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{"title":"Mapping existing wellbore locations to compare technical risks between onshore and offshore CCS activities in Texas","authors":"Tip A. Meckel, Ramón H. Treviño, Susan D. Hovorka, Alex P. Bump","doi":"10.1002/ghg.2220","DOIUrl":null,"url":null,"abstract":"<p>Carbon dioxide capture and geologic storage (CCS; geologic sequestration) is a promising technology for reducing anthropogenic greenhouse gas emissions to the atmosphere from industrial point sources. Aspects of CCS have been investigated for over two decades, and many large- and small-scale geologic storage field demonstration projects are now underway globally. Interest in offshore CCS has been increasing in recent years (e.g., European Union, Australia, Japan, and the United States). Deep geologic storage in offshore settings is analogous to onshore CCS activities in many respects (i.e., geologic and geotechnical aspects), but is distinct from previously explored seabed sediment CO<sub>2</sub> storage) or deep marine dissolution). Given the large subsurface geologic storage volumes available in offshore settings, much discussion of offshore CCS is focused on the benefits and risks of such activity compared to onshore settings. Similar to onshore settings, existing (legacy) wells likely present the most direct migration pathway and largest risk of noncontainment in offshore settings. As part of current studies to evaluate geologic storage options in offshore settings along the Texas coast and greater Gulf of Mexico (GoM), mapping of the geographic distribution and ages of wells in a region containing coastal counties and extending 30 miles offshore Texas indicates that both well spatial density and well age decrease moving from onshore to offshore. Results suggest reduced risk of leakage owing to more rigorous and documented well completion and abandonment practices for these generally younger wells (although many are decades old). A result of decreased well density is that larger areas are available for leasing for CCS projects that avoid legacy wells altogether (> 1 mile from any existing well). The one-mile designation is used as an arbitrary convention, and while it is recognized that this is smaller than a typical area of review (AoR) for permitting, each site will have a different AoR radius for consideration. The combination of large subsurface storage volumes under control of a single landowner and reduced risks from legacy wells makes offshore CCS attractive in the GoM. © 2023 Society of Chemical Industry and John Wiley & Sons, Ltd.</p>","PeriodicalId":12796,"journal":{"name":"Greenhouse Gases: Science and Technology","volume":"13 3","pages":"493-504"},"PeriodicalIF":2.7000,"publicationDate":"2023-04-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Greenhouse Gases: Science and Technology","FirstCategoryId":"93","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/ghg.2220","RegionNum":4,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"ENERGY & FUELS","Score":null,"Total":0}
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Abstract
Carbon dioxide capture and geologic storage (CCS; geologic sequestration) is a promising technology for reducing anthropogenic greenhouse gas emissions to the atmosphere from industrial point sources. Aspects of CCS have been investigated for over two decades, and many large- and small-scale geologic storage field demonstration projects are now underway globally. Interest in offshore CCS has been increasing in recent years (e.g., European Union, Australia, Japan, and the United States). Deep geologic storage in offshore settings is analogous to onshore CCS activities in many respects (i.e., geologic and geotechnical aspects), but is distinct from previously explored seabed sediment CO2 storage) or deep marine dissolution). Given the large subsurface geologic storage volumes available in offshore settings, much discussion of offshore CCS is focused on the benefits and risks of such activity compared to onshore settings. Similar to onshore settings, existing (legacy) wells likely present the most direct migration pathway and largest risk of noncontainment in offshore settings. As part of current studies to evaluate geologic storage options in offshore settings along the Texas coast and greater Gulf of Mexico (GoM), mapping of the geographic distribution and ages of wells in a region containing coastal counties and extending 30 miles offshore Texas indicates that both well spatial density and well age decrease moving from onshore to offshore. Results suggest reduced risk of leakage owing to more rigorous and documented well completion and abandonment practices for these generally younger wells (although many are decades old). A result of decreased well density is that larger areas are available for leasing for CCS projects that avoid legacy wells altogether (> 1 mile from any existing well). The one-mile designation is used as an arbitrary convention, and while it is recognized that this is smaller than a typical area of review (AoR) for permitting, each site will have a different AoR radius for consideration. The combination of large subsurface storage volumes under control of a single landowner and reduced risks from legacy wells makes offshore CCS attractive in the GoM. © 2023 Society of Chemical Industry and John Wiley & Sons, Ltd.
绘制现有井筒位置,以比较德克萨斯州陆上和海上CCS活动之间的技术风险
二氧化碳捕获和地质封存(CCS);地质封存是一种很有前途的技术,可以减少工业点源向大气排放的人为温室气体。CCS的各个方面已经研究了20多年,许多大型和小型的地质储存现场示范项目正在全球范围内进行。近年来,对海上CCS的兴趣一直在增加(例如,欧盟、澳大利亚、日本和美国)。海上环境中的深层地质储存在许多方面类似于陆上CCS活动(即地质和岩土工程方面),但不同于以前探索的海底沉积物(二氧化碳储存)或深海海洋溶解。鉴于海上环境中有大量的地下地质储存量,与陆上环境相比,关于海上CCS的讨论主要集中在此类活动的收益和风险上。与陆地环境类似,现有(遗留)井在海上环境中可能存在最直接的运移路径和最大的非密封风险。作为目前评估德克萨斯州海岸和墨西哥湾(GoM)海上环境地质储存选择的研究的一部分,对德克萨斯州沿海县和离岸30英里的区域的地理分布和井龄进行了测绘,结果表明,从陆上到海上,井的空间密度和井龄都在下降。结果表明,由于对这些通常较年轻的井(尽管许多井已有几十年的历史)进行了更严格的完井和弃井作业,因此降低了泄漏风险。井密度降低的结果是,CCS项目可以租赁更大的区域,从而完全避免了旧井。距离任何现有油井1英里)。一英里的指定是一种随意的惯例,虽然人们认识到这比典型的审查区域(AoR)要小,但每个站点都有不同的AoR半径供考虑。一个土地所有者可以控制大量的地下储存量,并且降低了传统油井的风险,这使得海上CCS在墨西哥湾具有吸引力。©2023化学工业协会和John Wiley &儿子,有限公司
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