Effect of the pressure on the development of an impulse arc in CO2

Abstract

The properties of the impulse discharge in carbon dioxide under variable pressure in the range 26.7 kPa - 0.16 MPa (200-1200 Torr) were investigated using fast photography and electrical measurements. In the experiments, fast lightning impulses (70 ns front) were applied to a point/plane gap with gap separation of 6.5 and 11 cm. It was found that the peak current was not affected by pressure; the electric field, on the contrary, did respond to it. The computer simulations and electrical field measurements performed show that the space charge had a dipolar structure. This structure might be responsible for the diminished negative breakdown level observed in CO <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">2</sub> . It was found that the arc expansion in the first 3 μs is very fast and slows down afterwards following a logarithmic curve in time. The pressure of the gas had a small, inverse effect on the arc's diameter.