Pyroelectrical model for intracloud lightning

  • Nelson Falcón Universidad de Carabobo-Venezuela
  • Amilkar Quintero Florida Institute of Technology-Estados Unidos
Palabras clave: lightning, flashes, atmospheric electricity, methane

Resumen

We present a theoretical microphysical model of thundercloud electrification that incorporates the influence of an aerosol with electrical self-polarization (pyroelectric), like methane. We estimate the water and methane dipole contribution to the internal electric field and calculate the associated capacitance for the cloudy cell, using the telluric capacitor approach, with methane concentration lower than the air composition. We obtain that the water contribution to the internal electric field due to the electrical displacement vector generated by the atmospheric electric field of the Earth, is not enough to produce a typical discharge; the methane increases the electric field inside thunderclouds and facilitates the electrical charge generation and separation process. Applications in Titan Lightning activity and lightning of the Catatumbo River are suggested.

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Cómo citar
Falcón, N., & Quintero, A. (1). Pyroelectrical model for intracloud lightning. Ciencia, 18(2). Recuperado a partir de https://mail.produccioncientificaluz.org/index.php/ciencia/article/view/9973
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