EGU2020-19156, updated on 12 Jun 2020
https://doi.org/10.5194/egusphere-egu2020-19156
EGU General Assembly 2020
© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Monitoring natural CO2 flow in the mofettes of the West Bohemia seismoactive region

Josef Vlček, Tomáš Fischer, and Martin Lanzendörfer
Josef Vlček et al.
  • Charles University, Faculty of Science, Prague, Czech Republic (josef.vlcek@natur.cuni.cz)

Monitoring of CO2 degassing in seismoactive areas allows the study of correlations of gas
release and seismic activity. Reliable continuous monitoring of the gas flow rate in rough field
conditions requires robust methods capable of measuring gas flow at different types of gas
outlets such as wet mofettes, mineral springs and boreholes. In this paper we focus on the
methods and results of the long-term monitoring of CO2 degassing in the West
Bohemia/Vogtland region in Central Europe, which is typified by the occurrence of
earthquake swarms and emanations of carbon dioxide of magmatic origin. Besides direct
flow measurement using flowmeters, we introduce a novel indirect technique based on
quantifying the gas bubble contents in a water column, which is capable of functioning in
severe environmental conditions. The method calculates the mean bubble fraction in a water-
gas mixture from the pressure difference along a fixed depth interval in a water column.
Laboratory tests indicate the nonlinear dependence of the bubble fraction on the flow rate,
which is confirmed by empirical models found in the chemical and nuclear engineering
literature. Application of the method in a pilot borehole shows a high correlation between the
bubble fraction and measured gas flow rate. This was specifically the case of two coseismic
anomalies in 2008 and 2014, when the flow rate rose during a seismic swarm to a multitude
of the pre-seismic level for several months and was followed by a long-term flow rate decline.
However, three more seismic swarms occurring in the same fault zone were not associated
with any significant CO2 flow anomaly. We surmise that this could be related to the slightly
farther distance of the hypocenters of these swarms than the two ones which caused the
coseismic CO2 flow rise. Further long-term CO2-flow monitoring is required to verify the
mutual influence of CO2 degassing and seismic activity in the area.

How to cite: Vlček, J., Fischer, T., and Lanzendörfer, M.: Monitoring natural CO2 flow in the mofettes of the West Bohemia seismoactive region, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-19156, https://doi.org/10.5194/egusphere-egu2020-19156, 2020

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