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Nanoparticles Technology for Improving Steam-Assisted Gravity Drainage Process Performance: A Review
Industrial & Engineering Chemistry Research ( IF 3.8 ) Pub Date : 2024-07-16 , DOI: 10.1021/acs.iecr.4c01377 Luis Prada 1 , Jesus Botett 1 , M. Daniela Contreras−Mateus 1 , Afif Hethnawi 1 , Saleh S. Baakeem 1 , Nashaat N. Nassar 1
Industrial & Engineering Chemistry Research ( IF 3.8 ) Pub Date : 2024-07-16 , DOI: 10.1021/acs.iecr.4c01377 Luis Prada 1 , Jesus Botett 1 , M. Daniela Contreras−Mateus 1 , Afif Hethnawi 1 , Saleh S. Baakeem 1 , Nashaat N. Nassar 1
Affiliation
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The increase in energy demand and the dynamics of the energy transition have changed the perspectives and opportunities within the oil and gas sector. This revolutionary scenario has resulted in sustainable and consolidated strategies, exemplified by the development of enhanced oil recovery (EOR) methods within the improved oil recovery (IOR) scheme, and specifically for this Review study in the steam-assisted gravity drainage (SAGD) techniques. The selection and impact of the EOR methods, as well as the expected recovery, rely on multiple factors, encompassing economic, environmental, and technological considerations. The above has led to the simultaneous appearance of uncertainties and difficulties that are continuously challenging the ranking of the oil sector in the global energy market. Against this background, nanotechnology has been established as a feasible strategy to be integrated into multiple stages of the oil supply chain. This Review study has focused on highlighting the synergistic trends of nanotechnology, steam, and oil recovery by conducting bibliometric analysis, where a tendency of the number of publications has increased in the last three years, as evidence of the application of nanotechnology in the oil industry. We have also carried out comprehensive discussions on the most widely implemented conventional thermal oil recovery methods with the dual purpose of explaining their methodologies and, at the same time, highlighting their inherent limitations and the imperative requirements to optimize them. In this direction, we have presented an in-depth exploration of the physicochemical mechanisms of action of nanoparticles to underscore the prospects for their applications in the EOR technologies. Finally, we contextualized the economic and technical feasibility of incorporating nanoparticles into industry, alongside advancements in simulation studies, presented as robust and cost-effective research alternatives, offering a more well-founded perspective on the scalability of nanoparticle technology.
中文翻译:
提高蒸汽辅助重力排水工艺性能的纳米颗粒技术:综述
能源需求的增加和能源转型的动态改变了石油和天然气行业的前景和机遇。这一革命性的方案催生了可持续和综合的战略,例如在提高采收率 (IOR) 方案中开发提高采收率 (EOR) 方法,特别是蒸汽辅助重力泄油 (SAGD) 技术的本综述研究。 EOR 方法的选择和影响以及预期采收率取决于多种因素,包括经济、环境和技术考虑因素。上述因素导致不确定性和困难同时出现,不断挑战石油行业在全球能源市场的排名。在此背景下,纳米技术已成为整合到石油供应链多个阶段的可行策略。本综述研究的重点是通过文献计量分析来强调纳米技术、蒸汽和石油采收的协同趋势,其中出版物数量在过去三年中呈增加趋势,作为纳米技术在石油工业中应用的证据。我们还对最广泛实施的常规热采油方法进行了全面的讨论,其双重目的是解释其方法,同时强调其固有的局限性和优化它们的迫切要求。在这个方向上,我们对纳米粒子的物理化学作用机制进行了深入探索,以强调其在 EOR 技术中的应用前景。 最后,我们将纳米颗粒纳入工业的经济和技术可行性以及模拟研究的进展作为稳健且具有成本效益的研究替代方案提出,为纳米颗粒技术的可扩展性提供了更有根据的视角。
更新日期:2024-07-16
中文翻译:
提高蒸汽辅助重力排水工艺性能的纳米颗粒技术:综述
能源需求的增加和能源转型的动态改变了石油和天然气行业的前景和机遇。这一革命性的方案催生了可持续和综合的战略,例如在提高采收率 (IOR) 方案中开发提高采收率 (EOR) 方法,特别是蒸汽辅助重力泄油 (SAGD) 技术的本综述研究。 EOR 方法的选择和影响以及预期采收率取决于多种因素,包括经济、环境和技术考虑因素。上述因素导致不确定性和困难同时出现,不断挑战石油行业在全球能源市场的排名。在此背景下,纳米技术已成为整合到石油供应链多个阶段的可行策略。本综述研究的重点是通过文献计量分析来强调纳米技术、蒸汽和石油采收的协同趋势,其中出版物数量在过去三年中呈增加趋势,作为纳米技术在石油工业中应用的证据。我们还对最广泛实施的常规热采油方法进行了全面的讨论,其双重目的是解释其方法,同时强调其固有的局限性和优化它们的迫切要求。在这个方向上,我们对纳米粒子的物理化学作用机制进行了深入探索,以强调其在 EOR 技术中的应用前景。 最后,我们将纳米颗粒纳入工业的经济和技术可行性以及模拟研究的进展作为稳健且具有成本效益的研究替代方案提出,为纳米颗粒技术的可扩展性提供了更有根据的视角。
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