Aspire to Achieve

    • https://www.effatuniversity.edu.sa/English/Research/Pages/default.aspx, A researcherhttps://www.effatuniversity.edu.sa/Arabic/Research/Pages/default.aspx, باحث
      A researcher
    • https://www.effatuniversity.edu.sa/English/academics/Undergraduate, An undergraduatehttps://www.effatuniversity.edu.sa/Arabic/academics/Undergraduate, البكالوريوس
      An undergraduate
    • https://www.effatuniversity.edu.sa/English/academics/graduate, A graduatehttps://www.effatuniversity.edu.sa/Arabic/academics/Graduate, الدراسات العليا
      A graduate
 

Publications

  • Research Interests:

Thesis

  1. ​1. N. Kabbaj. Study of radiative transfer of Air thermal plasma : Influence of radiative properties in the simulation of a free-burning arc. PhD Thesis, Université de Toulouse Paul Sabatier.
  2. N. Kabbaj. Development of a CFD-based Heat Exchanger Geometry Optimization Framework. Master Thesis, Institut National Polytechnique de Grenoble. (Grenoble INP).​

Peer-Reviewed Journals

  1. M. Belhi, N. Kabbaj, H. G. Im, Numerical investigation of the chemical effects of sub-breakdown DC electric fields on non-premixed counterflow methane-air flames, Physica Scripta, (2022).Submitted
  2. N. Kabbaj, H. G. Im, Response of one-dimensional ionized flames to oscillatory electric fields, Combust. Theory Model (2021).Accepted
  3. X. Zhang, S. Tian, Y. Cressault, N. Kabbaj et al. Research Status of Substitute Gas for Greenhouse Gas SF6 in Power Industry. AIP Adv., 10 (5) (2020).
  4. Y. Cressault, Ph. Teulet, N. Kabbaj et al. State of art and challenges for the calculation of radiative and transport properties of thermal plasmas in HVCB, Plasma physics and technologies (2019).
  5. N. Kabbaj, Y. Cressault, P. Teulet, F. Reichert, A. Petchanka. Numerical optimization of Mean Absorption Coefficient in Air using Planck Modified Mean Function. J. Phys. Conf. Series (2019).​

Conference Proceedings​

  1. N. Kabbaj, X. Shao, D. Lacoste, H. G. Im, APS DFD, A Phenomenological model for the impact of nanosecond repetitively pulsed discharges on a laminar methane-air flame, Indianapolis (USA),2022.  
  2. N. Kabbaj, X. Shao, H. G. Im, 13th Asia-Pacific Conference on Combustion 2021, AC electric field into flames, Abu Dhabi (UAE), 2021.  
  3. N. Kabbaj, Y. Cressault, P. Teulet. Optimisation des Coefficients Moyens d’Absorption utilisant la moyenne de Planck Modifiée pour un plasma thermique d’Air. 14ème Colloque sur les Arcs Electriques, Bourges (France), March 2019.  
  4. N. Kabbaj, Y. Cressault, P. Teulet, F. Reichert, A. Petchanka. Effect of optimized / non-optimized Mean Absorption Coefficients on the radiative transfer of Clean Air. 22nd International Conference on Gas Discharges and Their Applications, Volume I, p. 191.Novi-Sad (Serbia), September 2018.
  5.  N. Kabbaj, Y. Cressault, P. Teulet, F. Reichert, A. Petchanka. Effect of radiative properties in Air+Cu plasma for free-burning arc simulation. 15th High Technology Plasma Processes International Conference, Toulouse (France), July 2018.
  6.  N. Kabbaj. Etude du transfert radiatif d'un plasma thermique Air-Cu : Influence des propriétés radiatives dans la modélisation d'un arc libre. Génie Electrique, Electronique, Télécommunications, Toulouse (France), April 2018.
  7.  N. Kabbaj, Y. Cressault, P. Teulet, F. Reichert. Simulation du comportement thermique d’un plasma SF6 dans un sectionneur 13ème Colloque sur les Arcs Electriques, Nancy (France), March 2017.​

Effat Alumnae

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