The Importance of Baseline Surveys of Near-Surface Gas Geochemistry for CCS Monitoring, as Shown from Onshore Case Studies in Northern and Southern Europe

S. Beaubien, L. Ruggiero, A. Annunziatellis, S. Bigi, G. Ciotoli, P. Deiana, S. Graziani, S. Lombardi, M. C. Tartarello
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引用次数: 27

Abstract

The monitoring of the integrity of onshore geological carbon capture and storage projects will require an approach that integrates various methods with different spatial and temporal resolutions. One method proven to be quite effective for site assessment, leakage monitoring, and leakage verification is near-surface gas geochemistry, which includes soil gas concentration and gas flux measurements. Anomalous concentrations or fluxes, relative to the natural background values, can indicate the potential occurrence of a leak. However the natural background can be quite variable, especially for CO2 , due to biological production and accumulation in the soil that changes as a function of soil type, land use, geology, temperature, water content, and various other parameters. To better understand how these parameters influence natural, near-surface background values, and to examine the potential of different sampling strategies as a function of the survey goals, this paper reports results from two highly different case studies, one from northern Europe (Voulund, Denmark) and one from southern Europe (Sulcis, Sardinia, Italy). The small Voulund site, with its homogeneous soil, climate, and topography, was surveyed twice (in fall and in spring) within the EU-funded SiteChar project to examine the effects of different land use practices and seasons on baseline values. Forested land was found to have lower CO2 concentrations during both campaigns compared to cultivated and heath land, and higher CH4 values during the spring sampling campaign. Continuous monitoring probes showed much more detail, highlighting seasonal changes in soil gas CO2 concentrations linked primarily to temperature variations. The much larger Sulcis site, studied within an ENEA-funded project on potential CO2 -ECBM (Enhanced Coal Bed Methane) deployment, was surveyed at the regional scale and on detailed grids and transects for site assessment purposes. Despite the completely different soil and climate conditions, the statistical distribution of the Sulcis data was similar to that of Voulund. Much higher soil gas CO2 anomalies were found at this site, however, due to the less permeable sediments (i.e., better water retention and greater gas accumulation) and the warmer temperatures. Detailed surveys at this site highlighted various significant anomalies, some of which can be explained by near surface biological processes, whereas others, especially helium anomalies, were more difficult to explain. These results show the utility of baseline surveys, and highlight the need for follow-up studies to clarify any unexplained anomalies before any CO2 storage.
北欧和南欧陆上案例研究表明,近地表气体地球化学基线调查对CCS监测的重要性
监测陆上地质碳捕获和封存项目的完整性需要一种将各种方法与不同的空间和时间分辨率相结合的方法。近地表气体地球化学是一种被证明对现场评估、泄漏监测和泄漏验证非常有效的方法,其中包括土壤气体浓度和气体通量测量。相对于自然背景值的异常浓度或通量可以表明可能发生泄漏。然而,由于土壤中的生物生产和积累随着土壤类型、土地利用、地质、温度、含水量和各种其他参数的变化而变化,自然背景可能是非常可变的,尤其是二氧化碳。为了更好地理解这些参数如何影响自然的近地表背景值,并检查作为调查目标函数的不同采样策略的潜力,本文报告了两个高度不同的案例研究的结果,一个来自北欧(丹麦的乌隆德),一个来自南欧(意大利撒丁岛的Sulcis)。在欧盟资助的SiteChar项目中,对沃隆德的小场地进行了两次(秋季和春季)调查,以检查不同土地利用方式和季节对基线值的影响。与耕地和荒地相比,林地在两次采样期间的CO2浓度都较低,而CH4值在春季采样期间较高。持续的监测探测器显示出更多的细节,强调了土壤气体二氧化碳浓度的季节性变化主要与温度变化有关。更大的Sulcis场址是在环境署资助的潜在二氧化碳-ECBM(强化煤层气)部署项目中研究的,该项目在区域范围内进行了详细的网格和横断面调查,以进行场址评估。尽管土壤和气候条件完全不同,但Sulcis数据的统计分布与Voulund相似。然而,由于沉积物渗透性较差(即水潴留较好,气体积聚较大)和温度较高,在该地点发现了更高的土壤气体CO2异常。在该地点进行的详细调查突出了各种重要的异常,其中一些可以用近地表生物过程来解释,而另一些,特别是氦异常,则更难解释。这些结果显示了基线调查的效用,并强调了在任何二氧化碳储存之前进行后续研究以澄清任何无法解释的异常的必要性。
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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