.1.2 Soot Formation in Turbulent Combustion........ 223 3.2.1.3 Experiments Performed.............. 223 3.2.1.4 Practical Relevance................ 224 3.2.2 Experimental.................. 224 3.2.2.1 Plug Flow Reactor Investigations........... 224 3.2.2.2 Turbulent Diffusion Flame Investigations........ 227 3.2.2.3 Experimental Parameters of the PFR Tests....... 227 3.2.3 Results.................... 230 3.2.3.1 Experimental Results from the PFR.......... 230 3.2.3.2 A Soot Formation Model Derived from the Experiments . . 240 3.2.3.3 Results from Turbulent Diffusion Flame Measurements . . 246 3.2.3.4 Modelling Soot Concentrations in Axial-Jet Type Turbulent Diffusion Flames................. 249 3.2.4 Conclusions.................. 252 4 Heat Transfer and Radiation............ 255 Convective and Radiative Heat Transfer in Combustors . . 257 Achmed Schulz 4.1 High Efficient Cooling Concepts for Low Emission Combustors................... 261 Moritz Martiny, Ralf Schiele, Michael Gritsch, Achmed Schulz, and Soksik Kim 4.1.1 Introduction.................. 261 4.1.2 Combining Film-Cooling with Convective Cooling Schemes . 263 4.1.3 Interaction of a Cooling Film with a Mixing Jet..... 266 4.1.3.1 Experimental Facility............ ... 267 4.1.3.2 Results.................... 267 4.1.3.3 Flow Visualization................ 268 4.1.3.4 Heat Transfer and Adiabatic Effectiveness....... 269 4.1.4 Effusion Cooling................. 273 4.1.4.1 Flow Visualization................ 274 4.1.4.2 Near Adiabatic Wall Temperatures.......... 276 4.1.4.3 Overall Effectiveness for a Metallic Test Plate...... 277 IX Contents 4.1.4.4 Effusion Cooling with Additional Impingement Cooling on the Back Side................ 278 4.1.5 Conclusions.................. 279 4.2 Numerical Modelling of Combustor Liner Heat Transfer . . 282 Dietmar Giebert, Elias Papanicolaou, Carl-Henning Rexroth, Michael Scheuerlen, Achmed Schulz, and Rainer Koch 4.2.1 Introduction.................. 282 4.2.2 Numerical Method................ 283 4.2.2.1 Governing Equations and Turbulence Modelling of the Flow 283 4.2.2.2 Discretization and Solution Technique......... 283 4.2.2.3 Solid-Fluid Coupling............... 284 4.2.3 Full-Coverage Film-Cooling of Combustor Walls..... 286 4.2.3.1 Geometry and Flow Conditions........... 286 4.2.3.2 Results and Discussion.............. 288 4.2.4 Summary and Conclusions............. 297 4.3 Experimental Investigation and Numerical Prediction of Radiative Heat Transfer............. 299 Rainer Koch, Benedikt Ganz, Werner Krebs, Berthold Noll, and Sigmar Wittig 4.3.1 Introduction.................. 299 4.3.2 Fundamentals of Radiative Transfer.......... 300 4.3.3 Numerical Prediction of Radiative Transfer....... 302 4.3.3.1 Radiative Properties............... 303 4.3.3.2 Radiative Transfer................ 305 4.3.4 Experimental Techniques............. 309 4.3.5 Investigation of Gas Turbine liner Materials...... 310 4.3.5.1 Spectral Emissivity of Thermal Barrier Coatings..... 310 4.3.5.2 Reflectivity of Liner Materials............ 312 4.3.6 Radiation in Enclosures with Non-Diffuse Reflecting Surfaces 314 4.3.6.1 Test Section and Experimental Techniques....... 315 4.3.6.2 Comparison with Radiative Transfer Models...... 316 4.3.7 Radiation in Combustors.............. 317 4.3.7.1 Numerical Techniques.............. 318 4.3.7.2 Model Combustor................ 318 4.3.7.3 Temperature Field................ 320 4.3.7.4 Effect of Radiation on the Temperature Field...... 321 4.3.7.5 Radiation Spectra................ 322 Contents 5 High Temperature Materials............ 327 Deformation and Damage Behaviour of Structural Materials 329 Detlef Lone and Otmar Vohringer 5.1 Systematic Investigation of the High-Temperature Deformation Behaviour of Selected Materials for Combustion Chambers in Different Component Conditions...... 333 Uli T. Schmidt, Otmar Vohringer, Detlef Lohe, and Eckard Macherauch 5.1.1 Introduction.................. 333 5.1.2 Experimental Set-up and Specimen Parameters..... 334 5.1.3 Results and Discussion.............. 335 5.2 Fatigue Behaviour of NiCr22Col2Mo9 under Isothermal and Thermal-Mechanical Fatigue Loadings........ 342 Mourad Moalla, Karl-Heinz Lang, and Detlef Lohe 5.2.1 Introduction.................. 342 5.2.2 Material.................... 343 5.2.3 Experimental Details............... 344 5.2.4 Results and Discussion.............. 345 5.2.4.1 Isothermal Fatigue Tests.............. 345 5.2.4.2 Thermal-Mechanical Fatigue Tests.......... 351 5.2.5 Summary................... 357 5.3 Microstructure and Deformation Behaviour of Carbide-Hardened Superalloys.......... 359 Ulrich Martin, Heinrich Oettel, Uwe Milhle, and Otmar Vohringer 5.3.1 Introduction.................. 359 5.3.2 Material Characterization............. 360 5.3.3 Hot Deformation Tests and Experimental Details..... 361 5.3.4 Modelling of the High Temperature Deformation..... 363 5.3.4.1 Constitutive Model................ 