KAUST


Farooq's group for Advanced Sensing Technology and Energy Research (FASTER)


F A S T E R (3)

Low-Carbon Fuels

Research 2 Fig

In collaboration with Saudi Aramco, we have carried out a series of works where we explored the technical viability of using naphtha-like low-carbon fuels in advanced low-temperature compression ignition engines. Our group’s works represented the first-ever studies on naphtha fuels and provided insights into the autoignition behavior of such fuels in contrast to gasoline. We published three key papers on these fuels, separately focusing on light naphtha (Javed et al., PROCI 2017), straight-run naphtha (AlAbbad et al., Combustion & Flame 2018) and a custom naphtha blend (AlAbbad et al., PROCI 2019). We were able to explain the dependence of naphtha reactivity on octane number and composition. We proposed detailed strategy for chemical surrogates of these fuels, showing that a PRF (blend of n-heptane and iso-octane) surrogate suffices at high and intermediate temperatures, whereas a multi-component surrogate is needed at low temperatures. In the absence of a distribution network and infrastructure for naphtha, as a short-term solution, we explored blends of gasoline and diesel, termed dieseline, to mimic the ignition behavior of naphtha (AlAbbad et al., Combustion & Flame 2020). 

 

Through our work on a variety of naphtha, oxygenated gasolines (Lee et al., Combustion & Flame 2017) and low-octane gasolines (Javed et al., Combustion & Flame 2017), we were able to illustrate the effects of fuel composition and octane numbers on reactivity trends in high-, intermediate- and low-temperature regions. By combining real fuel measurements with PRF (AlAbbad et al., Combustion & Flame 2017) and TPRF (Javed et al., Combustion & Flame 2016) surrogate experiments, we demonstrated a simple rule for chemical surrogate formulation, “number of components in a surrogate scale directly with the octane sensitivity (RON – MON) of real fuels”. We recently proposed ignition delay correlations for multi-component fuels whereby we suggested, for the first time, chemical interaction coefficients to accurately model ignition delay times of multi-component fuels at low to intermediate temperatures (Khaled et al., Fuel 2017).

Below are some of our recent publications on low-carbon fuels and surrogate formulation:

  1. Experimental and kinetic modeling study of tetralin: a napththeno-aromatic fuel for gasoline, jet and diesel surrogates
    G. Issayev, K. Djebbi, G. Kukkadapu, M. Mehl. S. W. Wagon, W. J. Ptiz, A. Farooq
    Proceedings of the Combustion Institute 38 (2021)
  2. Ignition delay time measurements of diesel and gasoline blends
    M. Alabbad, Y. Li, K. AlJohanni, G. Kenny, K. Hakimov, M. Al-lehaibi, A. Emwas, P. Meier, J. Badra, H. Curran, A. Farooq
    Combustion and Flame 222, 460 – 475 (2020)
  3. Chemical kinetic study of triptane (2, 2, 3-trimethylbutane) as an anti-knock additive
    N. Atef, G. Issayev, S. Mohamed, A. Najjar, Z. Wang, J-Y. Wang, A. Farooq, S. M. Sarathy
    Combustion and Flame 210 399 – 412 (2019)
  4. Ignition delay measurements of a low-octane gasoline blend, designed for gasoline compression ignition (GCI) engines
    M. AlAbbad, J. Badra, K. Djebbi, A. Farooq
    Proceedings of the Combustion Institute 37 171 – 178 (2019)
  5. Autoignition of straight-run naphtha: A promising fuel for advanced compression ignition engines
    M. AlAbbad, G. Issayev, J. Badra, A. K. Voice, B. R. Giri, K. Djebbi, A. Ahmed, S. M. Sarathy, A. Farooq
    Combustion and Flame 189 337 – 346 (2018)
  6. Recent progress in gasoline surrogate fuels
    S. M. Sarathy, A. Farooq, G. Kalghatgi
    Progress in Energy and Combustion Science 65 67 – 108 (2018)
  7. Autoignition characteristics of oxygenated gasolines
    C. Lee, A. Ahmed, E. F. Nasir, J. Badra, G. Kalghatgi, S. M. Sarathy, H. Curran, A. Farooq
    Combustion and Flame 186 114 – 128 (2017)
  8. Ignition studies of two low octane gasolines
    T. Javed, A. Ahmed, L. Lovisotto, G. Issayev, J. Badra, S. M. Sarathy, A. Farooq
    Combustion and Flame 185 55 – 67 (2017)
  9. Ignition delay time measurements of primary reference fuel blends
    M. AlAbbad, T. Javed, F. Khaled, J. Badra, A. Farooq
    Combustion and Flame 178 205 – 216 (2017)
  10. Cyclopentane combustion. Part II. Ignition delay measurements and mechanism validation
    M. Al-Rashidi, J. C. Marmol, C. Banyon, M. B. Sajid, M. Mehl, W. Pitz, J. Zador, S. Mohamed, A. Al-Fazazi, T. Lu, H. Curran, A. Farooq, S.M. Sarathy
    Combustion and Flame 183 372 – 385 (2017)
  11. Ignition delay measurements of light naphtha: a fully blended low octane fuel
    T. Javed, E. F. Nasir, A. Ahmed, J. Badra, K. Djebbi, M. Beshir, W. Ji, S. M. Sarathy, A. Farooq
    Proceedings of the Combustion Institute 36 315 – 322 (2017)
  12. Compositional effects on the ignition of FACE gasolines
    S. M. Sarathy, G. Kukkadapu, M. Mehl, T. Javed, A. Ahmed, N. Naser, A. Tekawade, G. Kosiba, M. AlAbbad, E. Sing, S. Park, M. J. Al-Rashidi, S. H. Chung, W. L. Roberts, M. A. Oehlschlaeger, C-J. Sung, A. Farooq
    Combustion and Flame 169 171 – 193 (2016)
  13. Ignition studies of n-heptane/iso-octane/toluene blends
    T. Javed, C. Lee, M. Al-abbad, K. Djebbi, M. Beshir, J. Badra, H. J. Curran, A. Farooq
    Combustion and Flame 171 223 – 233 (2016)