Charge separation in low temperature ice-cloud regions

E. E. AVILA; R. E. BÜRGESSER; N. E. CASTELLANO; R. G. PEREYRA; C. P. R. SAUNDERS

JOURNAL OF GEOPHYSICAL RESEARCH

AMER GEOPHYSICAL UNION

Año: 2011 vol. 116 p. 1 - 5

0148-0227

New laboratory measurements of graupel pellet charging due to collision with ice particles at low temperature are presented. The experiments were carried out in the temperature range -37°C to -47°C, with an impact velocity of 7 m s-1 and in the absence of supercooled liquid water. The graupel pellet was simulated with a previously rimed brass cylinder of 4 mm diameter, and the small ice particles were formed by natural freezing of supercooled water droplets at low temperature without seeding the cloud. The effective ice water content used in the experiments was between 0.25 and 0.33 g m-3. Cloud particle samples show small ice particles with diameters up to 24 μm. The results show that the sign of the charging current acquired by the graupel is predominantly negative, and its magnitude ranges from 0 to -150 pA; although there is a significant dispersion of data, a marked dependence on temperature is not observed. It is estimated that the magnitude of the charge transfer per collision is between 0.01 and 0.1 fC; the charging rate of a graupel pellet of 4 mm diameter then would be about 300 pC min-1. Based on this experimental evidence, we suggest that the charging mechanism associated with graupel?frozen droplet collision and separation may be relevant in clouds whose internal temperatures are substantially lower than -37°C and could be the main generator for high-altitude lightning.