Measurements of Size and Electrical Charges Carried by Precipitation Particles During RELAMPAGO Field Campaign

Eldo Ávila; Lucia Martínez; Rodolfo Pereyra; Timothy Lang; Wiebke Deierling; Matthew Wingo; Gregory Melo; Bruno Medina

doi:10.1029/2022EA002407

Measurements of Size and Electrical Charges Carried by Precipitation Particles During RELAMPAGO Field Campaign

Eldo Ávila
, Lucia Martínez
, Rodolfo Pereyra
, Timothy Lang
, Wiebke Deierling
, Matthew Wingo
, Gregory Melo
, Bruno Medina

Universidad Nacional de Córdoba
NASA Marshall Space Flight Center
University of Colorado Boulder
University of Alabama in Huntsville
National Weather Service

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The electrical charge carried by raindrops provides significant information about thunderstorm electrification mechanisms, since the charge acquired by hydrometeors is closely related to the microphysical processes that they undergo within clouds. Investigation of charges on raindrops was conducted during the Remote sensing of Electrification, Lightning, And Meso-scale/micro-scale Processes with Adaptive Ground Observations field campaign. A newly designed instrument was used to determine simultaneously the fall velocity and charge for precipitating particles. Hydrometeor size and charge were measured in Córdoba city, Argentina, during electrified storms. Temporal series of size-charge of single raindrops were recorded for two storms, which were also monitored with a Parsivel disdrometer and Lightning Mapping Array. The results show that the magnitude of the electric charges range between 1 and 50 pC and more than 90% of the charges are mainly carried by raindrops >1 mm, even though most of the raindrops are smaller than 1 mm. Furthermore, the measurement series show charged hydrometeors of both signs all the time. A correlation between the sizes and the charges carried by the raindrops was found in both storms.

Original language	English
Article number	e2022EA002407
Journal	Earth and Space Science
Volume	9
Issue number	9
DOIs	https://doi.org/10.1029/2022EA002407
State	Published - Sep 2022

Keywords

atmospheric electricity
charged raindrops
cloud electrification
lightning
non-inductive mechanism
precipitation (1854)
thunderstorms

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10.1029/2022EA002407

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title = "Measurements of Size and Electrical Charges Carried by Precipitation Particles During RELAMPAGO Field Campaign",

abstract = "The electrical charge carried by raindrops provides significant information about thunderstorm electrification mechanisms, since the charge acquired by hydrometeors is closely related to the microphysical processes that they undergo within clouds. Investigation of charges on raindrops was conducted during the Remote sensing of Electrification, Lightning, And Meso-scale/micro-scale Processes with Adaptive Ground Observations field campaign. A newly designed instrument was used to determine simultaneously the fall velocity and charge for precipitating particles. Hydrometeor size and charge were measured in C{\'o}rdoba city, Argentina, during electrified storms. Temporal series of size-charge of single raindrops were recorded for two storms, which were also monitored with a Parsivel disdrometer and Lightning Mapping Array. The results show that the magnitude of the electric charges range between 1 and 50 pC and more than 90\% of the charges are mainly carried by raindrops >1 mm, even though most of the raindrops are smaller than 1 mm. Furthermore, the measurement series show charged hydrometeors of both signs all the time. A correlation between the sizes and the charges carried by the raindrops was found in both storms.",

keywords = "atmospheric electricity, charged raindrops, cloud electrification, lightning, non-inductive mechanism, precipitation (1854), thunderstorms",

author = "Eldo {\'A}vila and Lucia Mart{\'i}nez and Rodolfo Pereyra and Timothy Lang and Wiebke Deierling and Matthew Wingo and Gregory Melo and Bruno Medina",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Earth and Space Science published by Wiley Periodicals LLC on behalf of American Geophysical Union.",

year = "2022",

month = sep,

doi = "10.1029/2022EA002407",

language = "English",

volume = "9",

journal = "Earth and Space Science",

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T1 - Measurements of Size and Electrical Charges Carried by Precipitation Particles During RELAMPAGO Field Campaign

AU - Ávila, Eldo

AU - Martínez, Lucia

AU - Pereyra, Rodolfo

AU - Lang, Timothy

AU - Deierling, Wiebke

AU - Wingo, Matthew

AU - Melo, Gregory

AU - Medina, Bruno

PY - 2022/9

Y1 - 2022/9

N2 - The electrical charge carried by raindrops provides significant information about thunderstorm electrification mechanisms, since the charge acquired by hydrometeors is closely related to the microphysical processes that they undergo within clouds. Investigation of charges on raindrops was conducted during the Remote sensing of Electrification, Lightning, And Meso-scale/micro-scale Processes with Adaptive Ground Observations field campaign. A newly designed instrument was used to determine simultaneously the fall velocity and charge for precipitating particles. Hydrometeor size and charge were measured in Córdoba city, Argentina, during electrified storms. Temporal series of size-charge of single raindrops were recorded for two storms, which were also monitored with a Parsivel disdrometer and Lightning Mapping Array. The results show that the magnitude of the electric charges range between 1 and 50 pC and more than 90% of the charges are mainly carried by raindrops >1 mm, even though most of the raindrops are smaller than 1 mm. Furthermore, the measurement series show charged hydrometeors of both signs all the time. A correlation between the sizes and the charges carried by the raindrops was found in both storms.

AB - The electrical charge carried by raindrops provides significant information about thunderstorm electrification mechanisms, since the charge acquired by hydrometeors is closely related to the microphysical processes that they undergo within clouds. Investigation of charges on raindrops was conducted during the Remote sensing of Electrification, Lightning, And Meso-scale/micro-scale Processes with Adaptive Ground Observations field campaign. A newly designed instrument was used to determine simultaneously the fall velocity and charge for precipitating particles. Hydrometeor size and charge were measured in Córdoba city, Argentina, during electrified storms. Temporal series of size-charge of single raindrops were recorded for two storms, which were also monitored with a Parsivel disdrometer and Lightning Mapping Array. The results show that the magnitude of the electric charges range between 1 and 50 pC and more than 90% of the charges are mainly carried by raindrops >1 mm, even though most of the raindrops are smaller than 1 mm. Furthermore, the measurement series show charged hydrometeors of both signs all the time. A correlation between the sizes and the charges carried by the raindrops was found in both storms.

KW - atmospheric electricity

KW - charged raindrops

KW - cloud electrification

KW - lightning

KW - non-inductive mechanism

KW - precipitation (1854)

KW - thunderstorms

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DO - 10.1029/2022EA002407

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JF - Earth and Space Science

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ER -

Measurements of Size and Electrical Charges Carried by Precipitation Particles During RELAMPAGO Field Campaign

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