All Stories

  1. Development of a turbulence dissipation based reaction rate model for progress variable in turbulent premixed flames
  2. Interpretation and characterization of MILD combustion data using unsupervised clustering informed by physics-based, domain expertise
  3. A Skeletal Mechanism for MILD Combustion of n -Heptane/Air Mixtures
  4. A dedication to Professor Kenneth Noel Corbett Bray
  5. Multiscale analysis of turbulence-flame interaction based on measurements in premixed flames
  6. On the blow‐off correlation for swirl‐stabilised flames with a precessing vortex core
  7. Influences of heat release, blockage ratio and swirl on the recirculation zone behind a bluff body
  8. Ammonia-hydrogen-air gas turbine cycle and control analyses
  9. Flame Root Dynamics and Their Role in the Stabilisation of Lifted Flames
  10. Large Eddy simulation of a supersonic lifted hydrogen flame with perfectly stirred reactor model
  11. Effect of MHD and Mass Transpiration on a Viscous Liquid Flow past Porous Stretching Sheet with Heat Transfer
  12. Advanced Turbulent Combustion Physics and Applications
  13. Closing Remarks
  14. Introduction
  15. MILD Combustion
  16. Premixed Combustion Modeling
  17. Turbulent Flame Structure and Dynamics: Combustion Regimes
  18. Season, not lockdown, improved air quality during COVID-19 State of Emergency in Nigeria
  19. Application of machine learning for filtered density function closure in MILD combustion
  20. Scalar fluctuation and its dissipation in turbulent reacting flows
  21. An a priori assessment of the Partially Stirred Reactor (PaSR) model for MILD combustion
  22. Identification of combustion mode under MILD conditions using Chemical Explosive Mode Analysis
  23. Study of MILD combustion using LES and advanced analysis tools
  24. Burn to kill: Wood ash a silent killer in Africa
  25. Influence of fuel plenum on thermoacoustic oscillations inside a swirl combustor
  26. Modelling Heat Loss Effects in the Large Eddy Simulation of a Lean Swirl-Stabilised Flame
  27. Prediction of local extinctions in piloted jet flames with inhomogeneous inlets using unstrained flamelets
  28. Turbulent Flame Shape Switching at Conditions Relevant for Gas Turbines
  29. Physical Insights on MILD Combustion From DNS
  30. A scaling law for the recirculation zone length behind a bluff body in reacting flows
  31. Entropy and Vorticity Wave Generation in Realistic Gas Turbine Combustors
  32. Filtered Reaction Rate Modelling in Moderate and High Karlovitz Number Flames: an a Priori Analysis
  33. Turbulent Flame Shape Switching at Conditions Relevant for Gas Turbines
  34. Analysis of Markers for Combustion Mode and Heat Release in MILD Combustion Using DNS Data
  35. Large Eddy Simulation of a dual swirl gas turbine combustor: Flame/flow structures and stabilisation under thermoacoustically stable and unstable conditions
  36. Lean Flame Root Dynamics in a Gas Turbine Model Combustor
  37. A priori analysis of sub-grid variance of a reactive scalar using DNS data of high Ka flames
  38. Autoignition and flame propagation in non-premixed MILD combustion
  39. Study of polycyclic aromatic hydrocarbons (PAHs) in hydrogen-enriched methane diffusion flames
  40. Gasoline flame behavior at elevated temperature and pressure
  41. Interaction between self-excited oscillations and fuel–air mixing in a dual swirl combustor
  42. Role of radicals on MILD combustion inception
  43. Multiscale analysis of head-on quenching premixed turbulent flames
  44. Large-Eddy Simulation of Reacting Flows in Industrial Gas Turbine Combustor
  45. Large Eddy Simulation of a Bluff Body Stabilised Premixed Flame Using Flamelets
  46. Scale locality of the energy cascade using real space quantities
  47. Numerical Study of a Cyclonic Combustor under Moderate or Intense Low-Oxygen Dilution Conditions Using Non-adiabatic Tabulated Chemistry
  48. A priori investigation of subgrid correlation of mixture fraction and progress variable in partially premixed flames
  49. Study of subgrid-scale velocity models for reacting and nonreacting flows
  50. Assessment of SGS closure for isochoric combustion of hydrogen-air mixture
  51. Assessment of FSD and SDR Closures for Turbulent Flames of Alternative Fuels
  52. DNS of MILD combustion with mixture fraction variations
  53. Prediction of Combustion Noise in a Model Combustor Using a Network Model and a LNSE Approach
