CO2帯水層貯留での「地層水」の役割とわが国でのCO2地化学トラッピングへの適用性

Chigaku Zasshi (jounal of Geography) Pub Date : 2008-08-25 DOI:10.5026/JGEOGRAPHY.117.768

康子奥山, 宗建佐々木, 洋文村岡, 信行金子, 正夫徂徠

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引用次数: 4

Abstract

The geochemical characteristics of deep groundwater, or formation water, are essential in all processes of geochemical trapping in an open aquifer CO2 storage. We have been constructing a database of groundwater chemical compositions in deep aquifers in Japan (“Formation-water database”). The database have two major objectives; (1) to be a dataset on groundwater of reservoir depths for evaluating CO2 solubility; and, (2) providing model water compositions for geochemical modeling and experiments in our study of underground CO2 storage. More than 2600 datasets are collected from literature on geochemistry of groundwater reported from 10 selected areas in Japan; the areas of investigation include populated cities in which large point sources of CO2 are located. The accumulated data indicate that groungwater of reservoir depth (>800m) is generally dilute in composition compared to average seawater, suggesting a high potential of CO2 solubility. Systematic geochemical differences are also observed between groundwater hosted in marine and freshwater sediments.

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“地层水”在CO2含水层蓄留中的作用和在我国CO2化学补漏的适用性

深层地下水或地层水的地球化学特征在开放含水层二氧化碳封存的所有地球化学捕获过程中都是必不可少的。我们一直在建设日本深层含水层地下水化学成分数据库(“地层-水数据库”)。数据库有两个主要目标;(1)成为评价CO2溶解度的水库深度地下水数据集;(2)为地下CO2储存的地球化学模拟和实验提供模型水成分。从日本10个选定地区报告的地下水地球化学文献中收集了2600多个数据集;调查的地区包括人口稠密的城市，那里有大量的二氧化碳点源。累积数据表明，与平均海水相比，水库深度(>800m)的地下水成分普遍较稀，具有较高的CO2溶解度潜力。在海洋和淡水沉积物中所含地下水之间也观察到系统的地球化学差异。

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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Chigaku Zasshi (jounal of Geography)

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