油气行业尽早投入CCUS研发:深思熟虑的努力

R. Tewari, M. Sedaralit, B. Lal
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引用次数: 3

摘要

石油和天然气工业是一个技术含量很高的行业,涉及从勘探到产品生产和利用的各种科学技术学科的合作。持续的研究和技术发展提高了该行业的成功。石油和天然气将继续在总能源结构中发挥重要作用,因为它们价格合理且易于使用。基础设施和设施,即钻井平台、管道、套管和管、平台和其他工业生产的化学品也造成了大量的温室气体排放。石油和天然气的使用增加导致大气中温室气体的排放,导致地球温度上升,这是气候变化的主要原因。随着天然气需求的不断增长,开发受污染的大气田是必要的,这将进一步显著增加温室气体的产量。天然气将成为从传统能源到可再生能源的过渡燃料。人们了解气候科学,专家们认为,目前和未来温室气体排放的增加将对环境产生灾难性的影响。它必须被控制和产生受污染的气体,需要安全储存并为人类利用。通过减少工业运作和消费者使用能源产生的温室气体排放,提高能源效率和环境的可持续性。碳捕获、分离、运输、储存和利用已经从小规模开始。石油行业迫切需要提高CCUS的性能,迎接未来的挑战。必须加强对温室气体捕获、利用和储存的基础研究,以改进这一过程。技术刺激科学,科学刺激技术,两者都刺激过程的效率,这是一个事实。正因为如此,为了获得更好的绩效,油气公司正在投资和追求碳捕集利用与封存(CCUS)的控制和管理的研究与开发。本文论述了近几十年来CCUS在二氧化碳的分离、运输、地下储存的物理和化学以及将二氧化碳转化为可用产品等基本问题上的积极研究和开发成果。为提高沉淀碳酸钙(PCC)、醇和甲烷生成等产品的效率和成本效益而进行的基础和应用研究的科学成果和发现。将介绍并强调CO2在地下的超临界行为、封存期间和封存后的地质力学和地球化学变化、增强捕获机制、H2S对CO2封存的影响、污染物分离科学的理解和方法的改进领域。
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Pitching Early for CCUS Research and Development in Oil & Gas Industry: A Well Thought Endeavor
The oil and gas industry, a highly technical industry, involves a collaboration of various disciplines of science and technology from exploration to production and utilization of the products. Continuous research and technology developments have improved the success of the industry. Oil and Gas will continue to play important role in the total energy mix due to their affordability and easiness of use. The infrastructure and facilities viz, drilling rigs, pipeline, casing and tubular, platforms and chemical produced from other industries also contribute significant greenhouse gas (GHG) emission. Increased use of oil & gas is causing the emission of GHG in the atmosphere causing temperature rise of the earth which is a major cause for climate change. The increasing demand for natural gas is necessitating the development of giant contaminated gas fields which will further increase GHG production significantly. Natural gas would be the transition fuel from conventional to renewable energy sources. Climate science is understood, and experts are of the view that current and enhanced future emissions of GHG will have a catastrophic effect on the environment. It has to be controlled and produced contaminated gases need to be stored safely and utilized for humanity. Improvement in energy efficiency and environmental sustainability by reduction of greenhouse gas emissions from the industrial operations as well as from energy use by consumers is picking up. Carbon capture, separation, transportation, storage, and utilization has started at a small scale. There is an urgent need to improve yesterday’s performance and meet tomorrow’s challenge in CCUS in the petroleum industry. Fundamental research for capturing, utilization and storage of GHG has to be enhanced for improvising the processes. It is a fact that technology stimulates science, science stimulates technology, and both stimulate the efficiency of the process. Because of this, success mantra and objective for better performance, oil and gas companies are investing and pursuing research and development for controlling and managing the carbon capture utilization and storage (CCUS). This paper discusses the result of active Research and Development of CCUS which is being pursued for the last decades for fundamental issues of separation of carbon dioxide, transportation, subsurface storage physics & chemistry and utilization of the CO2 into usable products. Scientific results and findings of basic and applied research for better efficiency and cost-effectiveness of the products like precipitated calcium carbonate (PCC), alcohols and methane generation by Methanogenesis. Supercritical behavior of CO2 in subsurface, geomechanical and geochemical changes during and after storage, enhancing trapping mechanism, the effect of H2S on CO2 storage and understanding the science of contaminant separation and areas of improvement in methodologies will be presented and highlighted.
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