The mechanism of secondary processes in the streamer breakdown of gases

Experimental investigations of corona discharge in Ar for a wide region of fluid density from a rare gas up to a liquid have been carried out. Corona current has been observed for a point cathode voltage above the threshold value . Values of have been measured for a wide range of fluid density N and for different cathode radii . The obtained dependences of on N and have been analysed using the Townsend - Meek breakdown criterion. For low-density gas the calculations of have been carried out by using universal data on ionization coefficient . The data of for low-density gas are in good agreement with these calculations. Deviation from the `gaseous' dependence has been obtained in measurements carried out with a continuous increasing of the fluid density. The onset corona voltage in dense supercritical gas and in liquid is appreciably smaller than the values calculated from the gaseous Paschen curve. To explain this disagreement a model of impact ionization in liquid was developed. An assumption was made that inelastic energy losses of fast electrons by excitation of atoms without their ionization are absent in liquid. The expression for the ionization coefficient in liquid Ar has been obtained and it was used for calculation of in liquid. The calculated values are in agreement with the experimental data obtained in liquid Ar.

mentioning

confidence: 99%

Ionization phenomenon in high-density gaseous and liquid argon in corona discharge experiments

Bonifaci

Denat

Atrazhev

1997

“…The data by Penney and Hummert also have a part with a smaller absorption coefficient, though the intensity is far lower. An account for this part may be made assuming a reaction Nz+Nz*-t N4++e (Lozansky 1969), N2* denoting the excited neutral molecule. Since the dissociation energy of NqL into Nz +Nz+ is about 0-069 eV (Flannery et aZ1973), photons with energies slightly lower than the first ionization energy may serve for the reaction (Lozansky 1969).…”

Section: W+=(mentioning

confidence: 99%

“…An account for this part may be made assuming a reaction Nz+Nz*-t N4++e (Lozansky 1969), N2* denoting the excited neutral molecule. Since the dissociation energy of NqL into Nz +Nz+ is about 0-069 eV (Flannery et aZ1973), photons with energies slightly lower than the first ionization energy may serve for the reaction (Lozansky 1969). These photons may have absorption coefficients around an order of magnitude smaller than the value above (Cook and Metzger 1964).…”

Section: W+=(mentioning

confidence: 99%

Computer simulation of a nitrogen discharge at high overvoltages

Yoshida

Tagashira

1976

A computer simulation was performed for comparison with the experiments by Koppitz (1973) of a transient discharge with a large cross section between parallel plates in nitrogen. The simulation model was based on the continuity equations for electrons, positive ions and excited molecules and on Poisson's equation. Gas photoionization and cathode photoelectron emission are considered as the secondary processes. The streak diagrams of the light output obtained by the simulation agreed well with the experimental ones, particularly for 20-100% overvoltages. The variation of the electron and positive ion densities and the electric field intensity between the electrodes are also given in streak diagrams. These results support the qualitative explanation by Koppitz concerning the role of each of the secondary processes.

“…Also photodetachment can occur without the existence of highly excited states of nitrogen molecules which must then decay directly to the ground state in order to produce the radiation essential for photoionization. Lozansky (1969) has considered photoionization as a possible process involved in the streamer breakdown of uniform field gaps in air. He concluded that in this case photoionization could not be important because the large absorption coefficient of the necessary high energy photons would result in them being absorbed before they could move sufficiently 1220 F. D. A .…”

Section: Introductionmentioning

confidence: 99%

Impulse breakdown of positive point - plane gaps in air containing charged particles

Boylett

Edwards

Williams

1970

An investigation of the way in which naturally-occuring charged particles affect the growth of impulse corona discharges in positive point-plane air gaps is described. The presence of charged particles is shown to be essential for the production of normal branched corona. When a small auxiliary uniform electric field is used to remove charged particles from the gap the discharge fails to propagate beyond the immediate vicinity of the point electrode. It is suggested that the discharge propagates by means of avalanches initiated by electrons which are photodetached from the naturally-occurring charged particles.