Building an EPA Class VI Permit Application

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS
G. Koperna, D. Riestenberg, J. Leierzapf, B. Roth, R. Esposito, K. Sams Gray
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引用次数: 0

Abstract

To accelerate the commercialization of carbon capture and storage (CCS), the US Department of Energy (US DOE) is building on decades of characterization efforts and pilot-scale projects through their CarbonSAFE program. Administered through their National Energy Technology Laboratory, this program seeks to bring fully integrated projects to the sector that can store more than 50 million tonnes of CO2 over a 30-year period. The program, which was enacted before the enhancement of Internal Revenue Code Section 45Q, is in the capture assessment, characterization, and permitting phase. The objectives of this paper are to discuss (a) the injection permitting requirements of the CarbonSAFE projects; (b) information gathering in support of the permit; (c) the timelines of field development and permit-related activities; (d) the major technical components of the field development plan; and (e) early feedback from the regulators toward acceptance of the permit. In Mississippi, more than 30,000 acres have been characterized by six deep characterization wells, a deep groundwater well, and 92 line miles of 2D seismic as part of the CarbonSAFE Project ECO2S. During the acquisition of seismic data, all receiver lines were live, which resulted in the generation of a pseudo-3D seismic design. The incorporation of a 3D seismic survey was not included as part of this project due to logistical difficulties presented by the undulating, wooded surface terrain. A suite of openhole geophysical logs was taken from each well, allowing for a detailed interpretation of prospective storage reservoirs and confining intervals to complement the analysis carried out on the 290 ft of a whole core that was cut through the prospective confining zone and storage reservoir. The detailed geologic and reservoir data were assembled and entered into a 3D model to assess the injection capacity and the area of review (AoR). This information fed into the detailed corrective action, monitoring, testing, and postinjection site care (PISC) modeling. The results have been exceptional. The geologic assessment has revealed three primary storage targets, ranging in depth from 3,500 ft to 6,000 ft. These storage reservoirs net 1,300 ft of sandstone, with mean porosity and permeability of 29% and 3.6 darcies, respectively. Together, these reservoirs have storage capacities that may exceed 20 million tonnes per square mile, making this a gigatonne prospect. Forward modeling of the project resulted in an AoR of 16 sq miles, injecting about 8000 t/d, for 30 years, via two deep injection wells. The excellent confining characteristics of the caprock, relatively simple geologic structure, and lack of historical well drilling activity in this area provide excellent containment of the injected CO2. Based on this work, the project has proposed 20 years of PISC. To date, only two US CO2 injection permits have been granted. These projects relied on a singular capture point feeding a singular sequestration point (source to sink), and considerations have not been made to garner CO2 emissions from other industrial sources. The Kemper County Storage Complex is a first-of-its-kind storage hub concept that looks to develop an area capable of storing significant quantities of CO2 from the region. Also, this work will show how characterization efforts, geological and numerical modeling efforts, and plan development were constructed in support of permit and incentives acceptance.
建立一个EPA类VI许可证申请
为了加速碳捕集与封存(CCS)的商业化,美国能源部(US DOE)正在通过其CarbonSAFE计划,在数十年的表征工作和试点规模项目的基础上继续努力。该项目由美国国家能源技术实验室管理,旨在为该行业带来全面整合的项目,这些项目可在30年内储存超过5000万吨二氧化碳。该计划是在《国内税收法典》第45Q条加强之前制定的,目前正处于捕获评估、表征和许可阶段。本文的目的是讨论:(a) CarbonSAFE项目的注入许可要求;(b)为支持许可证而收集的资料;(c)油田开发和许可证相关活动的时间表;(d)外地发展计划的主要技术组成部分;(e)监管机构对接受许可的早期反馈。作为CarbonSAFE项目ECO2S的一部分,在密西西比州有超过30,000英亩的土地,包括6口深特征井、1口深地下水井和92英里的2D地震线。在采集地震数据的过程中,所有接收线都是带电的,这导致了伪三维地震设计的生成。由于地形起伏、树木茂密,后勤保障存在困难,因此3D地震勘测并未纳入该项目。每口井都采集了一套裸眼地球物理测井数据,可以对预期储层和围储层进行详细的解释,以补充对穿过预期围储层和储层的290英尺的整个岩心进行的分析。收集详细的地质和储层数据,并将其输入3D模型,以评估注入能力和审查面积(AoR)。这些信息被输入到详细的纠正措施、监控、测试和注射后的现场护理(PISC)建模中。结果非常好。地质评估显示了三个主要储层目标,深度从3500英尺到6000英尺不等。这些储层的砂岩厚度为1300英尺,平均孔隙度和渗透率分别为29%和3.6英尺。这些水库的总储存能力可能超过每平方英里2000万吨,这使其成为十亿吨的前景。该项目的正演模拟结果显示,AoR为16平方英里,通过两口深注井注入约8000t /d,持续30年。该地区盖层良好的围封特征、相对简单的地质结构以及历史上缺乏钻井活动,为注入的二氧化碳提供了良好的密封。在此基础上,本项目提出了20年的PISC。迄今为止,美国只批准了两项二氧化碳注入许可。这些项目依赖于一个单一的捕集点供给一个单一的封存点(从源到汇),而没有考虑从其他工业来源收集二氧化碳排放。肯珀县存储综合体是首个此类存储中心概念,旨在开发一个能够存储该地区大量二氧化碳的区域。此外,这项工作将展示如何进行表征工作、地质和数值模拟工作以及计划开发,以支持许可和激励措施的接受。
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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来源期刊
CiteScore
5.30
自引率
0.00%
发文量
68
审稿时长
12 months
期刊介绍: Covers the application of a wide range of topics, including reservoir characterization, geology and geophysics, core analysis, well logging, well testing, reservoir management, enhanced oil recovery, fluid mechanics, performance prediction, reservoir simulation, digital energy, uncertainty/risk assessment, information management, resource and reserve evaluation, portfolio/asset management, project valuation, and petroleum economics.
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