Enhanced Foam Stability Using Nanoparticle in High Salinity High Temperature Condition for Eor Application

N. Razali, Ivy Ching Hsia Chai, A.A. a Manap, M. M. Mahamad Amir
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Abstract

The capability of commercial nanoparticles to perform as foam stabilizer were investigated at reservoir temperature of 96°C. Al2O3, Fe3O4, Co3O4, CuO, MgO, NiO, ZrO2, ZnO and SiO2 nanoparticles that were characterized using XRD, FTIR, FESEM-EDX, TEM and PSA, were blended in the in-house formulated surfactant named IVF respectively at a particular ratio. The test was performed with and without the presence of reservoir crude oil. Results showed that formulation with nanoparticles enhanced foam stability by having longer foam half-life than the IVF surfactant alone, especially in the absence of oil. Only SiO2 nanoparticles were observed to have improved the foam stability in both test conditions. The unique properties of SiO2 as a semi-metal oxide material may have contributed to the insensitivity of SiO2 nanoparticle towards crude oil which is known as a foam destabilizer. The physical barrier that was formed by SiO2 nanoparticles at the foam lamella were probably unaffected by the presence of crude oil, thus allowing the foams to maintain its stability. In thermal stability tests, we observed the instability of all nanoparticles in the IVF formulation at 96°C. Nanoparticles were observed to have separated and settled within 24 hours. Therefore, surface modification of nanoparticle was done to establish steric stabilization by grafting macro-molecule of polymer onto the surface of SiO2. This in-house developed polymer grafted silica nanoparticles are named ZPG nanoparticles. The ZPG nanoparticles passed the thermal stability test at 96°C for a duration of 3 months. In the foam wetness analysis, ZPG nanoparticles were observed to have produced more wet foams than IVF formulation alone, indicating that ZPG is suitable to be used as foam stabilizer for EOR process as it showed catalytic behaviour and thermally well-stable at reservoir temperature.
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纳米颗粒在高盐高温条件下增强泡沫稳定性的Eor应用
在96°C的储层温度下,研究了商用纳米颗粒作为泡沫稳定剂的性能。将Al2O3、Fe3O4、Co3O4、CuO、MgO、NiO、ZrO2、ZnO和SiO2纳米颗粒按一定比例混合在体外表面活性剂IVF中,并用XRD、FTIR、FESEM-EDX、TEM和PSA对其进行了表征。该测试在储层原油存在和不存在的情况下进行。结果表明,与单独的体外受精表面活性剂相比,纳米颗粒的配方具有更长的泡沫半衰期,特别是在没有油的情况下,泡沫稳定性得到了提高。在两种测试条件下,只观察到SiO2纳米颗粒改善了泡沫稳定性。SiO2作为半金属氧化物材料的独特性质可能是SiO2纳米颗粒对原油不敏感的原因,而原油被称为泡沫不稳定剂。由SiO2纳米颗粒在泡沫薄片上形成的物理屏障可能不受原油存在的影响,从而使泡沫保持稳定性。在热稳定性测试中,我们观察到体外受精配方中所有纳米颗粒在96°C时的不稳定性。观察到纳米颗粒在24小时内分离并沉淀。因此,通过在SiO2表面接枝高分子聚合物,对纳米颗粒进行表面改性,建立空间位阻稳定性。这种内部开发的聚合物接枝二氧化硅纳米颗粒被命名为ZPG纳米颗粒。ZPG纳米颗粒在96℃条件下通过了3个月的热稳定性测试。在泡沫湿度分析中,观察到ZPG纳米颗粒比单独的试管婴儿配方产生更多的湿泡沫,这表明ZPG适合用作提高采收率过程中的泡沫稳定剂,因为它具有催化行为,并且在储层温度下具有良好的热稳定性。
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