  54. Sensitivity of Flamelet Combustion Model to Flame Curvature for IC Engine Application
  55. Prediction of Combustion Noise in a Model Combustor Using a Network Model and a LNSE Approach
  56. Large Eddy Simulation of flame edge evolution in a spark-ignited methane–air jet
  57. Multiscale analysis of turbulence-flame interaction in premixed flames
  58. Simulation of MILD combustion using Perfectly Stirred Reactor model
  59. Application of unstrained flamelet SGS closure for multi-regime premixed combustion
  60. Large-Eddy Simulation of Premixed Combustion in the Corrugated-Flamelet Regime
  61. Special Issue on Recent Advances in Turbulent Premixed Combustion Modeling
  62. Unstructured LES-CMC modelling of turbulent premixed bluff body flames close to blow-off
  63. Velocity and Reactive Scalar Dissipation Spectra in Turbulent Premixed Flames
  64. Large Eddy Simulation of Premixed Combustion: Sensitivity to Subgrid Scale Velocity Modeling
  65. Incompressible LES of combustion noise
  66. Numerical study of transient evolution of lifted jet flames: partially premixed flame propagation and influence of physical dimensions
  67. Computation of Forced Premixed Flames Dynamics
  68. Application of a New Turbulent Flame Speed Combustion Model on Burn Rate Simulation of Spark Ignition Engines
  69. Unstrained and strained flamelets for LES of premixed combustion
  70. Heat release rate estimation in laminar premixed flames using laser-induced fluorescence of CH2O and H-atom
  71. Evolution of flame-kernel in laser-induced spark ignited mixtures: A parametric study
  72. DNS of swirling hydrogen–air premixed flames
  73. Spark Ignition Engine Simulation Using a Flamelet Based Combustion Model
  74. Assessment of dynamic closure for premixed combustion large eddy simulation
  75. Dynamic Closure of Scalar Dissipation Rate for Large Eddy Simulations of Turbulent Premixed Combustion: A Direct Numerical Simulations Analysis
  76. Direct Numerical Simulation of Complex Fuel Combustion with Detailed Chemistry: Physical Insight and Mean Reaction Rate Modeling
  77. Assessment of Reynolds Averaged Navier–Stokes Modeling of Scalar Dissipation Rate Transport in Turbulent Oblique Premixed Flames
  78. Simulation of Premixed Combustion with Varying Equivalence Ratio in Gas Turbine Combustor
  79. Simulation of turbulent lifted methane jet flames: Effects of air-dilution and transient flame propagation
  80. Subgrid scale modelling for MILD combustion
  81. Scalar Dissipation Rate Transport and Its Modeling for Large Eddy Simulations of Turbulent Premixed Combustion
  82. Evaluation of a reduced mechanism for turbulent premixed combustion
  83. Heat release rate markers for premixed combustion
  84. Morphological and statistical features of reaction zones in MILD and premixed combustion
  85. Algebraic Closure of Scalar Dissipation Rate for Large Eddy Simulations of Turbulent Premixed Combustion
  86. On velocity and reactive scalar spectra in turbulent premixed flames
  87. Scalar Dissipation Rate Transport in the Context of Large Eddy Simulations for Turbulent Premixed Flames with Non-Unity Lewis Number
  88. Reaction Zones and Their Structure in MILD Combustion
  89. Simulation of turbulent explosion of hydrogen–air mixtures
  90. Scalar gradient behaviour in MILD combustion
  91. Modelling of turbulent lifted jet flames using flamelets:a prioriassessment anda posteriorivalidation
  92. INVESTIGATION OF FLAME STRETCH IN TURBULENT LIFTED JET FLAME
  93. Local Strain Rate and Curvature Dependences of Scalar Dissipation Rate Transport in Turbulent Premixed Flames: A Direct Numerical Simulation Analysis
  94. Prediction of Combustion Noise for an Aeroengine Combustor
  95. Stratified Turbulent Clouds
  96. Computations of turbulent lean premixed combustion using conditional moment closure
  97. Simulation of Spherically Expanding Turbulent Premixed Flames
  98. Statistics of Reaction Progress Variable and Mixture Fraction Gradients from DNS of Turbulent Partially Premixed Flames
  99. The Effects of Non-Unity Lewis Numbers on Turbulent Premixed Flame Interactions in a Twin V-Flame Configuration
  100. Reynolds Number Effects on Scalar Dissipation Rate Transport and Its Modeling in Turbulent Premixed Combustion
  101. Flame Interactions in Turbulent Premixed Twin V-Flames
  102. A 5-step reduced mechanism for combustion of CO/H2/H2O/CH4/CO2 mixtures with low hydrogen/methane and high H2O content
