All Stories

  1. Large Eddy Simulations of Conventional and Alternative Aviation Fuel Spray Breakup
  2. Pintle Injector Performance Sensitivity to the Radial Injection Arrangement
  3. Turbulence Closure Assessment in URANS of a Cold-Flow Lab-Scale Swirled Burner
  4. A thermal flash-boiling model for secondary atomization of Lagrangian droplets
  5. Evaporation and clustering of ammonia droplets in a hot environment
  6. The spectral characterisation of reduced order models in chemical kinetic systems
  7. Assessment of subgrid dispersion models for large-eddy simulations of turbulent jet flows with dilute spray droplets
  8. An adaptive time-integration scheme for stiff chemistry based on computational singular perturbation and artificial neural networks
  9. Large eddy simulation of multi-regime burner: a reaction mechanism sensitivity analysis
  10. Local combustion regime identification using machine learning
  11. The origin of CEMA and its relation to CSP
  12. Large eddy simulation with flamelet progress variable approach combined with artificial neural network acceleration
  13. A method to convert stand-alone OH fluorescence images into OH mole fraction
  14. Numerical Investigation of High Pressure CO2-Diluted Combustion Using a Flamelet-based Approach
  15. Multi-stage heat release in lean combustion: Insights from coupled tangential stretching rate (TSR) and computational singular perturbation (CSP) analysis
  16. Uncertainty Quantification Analysis of RANS of Spray Jets
  17. A new OH fluorescence signal-to-OH mole fraction conversion model formulation and calibration
  18. Analysis of Wall–flame Interaction in Laminar Non-premixed Combustion
  19. Characterization of jet-in-hot-coflow flames using tangential stretching rate
  20. Large Eddy Simulation on the Effects of Pressure on Syngas/Air Turbulent Nonpremixed Jet Flames
  21. Numerical analysis of laser-pulse transient ignition of oxygen/methane mixtures in rocket-like combustion chamber
  22. Explicit time integration of the stiff chemical Langevin equations using computational singular perturbation
  23. Investigation of the turbulent flame structure and topology at different Karlovitz numbers using the tangential stretching rate index
  24. Characterization of Unsteadiness in an Overexpanded Planar Nozzle
  25. Automated chemical kinetic mechanism simplification with minimal user expertise
  26. Systematic strategies for thermochemical model reduction in rocket propulsion applications
  27. Enhancements of the G-Scheme Framework
  28. Sensitivity analysis and mechanism simplification using the G-Scheme framework
  29. Assessment of detached eddy simulation of a separated flow in a planar nozzle
  30. Analysis of Hydrogen/Air Turbulent Premixed Flames at Different Karlovitz Numbers Using Computational Singular Perturbation
  31. CSP-based chemical kinetics mechanisms simplification strategy for non-premixed combustion: An application to hybrid rocket propulsion
  32. Detached-Eddy Simulation of Shock Unsteadiness in an Overexpanded Planar Nozzle
  33. Chemical model reduction under uncertainty
  34. Tangential stretching rate (TSR) analysis of non premixed reactive flows
  35. Computational characterization of ignition regimes in a syngas/air mixture with temperature fluctuations
  36. Entropy production and timescales
  37. Dynamical system analysis of ignition phenomena using the Tangential Stretching Rate concept
  38. Enforcing positivity in intrusive PC-UQ methods for reactive ODE systems
  39. On the simplification of kinetic reaction mechanisms of air–ethanol under high pressure conditions
  40. Analysis of n-heptane auto-ignition characteristics using computational singular perturbation
  41. Numerical simulation of edge flames initiation and propagation using an adaptive wavelet collocation method
  42. Computational singular perturbation with non-parametric tabulation of slow manifolds for time integration of stiff chemical kinetics
  43. Structure of n-heptane/air triple flames in partially-premixed mixing layers
  44. Classification of ignition regimes in HCCI combustion using computational singular perturbation
  45. Analysis of methane–air edge flame structure
  46. The G-Scheme: A framework for multi-scale adaptive model reduction
  47. Skeletal mechanism generation with CSP and validation for premixed n-heptane flames
  48. High-order AMR computations of reacting flow with adaptive reduction of chemical stiffness
  49. The structure of slow invariant manifolds and their bifurcational routes in chemical kinetic models
  50. Stretching-based diagnostics and reduction of chemical kinetic models with diffusion
  51. Adaptive chemistry computations of reacting flow
  52. A CSP and tabulation-based adaptive chemistry model
  53. Explosion limits and runaway criteria: A stretching-based approach
  54. Skeletal mechanism generation and analysis for n-heptane with CSP
  55. Slow Manifold Structure in Explosive Kinetics. 1. Bifurcations of Points-at-Infinity in Prototypical Models
  56. Slow Manifold Structure in Explosive Kinetics. 2. Extension to Higher Dimensional Systems
  57. A computational facility for reacting flow science
  58. An automatic procedure for the simplification of chemical kinetic mechanisms based on CSP
  59. An efficient iterative algorithm for the approximation of the fast and slow dynamics of stiff systems
  60. Natural tangent dynamics with recurrent biorthonormalizations: A geometric computational approach to dynamical systems exhibiting slow manifolds and periodic/chaotic limit sets
  61. Higher order corrections in the approximation of low-dimensional manifolds and the construction of simplified problems with the CSP method
  62. Biorthogonalization, geometric invariant properties and rate-based estimate of Lyapunov spectra
  63. Adaptive chemical model reduction
  64. Reactive and reactive-diffusive time scales in stiff reaction-diffusion systems
  65. CSP analysis of a transient flame-vortex interaction
  66. Inertial manifolds with CSP
  67. Local and global manifolds in stiff reaction-diffusion systems
  68. Optimal Shape Design of Supersonic, Mixed-Compression, Fixed-Geometry Air Intakes for SSTO Mission Profiles
  69. Explicit Time-Scale Splitting Algorithm for Stiff Problems: Auto-ignition of Gaseous Mixtures behind a Steady Shock
  70. Performance prediction for oblique detonation wave engines (odwe)
  71. Efficient strategies to design optimal ship hulls
  72. Optimal supersonic intake design for air collection engines (ACE)
  73. Optimization methods for non-smooth or noisy objective functions in fluid design problems
  74. Fast moving sub-subsonic shocks in closed-end tubes
  75. Shock detection and discontinuity tracking for unsteady flows