The hydrothermal system of Bagni San Filippo (Italy): fluids circulation and CO2 degassing

Bollettino Della Societa Geologica Italiana Pub Date : 2020-10-01 DOI:10.3301/ijg.2020.12

G. Chiodini, C. Cardellini, S. Caliro, R. Avino, M. Donnini, D. Granieri, N. Morgantini, D. Sorrenti, F. Frondini

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引用次数: 10

Abstract

Bagni San Filippo area is characterized by the discharge of thermal waters and deeply produced CO2-rich gases both from vents and soil diffuse degassing. The thermal waters are the results of the mixing between meteoric waters and hot fluids deriving from the condensation, at depth, of vapours uprising from a deep hydrothermal reservoir. This process gives rise to a relatively shallow thermal system at temperature close to 50°C, characterized by SO4-rich and Cl-poor waters and elevated PCO2 (~7 bar). Most of the incondensable gas of deep originated vapour is released as a free gas phase forming cold gas vents and localized spots of anomalous CO2 diffuse degassing. The location and the shape of these degassing zones are strongly controlled by the main tectonic structures of the area. Through detailed soil diffuse degassing surveys and hydrogeochemical modelling, we estimate at 226-326 t d-1 and at 965 t d-1 the deep CO2 emission and the amount of condensates discharged by the thermal springs, respectively. The thermal energy associated to the process results at ~ 29 MW, most of which (~ 25 MW) is associated with condensation occurring at depths greater than groundwater circulation.

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意大利Bagni San Filippo热液系统:流体循环与CO2脱气

Bagni - San Filippo地区的特点是热泉的排放和深层产生的富co2气体是由喷口和土壤扩散脱气共同产生的。热水是大气水和热流体混合的结果，热流体是由深海热液储层中升起的蒸汽在深处凝结而成的。这一过程产生了一个相对较浅的热系统，温度接近50°C，其特征是水体富含so4而缺乏cl，二氧化碳分压升高(~7 bar)。深层起源蒸汽的大部分不凝性气体作为自由气相释放，形成冷气口和局部异常CO2扩散脱气点。这些脱气带的位置和形状受该地区主要构造的强烈控制。通过详细的土壤扩散脱气调查和水文地球化学模拟，我们分别估算了226 ~ 326 t d-1和965 t d-1时温泉深层CO2排放量和凝析油排放量。与该过程相关的热能为~ 29 MW，其中大部分(~ 25 MW)与发生在地下水循环深度以上的冷凝有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bollettino Della Societa Geologica Italiana

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