Detailed, sterically-resolved modeling of soot oxidation: Role of O atoms, interplay with particle nanostructure, and emergence of inner particle burning Article

Frenklach, Michael, Liu, Zhenyuan, Singh, Ravi I et al. (2018). Detailed, sterically-resolved modeling of soot oxidation: Role of O atoms, interplay with particle nanostructure, and emergence of inner particle burning . COMBUSTION AND FLAME, 188 284-306. 10.1016/j.combustflame.2017.10.012

Open Access International Collaboration

cited authors

  • Frenklach, Michael; Liu, Zhenyuan; Singh, Ravi I; Galimova, Galiya R; Azyazov, Valeriy N; Mebel, Alexander M

authors

publication date

  • February 1, 2018

webpage

published in

keywords

  • DIESEL SOOT
  • Detailed mechanism
  • Energy & Fuels
  • Engineering
  • Engineering, Chemical
  • Engineering, Mechanical
  • Engineering, Multidisciplinary
  • GRAPHENE LAYER GROWTH
  • HIGH-TEMPERATURE OXIDATION
  • LAMINAR PREMIXED FLAMES
  • MONTE-CARLO-SIMULATION
  • Monte-Carlo simulations
  • POLYCYCLIC AROMATIC-HYDROCARBONS
  • Physical Sciences
  • REACTION-MECHANISM
  • SHOCK-TUBE
  • Science & Technology
  • Soot oxidation
  • THERMAL-DECOMPOSITION
  • TRANSMISSION ELECTRON-MICROSCOPY
  • Technology
  • Thermodynamics
  • Validation

Digital Object Identifier (DOI)

publisher

  • ELSEVIER SCIENCE INC

start page

  • 284

end page

  • 306

volume

  • 188