Geochemical modeling of the evaporation process in salinized reservoirs in the semi-arid region of Northeastern Brazil

Pub Date : 2022-01-01 DOI:10.1590/2318-0331.272220220018
A. Monteiro, Eveline Leal da Silva, Nívia Raquel Oliveira Alencar, Crislaine Melo Cardoso, Igor Santos Silva, Roseane dos Santos Nascimento, J. Alves
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Abstract

ABSTRACT The geochemical characterization of saline water in reservoirs located in semi-arid regions is an important issue to be addressed, as it allows us to understand the deterioration of water quality caused by evaporation. In this study, the Gibbs diagram, ionic ratios and geochemical modeling were employed to decipher the geochemical processes that affect the chemical water evolution of three saline reservoirs located in the semi-arid region of Sergipe state, Northeastern Brazil. The reservoirs geochemical processes mainly include sea salt dissolution, silicate weathering, ion exchange, with a limited contribution from the dissolution of carbonates. Geochemical modeling confirmed that evaporation-crystallization is the main mechanism that controls the chemical composition of water, leading to increased concentrations of Na+, Mg2+, Ca2+ and Cl-, and reduction of HCO3- by precipitation of calcite and dolomite. Furthermore, the simulated models reproduced the trend observed in the real hydrochemical data and indicated excellent agreement between the simulated ion concentrations and the real ion concentrations for most of the larger ions. The highest deviation was observed for HCO3 whose actual concentrations were much higher than those predicted by the modeling, attributed to kinetic restrictions concerning calcite precipitation.
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巴西东北部半干旱区盐渍化水库蒸发过程的地球化学模拟
半干旱区水库含盐水的地球化学特征是一个重要的研究问题,因为它可以让我们了解蒸发引起的水质恶化。本文采用Gibbs图、离子比和地球化学模型对巴西东北部Sergipe州半干旱区3个含盐储层化学水演化的地球化学过程进行了解析。储层地球化学过程主要包括海盐溶蚀、硅酸盐风化、离子交换等,碳酸盐溶蚀作用贡献有限。地球化学模拟证实,蒸发结晶是控制水化学成分的主要机制,导致Na+、Mg2+、Ca2+和Cl-浓度增加,并通过方解石和白云石的沉淀减少HCO3-。此外,模拟模型再现了实际水化学数据中观察到的趋势,并表明大多数大离子的模拟离子浓度与实际离子浓度非常吻合。由于方解石沉淀的动力学限制,观测到的HCO3的实际浓度比模型预测的高得多,偏差最大。
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