  103. Determination of three-dimensional quantities related to scalar dissipation rate and its transport from two-dimensional measurements: Direct Numerical Simulation based validation
  104. DNS of EGR-type turbulent flame in MILD condition
  105. Scalar dissipation rate modelling for Large Eddy Simulation of turbulent premixed flames
  106. A Presumed Joint pdf Model for Turbulent Combustion with Varying Equivalence Ratio
  107. Conditional Moment Closure for Turbulent Premixed Flames
  108. Geometry and interaction of structures in homogeneous isotropic turbulence
  109. Influence of flame geometry on turbulent premixed flame propagation: a DNS investigation
  110. Statistics and dynamics of turbulence–flame alignment in premixed combustion
  111. Spatial correlation of heat release rate and sound emission from turbulent premixed flames
  112. Application of Scalar Dissipation Rate Model to Siemens DLE Combustors
  113. Scalar and its dissipation in the near field of turbulent lifted jet flame
  114. Effect of flow-geometry on turbulence-scalar interaction in premixed flames
  115. Scalar dissipation and mean reaction rates in premixed turbulent combustion
  116. Heat release rate correlation and combustion noise in premixed flames
  117. Prediction of Noise Source for an Aeroengine Combustor
  118. Turbulent Premixed Flames
  119. Plate section
  120. Preface
  121. Modelling Methods
  122. Influence of Turbulent Scalar Mixing Physics on Premixed Flame Propagation
  123. On the correlation of heat release rate in turbulent premixed flames
  124. Effects of Lewis Number on Scalar Variance Transport in Premixed Flames
  125. Erratum to: Geometrical Properties and Turbulent Flame Speed Measurements in Stationary Premixed V-flames Using Direct Numerical Simulation
  126. A two phase approach based on skeleton convergence and geometric variables for topology optimization using genetic algorithm
  127. Effects of Lewis Number on Scalar Dissipation Transport and Its Modeling in Turbulent Premixed Combustion
  128. The Effects of Small-Scale Mixing Models on the Prediction of Turbulent Premixed and Stratified Combustion
  129. Geometrical Properties and Turbulent Flame Speed Measurements in Stationary Premixed V-flames Using Direct Numerical Simulation
  130. Strained flamelets for turbulent premixed flames II: Laboratory flame results
  131. Strained flamelets for turbulent premixed flames, I: Formulation and planar flame results
  132. Validation of a Turbulent Flame Speed Model across Combustion Regimes
  133. The Scalar Gradient Alignment Statistics of Flame Kernels and its Modelling Implications for Turbulent Premixed Combustion
  134. A tomographic PIV resolution study based on homogeneous isotropic turbulence DNS data
  135. Effects of compositional fluctuations on premixed flames
  136. Scalar Dissipation Rate Modeling and its Validation
  137. Effects of Lewis number on the reactive scalar gradient alignment with local strain rate in turbulent premixed flames
  138. A priori assessment of closures for scalar dissipation rate transport in turbulent premixed flames using direct numerical simulation
  139. Effect of heat release on turbulence and scalar-turbulence interaction in premixed combustion
  140. Influence of the Damköhler number on turbulence-scalar interaction in premixed flames. I. Physical insight
  141. Influence of the Damköhler number on turbulence-scalar interaction in premixed flames. II. Model development
  142. Finite rate chemistry and presumed PDF models for premixed turbulent combustion
  143. Scalar dissipation and flame surface density in premixed turbulent combustion
  144. Interaction of turbulence and scalar fields in premixed flames
  145. Integrated optimal design of structures under multiple loads for topology and shape using genetic algorithm
  146. Effect of dilatation on scalar dissipation in turbulent premixed flames
  147. Flamelet regime in non-premixed combustion
  148. Relationship between turbulent scalar flux and conditional dilatation in premixed flames with complex chemistry
  149. Scalar dissipation, diffusion and dilatation in turbulent H2-air premixed flames with complex chemistry
  150. Analyses of conditional moment closure for turbulent premixed flames
  151. Bandwidth-demand prediction in virtual path in ATM networks using genetic algorithms
  152. Assessment of combustion submodels for turbulent nonpremixed hydrocarbon flames
  153. Correspondence
  154. Fundamentals and Challenges