Title :
Consistent treatment of critical plasma flows in high pressure discharge ablative capillaries
Author :
Cuperman, Sami ; Zoler, David ; Ashkenazy, Joseph ; Caner, Marc ; Kaplan, Zvi
Author_Institution :
Sch. of Phys., & Astron., Tel Aviv Univ., Israel
fDate :
6/1/1993 12:00:00 AM
Abstract :
A self-consistent solution of generalized, quasi-one-dimensional nonideal fluid equations describing the steady-state critical plasma flows in high pressure capillary discharges is presented. All three equations used (continuity, momentum and energy) include (ablative effects). No limitation to the case of ideal equation of state or to the spatial uniformity of the ionization degree is imposed. A numerical algorithm enabling the determination of self-consistent boundary conditions required for the integration of the differential equations is used. Illustrative result for typical physical parameters, namely, electrical current and radius and length of the capillary, are presented for polyethylene capillaries. The effects of changes in the geometrical characteristics of the capillary as well as in the electrical and radiative characteristics of the discharge on the plasma parameters are also considered
Keywords :
discharges (electric); plasma flow; plasma transport processes; boundary conditions; continuity equations; critical plasma flows; differential equations; electrical characteristics; electrical current; energy equations; geometrical characteristics; high pressure discharge ablative capillaries; ideal equation of state; ionization degree; momentum equations; numerical algorithm; polyethylene capillaries; quasi-one-dimensional nonideal fluid equations; radiative characteristics; self-consistent solution; spatial uniformity; steady-state flow; Boundary conditions; Equations; Fault location; Ionization; Physics; Plasma devices; Plasma properties; Plasma sources; Plasma temperature; Steady-state;
Journal_Title :
Plasma Science, IEEE Transactions on
