High Intensity Combustors - Steady Isobaric Combustion By
2002 | 471 Pages | ISBN: 3527277315 | PDF | 18 MB
The present book offers specific knowledge on high intensity combustors and provides those who are interested in the area of fuel preparation and combustion, flow and heat transfer, and particularly in high temperature materials with a deep understanding of the fundamental physics. The topics covered by this report are characterized by the following major areas: fuel preparation, flow and combustion, pollutant formation, heat transfer and radiation, high temperature materials, thermal barrier coating systems. The book is written for scientists, engineers as well as technicians working on modern combustion systems. Content: Chapter 1.1 Atomization and Spray Propagation in Gas Turbine Combustors (pages 6-24): Georg Maier, Robert Meier, Michael Willmann, Reinhold Kneer, Johann Himmelsbach, Hans?Jorg Bauer and Sigmar WittigChapter 1.2 Calculation of Two Phase Flows in Combustors (pages 25-53): Roland Schmehl, Goran Klose, Georg Maier and Sigmar WittigChapter 1.3 Investigations of Droplet Evaporation at Elevated Pressures (pages 54-72): Klaus Prommersberger, Jorg Stengele, Klaus Dullenkopf, Johann Himmelsbach and Sigmar WittigChapter 1.4 Shear?Driven Liquid Wall Films in Combustor Flows: Recent Advances in Experiment and Numerical Simulation (pages 73-91): Heiko Rosskamp, Alfred Elsa?er, Joachim Ebner, Georg Maier, Berthold Noll and Soksik KimChapter 1.5 Pressure?Swirl and Twin?Fluid Atomization with Regard to Industrial Liquid Fuel Combustion (pages 92-108): Andreas Kufferath, Martin Loffler?Mang, Andreas Horvay and Wolfgang LeuckelChapter 2.1 Stabilisation of Turbulent Concentric and Swirling Flames Based on Flow and Mixing Pattern Investigations (pages 114-134): Peter Schmittel, Bernd Prade, Stefan Hoffmann and Bernhard LenzeChapter 2.2 Velocity?Fields, Reynolds Stresses, and Swirl?Induced Intermittency in Free and Enclosed Rotating Flows (pages 135-155): Frank Holzapfel, Klaus Dobbeling and Bernhard LenzeChapter 2.3 Mathematical Modeling of Turbulent Swirling Flames (pages 156-175): Peter Habisreuther, Matthias Philipp, Heinrich Eickhoff and Wolfgang LeuckelChapter 2.4 Stability and Burnout of Swirling Flames with Wastewater Injection (pages 176-191): Karsten Ehrhardt and Wolfgang LeuckelChapter 3.1 Formation and Reduction of Thermal and Fuel Nitrogen Oxides in Flames (pages 199-220): Dieter Stapf, Peter Jansohn, Stefan Koger and Wolfgang LeuckelChapter 3.2 Soot Formation from Gaseous Hydrocarbons in Turbulent Combustion (pages 221-254): Wolfgang Leuckel, Michael Huth and Bernd BartenbachChapter 4.1 High Efficient Cooling Concepts for Low Emission Combustors (pages 261-281): Moritz Martiny, Ralf Schiele, Michael Gritsch, Achmed Schulz and Soksik KimChapter 4.2 Numerical Modelling of Combustor Liner Heat Transfer (pages 282-298): Dietmar Giebert, Elias Papanicolaou, Carl?Henning Rexroth, Michael Scheuerlen, Achmed Schulz and Rainer KochChapter 4.3 Experimental Investigation and Numerical Prediction of Radiative Heat Transfer (pages 299-325): Rainer Koch, Benedikt Ganz, Werner Krebs, Berthold Noll and Sigmar WittigChapter 5.1 Systematic Investigation of the High?Temperature Deformation Behaviour of Selected Materials for Combustion Chambers in Different Component Conditions (pages 333-341): Uli T. Schmidt, Otmar Vohringer, Detlef Lohe and Eckard MacherauchChapter 5.2 Fatigue Behaviour of NiCr22Co12Mo9 under Isothermal and Thermal?Mechanical Fatigue Loadings (pages 342-358): Mourad Moalla, Karl?Heinz Lang and Detlef LoheChapter 5.3 Microstructure and Deformation Behaviour of Carbide?Hardened Superalloys (pages 359-374): Ulrich Martin, Heinrich Oettel, Uwe Muhle and Otmar VohringerChapter 5.4 Advances in the Inelastic Failure Analysis of Combustor Structures (pages 375-390): Holger Kiewel, Jarir Aktaa and Dietrich MunzChapter 5.5 Modeling of the Non?Linear Deformation and Damage Behaviour of Combustor Structure Materials (pages 391-416): Jarir Aktaa and Dietrich MunzChapter 6.1 Long?Term Behaviour and Application Limits of Plasma?Sprayed ZrO2 Thermal Barrier Coatings (pages 422-437): Petra A. Langjahr, Rainer Oberacker and Michael J. HoffmannChapter 6.2 The Creep Damage Behaviour of a Plasma?Sprayed Thermal Barrier Coating System for Combustion Chambers (pages 438-450): Uli T. Schmidt, Otmar Vohringer, Detlef Lohe and Eckard MacherauchChapter 7.1 Research Projects (pages 451-463):