Surface Gas Geochemistry above the Natural CO2 Reservoir of Montmiral (Drôme, France), Source Tracking and Gas Exchange between the Soil, Biosphere and Atmosphere

Oil & Gas Science and Technology-revue De L Institut Francais Du Petrole Pub Date : 2010-07-01 DOI:10.2516/OGST/2009068

F. Gal, K. L. Pierrès, M. Brach, Gilles Braibant, C. Bény, A. Battani, E. Tocqué, Y. Benoit, E. Jeandel, Z. Pokryszka, A. Charmoille, G. Bentivegna, J. Pironon, P. Donato, C. Garnier, C. Cailteau, O. Barrès, G. Radilla, A. Bauer

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引用次数: 22

Abstract

One of the options considered to mitigate greenhouse gas concentrations in the atmosphere is underground storage of CO2 . There is a strong need for enhancing and developing methods that would help throughout the duration life of such underground storage, to ensure the safety and able to monitor the evolution of the injected CO2 plume. Among these, geochemical methods can play an important role. Here, we describe results acquired under the research programme “Geocarbone-Monitoring”, partially funded by the French National Research Agency, on the Montmiral natural analogue in South-Eastern France. Other results obtained under the same research programme in the French Massif Central are reported elsewhere in this volume.Spot sampling methods allowing a great geographical coverage and continuous measurements on selected points were undertaken in 2006 and 2007, in order to determine soil gas concentrations and fluxes as well as carbon isotope ratio determinations. One important result is that without any evidence of deep CO2 leakage, both CO2 concentrations and fluxes appear to be higher than can be explained only by biological activities. Further investigations are thus needed to understand the gas evolution better throughout the year.

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Montmiral天然CO2库(Drôme，法国)地表气体地球化学、来源追踪及土壤、生物圈和大气之间的气体交换

减少大气中温室气体浓度的选择之一是将二氧化碳储存在地下。迫切需要加强和发展有助于这种地下储存的整个生命周期的方法，以确保安全并能够监测注入的二氧化碳羽流的演变。其中，地球化学方法可发挥重要作用。在这里，我们描述了在法国国家研究机构部分资助的“地球碳监测”研究计划下获得的关于法国东南部Montmiral自然模拟物的结果。在同一研究计划下在法国中部山区获得的其他结果在本卷的其他地方报告。为确定土壤气体浓度和通量以及碳同位素比率，2006年和2007年采取了现场抽样方法，可在很大的地理范围内对选定的点进行连续测量。一个重要的结果是，在没有任何证据表明深层二氧化碳泄漏的情况下，二氧化碳浓度和通量似乎都高于仅用生物活动所能解释的水平。因此，需要进一步的调查来更好地了解全年的气体演化。

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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Oil & Gas Science and Technology-revue De L Institut Francais Du Petrole

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