Tali Bar-Kohany scite author profile

A new approach to modelling puffing and micro-explosion in composite water/fuel droplets is proposed. This approach is based on the assumption previously made that a spherical water sub-droplet is located in the centre of a spherical fuel (n-dodecane) droplet. The heating of a fuel droplet is described by the heat conduction equation with the Robin boundary condition at its surface and continuity conditions at the fuel-water interface. The analytical solution to this equation, obtained at each time step, is incorporated into the numerical code and used for the analysis of droplet heating and evaporation. The effects of droplet thermal swelling are taken into account. The results of calculations using this code allowed us to obtain the time evolution of the temperature at the water/fuel interface and the evolution of time derivative of this temperature (Ṫ ) with time in the same location. Using the original and previously published experimental data, two new correlations for the nucleation temperatures T N as functions ofṪ , valid in the range 0 ≤Ṫ ≤ 10 6 K/s, are suggested. Using these correlations and the values ofṪ inferred from

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Optimization of variable valve timing for maximizing performance of an unthrottled SI engine—a theoretical study

Sher

Bar-Kohany

2002

Energy

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State of the Art Review of Flash-Boiling Atomization

Bar-Kohany

Levy

2016

Atomiz Spr

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Nucleation temperature under various heating rates

Bar-Kohany

Amsalem

2018

International Journal of Heat and Mass Transfer

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Tali Bar-Kohany

Flash-boiling atomization

A new approach to modelling micro-explosions in composite droplets

Optimization of variable valve timing for maximizing performance of an unthrottled SI engine—a theoretical study

State of the Art Review of Flash-Boiling Atomization

Nucleation temperature under various heating rates

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