油藏储注二氧化碳提高采收率分析

IF 0.1 4区 管理学 Q4 BUSINESS Betriebswirtschaftliche Forschung Und Praxis Pub Date : 2018-12-01 DOI:10.29252/bfup.9.4.6
M. Roozegar, S. Hoseini
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引用次数: 0

摘要

已经提出了几种方法来减少二氧化碳的传播,以增加地球大气中二氧化碳气体的密度,例如为了地下开采和储存而产生的二氧化碳泛滥,化石燃料的消耗导致全世界产生了270亿吨二氧化碳,随之而来的是对环境的许多不利影响。因此,提出控制和减少温室气体传播的策略被认为是最重要的研究重点之一,其中温室气体的传播和在地质地层中注入温室气体是减少温室气体传播的最重要技术之一。这个过程是一个早期有效的过程,可以减少这种气体在大气中的大量传播。在该技术中,二氧化碳从传播源中提取,通过管道输送到注入部位,并通过注入井储存在地下地层中。另一方面,将该过程与石油过度开采操作联系起来是使CO2储气过程经济的方法之一。在这个过程中,大量的二氧化碳被注入到储层中,这增加了石油的采收率,从成本效益的角度来看,完全证明了这种操作是合理的。研究表明,如果在最佳条件下(合适的注入模式和操作条件,以净化方式)向储层注入CO2,不仅可以产生大量储层剩余的石油,而且可以为大量的温室气体的储存和防止浪费做好准备。二氧化碳驱油过采技术是一项众所周知的技术。无论以混相或非混相形式存在,二氧化碳都能对储层压力产生有利影响。二氧化碳以混相形式在原油中引起膨胀,导致原油粘度降低。二氧化碳粘度的降低使得原油更容易向采出的油井流动。同样,不相混的CO2也增加了储层压力。这些因素的结合提高了采油率。在这项技术中,效率的提高率至少为25%,但真正的结果非常引人注目,因为通过向油藏中注入二氧化碳气体,减少了最重要的环境污染物之一。本文对CO2储层的储注方法进行了探讨。
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Analysis on Carbon Dioxide Storage and Injection into Oil ‎Reservoirs to Improve Extraction from Reservoirs
The several methods have been proposed to reduce propagation of CO2 to increase density of carbon dioxide gas in atmosphere of earth planet e.g. CO2 flooding for the sake of underground extraction and storage Consuming fossil fuels has led to production of 27 billion tons of carbon dioxide throughout the world where it is followed by many adverse effects on environment. Thus, presentation of strategies for controlling and reduction of propagation of such gases is deemed as one of the foremost research preferences out of which propagation of greenhouse gases and injection of them in geological formation is one of the paramount techniques for reduction of propagation of greenhouse gases. This process is an early-efficient process that can cause reducing the great volume of dissemination of this gas through atmosphere. In this technique, CO2 is extracted from propagation sources and transferred by pipeline to the injection site and stored in subterranean formations through injection wells. On the other hand, linking this process to oil over-extraction operation is one of the methods for making CO2 gas storage process economic. The great volume of CO2 is injected into the reservoir in this process that increases oil extraction and justifies totally this operation in terms of cost-effectiveness. The studies show that if CO2 is injected into the reservoir under optimal conditions (suitable injection model and operational conditions and with CO2 in purified mode), it not only leads to producing great amounts of oil left in reservoir, but also it can prepare the ground for storage and prevention from wasting the huge amount of this greenhouse gas. The oil over-extraction technique by CO2flooding is a totally well-known technology. Carbon dioxide, both in miscible and or immiscible form, can favorably affect pressure of reservoir. CO2 causes inflation in oil in miscible form and it causes reducing viscosity of crude oil. The reduced viscosity of CO2 is led to easier motion of oil toward the produced oil well. Similarly, the immiscible CO2 also increases pressure of reservoir. Combination of these factors increases rate of oil extraction. The rate of increase in efficiency is at least 25% in this technique, but the real outcome is much noticeable because by injection of CO2 gas into oil reservoirs, one of the foremost environmental pollutants is reduced. It has been discussed about method of storage and injection of CO2 into oil reservoirs in this paper.
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