High variability of interaction energy between volcanic particles: implications for deposit stability

Ontiveros-Ortega, Alfonso; Plaza, Iban; Calero, Julio; Moleon, Jose Alberto; Ibañez, Jesús Miguel

High variability of interaction energy between volcanic particles: implications for deposit stability

Alfonso Ontiveros-Ortega (), Iban Plaza, Julio Calero, Jose Alberto Moleon and Jesús Miguel Ibañez
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Alfonso Ontiveros-Ortega: University of Jaén
Iban Plaza: University of Jaén
Julio Calero: University of Jaén
Jose Alberto Moleon: University of Jaén
Jesús Miguel Ibañez: University of Granada

Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, 2023, vol. 117, issue 3, No 39, 3103-3122

Abstract: Abstract Landslides on the flanks of stratovolcanoes can significantly modify the structure of the volcano. Macroscopic factors that determine the stability of volcanic deposits are well understood, but the microscopic interactions between particles and their impact on deposit cohesion remain poorly understood. Deposit cohesion is related to the energy of interaction between particles, and its calculation depends on the surficial properties of the eruptive materials. The purpose of this study was to perform a preliminary comparative analysis of the surficial properties of volcanic materials from various tectonic settings, including electrical (zeta potential) and thermodynamic (surface free energy) components and to calculate the total interaction energy between particles under different environmental conditions. We analyzed samples of eruptive materials obtained from volcanic flows characteristic of six active volcanoes (El Hierro, Pico Do Fogo, Vulcano, Stromboli, Mt. Etna, and Deception Island). The results show that deposit cohesion varies among volcanoes and changes drastically with the pH of the medium. Among the volcanic systems investigated, El Hierro (pH = 3) has the most cohesive materials, while Mt. Etna (pH = 8) has the least cohesive materials. Our results suggest that microscopic electrical and thermodynamic properties play a role in the stability of volcanic deposits, and confirm the need for a greater research focus in this area.

Keywords: Zeta potential and surface free energy; Volcanic ashes; Interaction energy between colloidal particles (search for similar items in EconPapers)
Date: 2023
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DOI: 10.1007/s11069-023-05979-y

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