高温蒸汽泡沫应用可行性的实验评估

Siân A. Jones, R. Bos, V. Laštovka, R. Farajzadeh, M. Riyami
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引用次数: 1

摘要

采油过程的效率取决于体积扫描和微观扫描的乘积。注汽采油的微观波及效果一般较好;然而,获得良好的体积扫描可能具有挑战性。这是由于注入蒸汽的密度和粘度较低,加上储层的非均质性,特别是储层的贼层存在。因此,在许多蒸汽驱项目中,以蒸汽油比(SOR, kg蒸汽/桶油)衡量的蒸汽利用系数变得很差。所有这些问题都可以通过蒸汽泡沫技术的成功应用来解决。在蒸汽泡沫应用中,蒸汽(加上非冷凝气体)与表面活性剂溶液同时注入。在有利的注入条件下,储层内部形成泡沫,导致蒸汽流动性显著降低,最终可以提高波及效率。在文献中,许多成功的蒸汽泡沫飞行员已经报道。然而,这些应用大多是在相对较浅、压力低、温度低的储层。在我们的论文中,我们研究了蒸汽泡沫是否也可以有效地用于高蒸汽温度的应用,显著超过200°C。为了测试蒸汽泡沫技术在高温下的可行性,我们测试了多种表面活性剂在油藏条件下的稳定性。对于那些表现出良好稳定性的表面活性剂,进行了岩心注水试验,以测试形成泡沫的能力并评估产生的泡沫强度。蒸汽泡沫试验也在高达240°C的温度下进行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Assessment of the Viability of High Temperature Steam Foam Applications
The efficiency of oil processes depends on the product of volumetric sweep and microscopic sweep. In oil recovery by steam injection the microscopic sweep is generally good; however, obtaining a good volumetric sweep can be challenging. This is caused by low density and viscosity of the injected steam combined with the reservoir heterogeneity, in particular existence of thief zone. Consequently, the steam utilization factor measured by steam-to-oil ratio (SOR, kg steam/bbl of oil) for many steam-flooding projects becomes poor. All these issues can be addressed by a successful application of steam foam technology. In steam foam applications, steam (plus a non-condensing gas) is injected simulateneously with a surfactant solution. Under the favorable injection conditions a foam is formed inside the reservoir leading to significant reduction of steam mobility and can eventually improve sweep efficiency. In the literature many successful steam foam pilots have been reported. However, most of these applications are at relatively shallow reservoirs with low pressures and thus low temperatures. In our paper we investigate if steam foam can also be effectively used for applications at high steam temperatures, significantly exceeding 200°C. To test the viability of steam foam technology at high temperatures, we have tested the stability of multiple surfactants at reservoir conditions. For those surfactants that showed good stability, core flood tests have been carried out to test the ability to form foam and to assess the resulting foam strength. Steam foam tests have also been carried out at temperature up to 240°C.
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