• cmcFoam

  • Referenced in 1 article [sw29516]
  • model for solving non-premixed turbulent combustion: integration and validation. This article presents a direct ... conditional moment closure (CMC), an advanced combustion model with a computational fluid dynamics (CFD) package ... Manipulation) to solve non-premixed turbulent combustion. Earlier our group (Roy and Sreedhara ... with FLUENT to model non-premixed turbulent combustion, but it was through manual...
  • S3D Legion

  • Referenced in 2 articles [sw25964]
  • software for direct numerical simulation of turbulent combustion with complex multicomponent chemistry no review...
  • Code_Saturne

  • Referenced in 38 articles [sw06674]
  • with scalars transport if required. Several turbulence models are available, from Reynolds-Averaged models ... modules”: gas, coal and heavy-fuel oil combustion, semi-transparent radiative transfer, particle-tracking with...
  • Kiva-2

  • Referenced in 65 articles [sw08987]
  • applied to laminar or turbulent flows, subsonic or supersonic flows, and single-phase or dispersed ... mesh generation have been written for internal combustion engine calculations, the logic for these specifications...
  • mmcFoam

  • Referenced in 1 article [sw25453]
  • conditioning computational model in OpenFOAM for turbulent combustion. Computational models for combustion must account ... critically, the interactions of these with turbulence. The development of affordable and accurate models that ... Four validation cases are selected including a combustion direct numerical simulation (DNS) case, two combustion...
  • SENGA2

  • Referenced in 1 article [sw26622]
  • Numerical Simulation (DNS) code for simulating turbulent combustion with detailed chemistry (Prof. Stewart Cant, University...
  • ADAPT

  • Referenced in 1 article [sw21416]
  • like the scalar dissipation rate in turbulent combustion simulations or indicator functions, such as, vorticity...
  • STAR-CCM+

  • Referenced in 27 articles [sw07683]
  • Principles of combustion. 2nd ed. Chichester: Wiley (1999; Zbl 1050.80503)]. They then introduce the Reynolds ... above conservation laws. They also introduce a turbulence model based on Boussinesq’s assumption, leading...
  • ISAT-CK7

  • Referenced in 1 article [sw29241]
  • Combustion Enterprise, LLC and by the Turbulence and Combustion Group at Cornell University. This package...
  • AVBP

  • Referenced in 20 articles [sw18304]
  • turbulence. The prediction of these unsteady turbulent flows is based on the Large Eddy Simulation ... Arrhenius law reduced chemistry model allows investigating combustion for complex configurations...
  • KIVA-4

  • Referenced in 23 articles [sw02561]
  • supersonic flows for both laminar and turbulent regimes. Arbitrary numbers of species and chemical reactions ... breakups. Although specifically designed for performing internal combustion engine calculations, the modularity of the code...
  • Fuego

  • Referenced in 2 articles [sw31833]
  • represents the turbulent, buoyantly-driven incompressible flow, heat transfer, mass transfer, combustion, soot, and absorption...
  • IFP-C3D

  • Referenced in 5 articles [sw09125]
  • developed at IFP to compute the compressible combustion in internal engines. IFP-C3D uses ... time splitting, SIMPLE loop, sub-cycled advection, turbulent and Lagrangian spray and a liquid film ... model. Physical models developed at IFP for combustion (ECFM gasoline combustion model and ECFM3Z...
  • TASCflow

  • Referenced in 5 articles [sw19460]
  • complete, 3D CFD software package which predicts turbulent or laminar viscous incompressible or compressible (subsonic ... flows and others. TASCflow contains models for combustion, particle tracking, rotating domains, porous media...
  • FireFOAM

  • Referenced in 4 articles [sw07498]
  • addition to a suitable model for the turbulent flow dynamics, simulations of compartment fires require ... phenomena, including pyrolysis processes, buoyancy-driven flow, combustion, soot formation and thermal radiation. Some examples...
  • FDS

  • Referenced in 1 article [sw07499]
  • addition to a suitable model for the turbulent flow dynamics, simulations of compartment fires require ... phenomena, including pyrolysis processes, buoyancy-driven flow, combustion, soot formation and thermal radiation. Some examples...
  • ANSYS

  • Referenced in 663 articles [sw00044]
  • ANSYS offers a comprehensive software suite that spans...
  • GeM

  • Referenced in 93 articles [sw00332]
  • We present a recently developed Maple-based “GeM...
  • Gerris

  • Referenced in 276 articles [sw00341]
  • Gerris is a Free Software program for the...
  • LAPACK

  • Referenced in 1647 articles [sw00503]
  • LAPACK is written in Fortran 90 and provides...