363 5.3.4.2 Effective Stress Model............... 365 5.3.5 Results and Discussion.............. 367 5.3.5.1 Dislocation and Carbide Structure.......... 367 5.3.5.2 Modelling of the Deformation Behaviour of the Superalloys . 369 5.3.6 Conclusions.................. 373 XI Contents 5.4 Advances in the Inelastic Failure Analysis of Combustor Structures................... 375 Holger Kiewel, Jarir Aktaa, and Dietrich Munz 5.4.1 Introduction.................. 375 5.4.2 Chaboche/Rabotnov Model............. 376 5.4.3 Extrapolation Method............... 378 5.4.4 Failure Analysis for a Ring Combustor......... 383 5.4.5 Conclusions.................. 389 5.5 Modeling of the Non-linear Deformation and Damage Behaviour of Combustor Structure Materials...... 391 Jarir Aktaa and Dietrich Munz 5.5.1 Introduction.................. 392 5.5.2 Modeling of the Deformation Behaviour........ 392 5.5.2.1 Chaboche s Viscoplasticity Model.......... 393 5.5.2.2 Application of Chaboche s Model.......... 395 5.5.3 Modeling of Damage............... 404 5.5.3.1 CDM-Concept.................. 404 5.5.3.2 ISRM-Model.................. 406 5.5.3.3 Application of the ISRM-Model for Lifetime Prediction . . . 407 5.5.4 Conclusions.................. 412 6 Thermal Barrier Coatings............. 417 High-Temperature Behaviour of Thermal Barrier Coatings . 419 Rainer Oberacker and Michael J. Hoffmann 6.1 Long-Term Behaviour and Application Limits of Plasma-Sprayed ZrO2 Thermal Barrier Coatings .... 422 Petra A. Langjahr, Rainer Oberacker, and Michael J. Hoffmann 6.1.1 Introduction.................. 422 6.1.2 Experimental Procedure.............. 425 6.1.3 Experimental Results............... 426 6.1.3.1 X-Ray Diffraction Analysis............. 426 6.1.3.2 Mechanical Properties............... 428 6.1.3.3 Thermal Cycling................. 431 6.1.4 Discussion................... 433 6.1.5 Conclusion................... 435 XII Contents 6.2 The Creep Damage Behaviour of a Plasma-Sprayed Thermal Barrier Coating System for Combustion Chambers .... 438 Uli T. Schmidt, Otmar Vohringer, Detlef Lone, and Eckard Macherauch 6.2.1 Introduction.................. 439 6.2.2 Experimental Details............... 439 6.2.3 Results and Discussion.............. 439 7 Projects, Organization, Structure, Members and Participants of the Collaborative Research Centre 167....... 451 7.1 Research Projects................ 453 7.2 Scientific Committee............... 459 7.3 Visiting Researchers............... 460 7.4 Financial Support by Means of the Deutsche Forschungsgemeinschaft ....... 463 XIII
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publisher	Wiley-VCH-Verl.
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spelling	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung" ed. by Sigmar Wittig Weinheim ; New York ; Chichester ; Singapore ; Brisbane Wiley-VCH-Verl. 2002 XIX, 463 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Combustion chambers Materials at high temperatures Brennkammer (DE-588)4127347-3 gnd rswk-swf Hochtemperatur (DE-588)4282597-0 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Brennkammer (DE-588)4127347-3 s Hochtemperatur (DE-588)4282597-0 s DE-604 Wittig, Sigmar 1940- Sonstige (DE-588)106896784 oth Sonderforschungsbereich Hochbelastete Brennräume, Stationäre Gleichdruckverbrennung (Karlsruhe) Sonstige (DE-588)56375-4 oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009973604&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung" Combustion chambers Materials at high temperatures Brennkammer (DE-588)4127347-3 gnd Hochtemperatur (DE-588)4282597-0 gnd
subject_GND	(DE-588)4127347-3 (DE-588)4282597-0 (DE-588)4143413-4
title	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung"
title_auth	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung"
title_exact_search	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung"
title_full	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung" ed. by Sigmar Wittig
title_fullStr	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung" ed. by Sigmar Wittig
title_full_unstemmed	High intensity combustors - steady isobaric combustion final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung" ed. by Sigmar Wittig
title_short	High intensity combustors - steady isobaric combustion
title_sort	high intensity combustors steady isobaric combustion final report of collaborative research centre 167 hochbelastete brennraume stationare gleichdruckverbrennung
title_sub	final report of Collaborative Research Centre 167 "Hochbelastete Brennräume - Stationäre Gleichdruckverbrennung"
topic	Combustion chambers Materials at high temperatures Brennkammer (DE-588)4127347-3 gnd Hochtemperatur (DE-588)4282597-0 gnd
topic_facet	Combustion chambers Materials at high temperatures Brennkammer Hochtemperatur Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009973604&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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