BiMTheCh诱导热冲击技术是稠油致密储层提高采收率的新途径

Mojtaba Rezaei Koochi, S. Mehrabi-Kalajahi, M. Varfolomeev, Vladislav Vladimirovich Savelev, E. Ziganshin, R. Kadyrov, I. N. Shamanov, Ranel I. Galeev
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摘要

本文研究了热冲击对岩石试样裂缝的影响以及重质原油构造的热裂解作用。为了研究二元混合物(BM)催化热分解反应的热压特性,在高温高压反应器(HTHP)中设计了一系列实验,并对达到最高温度和压力的时间进行了监测。实验前后分别对岩心样品进行4D层析扫描。此外,通过SARA分析研究了热冲击对稠油组分的影响。结果表明,使用BiMTheCh,在激活反应后的极短时间内(2秒)将反应区的温度提高到273℃。或者,压力增加到129 atm。结果表明,温度和压力同时突然升高会产生热冲击,使击穿压力从235 atm降低到12 atm。计算机断层扫描结果证实了岩心样品表面新裂缝的形成。SARA分析结果也证实了二元混合物的反应改变了重油的分子结构。压力和温度的急剧升高导致原油中的重质组分(如沥青质)转变为较轻的组分(如饱和油)。一般来说,二元混合技术可以作为致密稠油油藏提高稠油采收率的一种高效、环保的新技术。
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Induced Thermal Shocking by BiMTheCh Technology as a New Approach for Enhanced Oil Recovery from Tight Reservoirs with Heavy Oil
This work is devoted to investigate the ability of thermal shocking to create fractures in rock samples and thermal cracking of heavy crude oil structure. In order to study the thermobaric characterizations of catalytic and thermal decomposition reaction of binary mixture (BM), a series of experiments was designed in high-temperature and high-pressure reactor (HTHP) and the time to reach the maximum temperature and pressure were monitored. Before and after the experiments, core samples were scanned by 4D tomography. In addition, SARA analysis was done to study the effect of thermal shocking on heavy oil composition. The results showed that using BiMTheCh, the temperature in the reaction zone was increased up to 273 °C during very short time (2 seconds) after activation of the reaction. Either, the pressure was increased up to 129 atm. As results showed, the simultaneous sudden increase in temperature and pressure creates a thermal shock which reduces breakdown pressure from 235 to 12 atm. Computed scanning tomography results confirmed formation of new fractures on the surface of core samples. Results of the SARA analysis also confirmed that the molecular structure of heavy oil due to the binary mixture's reaction was changed. Sharp increase in pressure and temperature induced transformation of heavy components of crude oil such as asphaltenes into lighter components such as saturates. Generally, the binary mixture technology can be used as a new high-efficient and eco-friendly technology for enhanced heavy oil recovery from tight heavy oil reservoirs.
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