Sustainable crude oil recovery: Advancing technology in microbial souring control and microbial enhanced oil recovery

可持续原油采收：微生物酸化控制和微生物采收率先进技术

• 批准号: 531772-2018
• 负责人: Gieg, Lisa
• 金额: $ 7.37万
• 依托单位: University of Calgary
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=692848
• 关键词: Sustainable; crude; oil; recovery; Advancing

Microorganisms that naturally inhabit oil reservoirs can contribute negatively or positively to oil and gas industry operations. On the negative side, sulfate-reducing microorganisms that convert sulfate to sulfide contribute to reservoir souring, pipeline corrosion, and detrimental health impacts. On the positive side, the metabolic activities of reservoir-associated microorganisms may contribute to sustainable, enhanced oil recovery. Building on previous findings, the proposed project will focus on advancing (1) the control of souring and (2) MEOR technology with an emphasis on conducting research at high temperature and in the presence of crude oil. In the area of souring control, the contributions of microbial activities to reservoir souring at high or low temperature will be determined. New nitrate and biocide combinations will be examined to alleviate souring, focusing on high temperature fields. In the area of MEOR, various microbial activities will be explored to enhance oil production at high and low temperatures by using commercially-available and inexpensive substrates or biodegradable oil components to promote microbial growth and activity. We will also test the efficacy of existing methods, such as the use of hydrocarbon or solvent application, to enhance oil production at selected oil fields. The outcome of the proposed project will help (1) to mitigate sulfide-induced pipeline corrosion, souring, and detrimental health impacts of sulfide; (2) to extend the production life of conventional oil production; and (3) to improve production water recycling and efficient oil production with minimal environmental impact. These activities will be of high benefit to our industry partners (Enerplus, Yara, and Baker Hughes, a GE Company) by (1) providing a better understanding of the underlying factors driving souring and MEOR, and (2) developing enhanced technologies for preventing souring and recovering fossil energy in a sustainable manner. Further, trainees undertaking this project will contribute to the responsible development of Canada's fossil fuel resources. Overall, the project is of high benefit to the energy industry, the Canadian economy, and the general public who demand safe and reliable energy sources.

自然栖息在油藏中的微生物可以对石油和天然气工业的运营产生负面或正面的影响。在消极的一面，将硫酸盐转化为硫化物的硫酸盐还原微生物有助于储层酸化，管道腐蚀和有害的健康影响。从积极的方面来看，与石油相关的微生物的代谢活动可能有助于可持续的提高石油采收率。在以前研究结果的基础上，拟议项目将侧重于推进（1）酸化控制和（2）MEOR技术，重点是在高温和原油存在的情况下进行研究。在酸化控制方面，将确定微生物活动在高温或低温下对储层酸化的贡献。将研究新的硝酸盐和杀菌剂组合，以减轻酸化，重点是高温领域。在MEOR领域，将探索各种微生物活性，通过使用商业上可获得的和廉价的底物或可生物降解的油组分来促进微生物生长和活性，以提高在高温和低温下的石油产量。我们还将测试现有方法的有效性，例如使用碳氢化合物或溶剂应用，以提高选定油田的石油产量。拟议项目的成果将有助于（1）减轻硫化物引起的管道腐蚀、酸化和硫化物对健康的有害影响;（2）延长传统石油生产的生产寿命;（3）改善生产水循环和高效石油生产，同时将环境影响降至最低。 这些活动将使我们的行业合作伙伴（Enerplus、Yara和Baker Hughes，一家通用电气公司）受益匪浅，因为（1）更好地了解了驱动酸化和MEOR的潜在因素，（2）开发了预防酸化和以可持续方式回收化石能源的增强技术。 此外，参加这一项目的受训人员将有助于负责任地开发加拿大的化石燃料资源。 总体而言，该项目对能源行业、加拿大经济以及要求安全可靠能源的公众都有很高的效益。