This research includes the study of energy emulsions used as an alternative fuel
in thermal power stations or in internal combustion engines, and the
mechanism of the formation of emulsions energy, and where the process of
cavitations bubbles form
ed in the fluid as a result of a high-speed spin rotation,
has been studied for the first time in Syria, a detailed study of the terms of the
stability of this type of energy emulsions (Fuel- water).
This article describes physical peculiarities of competitive phase that emerges
when drops of water-fuel emulsion are heated. It is shown that the process of
micro explosion indrops is determined by the amount of water contained in the
fuel and by disparity of emulsion.
This work is assigned to study the influence of different interaction potential forms
on the pressure and internal energy of crystalline argon along its isothermal curves at high
temperatures, expanded from melting point temperature up to room temp
erature at
different molar volume values expanded up to its value, corresponded experimental
equilibrium curves with gaseous and liquid phases within the framework of quasi-classical
approximation. The pair-wise inter-atomic forces in conjunction with three-body forces
were taken into consideration. The results of this study regarding the pressure and internal
energy of crystalline Argon were compared with available experimental data. The
comparison clearly indicates that the calculated results coincide well with the experimental
results.