{"title":"Parametric analysis of CO2 geologic sequestration in closed volumes","authors":"Srikanta Mishra, Y. Oruganti, J. Sminchak","doi":"10.1306/EG.03101413009","DOIUrl":null,"url":null,"abstract":"geologic sequestration has been recognized as a potential greenhouse gas mitigation strategy. Regional geologic storage in deep saline formations will likely involve the injection of to 100 million metric tons (11 to 110 million tons) of per year using a network of to 50 wells over an area covering sq. miles (). Some of the wells will be injecting into closed volumes because of symmetry, thus providing the bounding case in terms of pressurization and brine efflux. This study describes a parametric analysis of the problem using characteristics typical of the Arches Province in the United States Midwest where Paleozoic rocks form broad arch and platform structures. Two-dimensional radial-cylindrical models developed with the numerical simulator STOMP (Subsurface Transport Over Multiple Phases) are utilized to investigate the impact of well spacing, injection depth, and reservoir characteristics of the injection zone (Mount Simon) and cap rock (Eau Claire) on system performance. Multiple linear regression analysis is then used to develop correlation equations between these design variables and performance metrics, such as cumulative -mass injected and -plume extent. The correlations are tested on new synthetic test sites, and are found to predict the performance metrics quite accurately. These results serve as a proxy simulator to quickly evaluate various design options, instead of having to run time-consuming numerical simulations, and can therefore be applied for developing optimal injection strategies for regional storage in the Arches Province.","PeriodicalId":11706,"journal":{"name":"Environmental Geosciences","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2014-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"4","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Environmental Geosciences","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1306/EG.03101413009","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"Earth and Planetary Sciences","Score":null,"Total":0}
引用次数: 4
Abstract
geologic sequestration has been recognized as a potential greenhouse gas mitigation strategy. Regional geologic storage in deep saline formations will likely involve the injection of to 100 million metric tons (11 to 110 million tons) of per year using a network of to 50 wells over an area covering sq. miles (). Some of the wells will be injecting into closed volumes because of symmetry, thus providing the bounding case in terms of pressurization and brine efflux. This study describes a parametric analysis of the problem using characteristics typical of the Arches Province in the United States Midwest where Paleozoic rocks form broad arch and platform structures. Two-dimensional radial-cylindrical models developed with the numerical simulator STOMP (Subsurface Transport Over Multiple Phases) are utilized to investigate the impact of well spacing, injection depth, and reservoir characteristics of the injection zone (Mount Simon) and cap rock (Eau Claire) on system performance. Multiple linear regression analysis is then used to develop correlation equations between these design variables and performance metrics, such as cumulative -mass injected and -plume extent. The correlations are tested on new synthetic test sites, and are found to predict the performance metrics quite accurately. These results serve as a proxy simulator to quickly evaluate various design options, instead of having to run time-consuming numerical simulations, and can therefore be applied for developing optimal injection strategies for regional storage in the Arches Province.
地质封存已被认为是一种潜在的温室气体减缓战略。深层盐碱层的区域地质储存可能涉及每年注入1亿公吨(11至1.1亿吨)的天然气,在占地面积为平方英尺的区域内使用50口井组成的网络。英里()。由于对称性,一些井将注入到封闭的体积中,从而提供了加压和盐水射流方面的边界情况。本文利用美国中西部拱省的典型特征对该问题进行了参数化分析,该地区古生代岩石形成了宽阔的拱台结构。利用数值模拟器STOMP (Subsurface Transport Over Multiple Phases)开发的二维径向-圆柱形模型,研究井距、注入深度、注入区(Mount Simon)和盖层(Eau Claire)的储层特征对系统性能的影响。然后使用多元线性回归分析来建立这些设计变量与性能指标(如累积注入质量和烟羽范围)之间的相关方程。相关性在新的合成测试站点上进行了测试,并且发现可以相当准确地预测性能指标。这些结果可以作为代理模拟器来快速评估各种设计方案,而不必进行耗时的数值模拟,因此可以应用于开发arch省区域存储的最佳注入策略。