干式阳离子减摩剂:高TDS滑溜水的新选择

Linping Ke, Josselyne Chano, Melissa C. Weston, Hong Sun, Dong Shen
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引用次数: 1

摘要

目前,北美地区的增产措施几乎完全发展为使用减摩剂(FRs)的滑水压裂。北美部分地区因水质差而臭名昭著,因此通常使用含高总溶解固体(TDS)的返排液或采出水进行处理。阳离子FRs通常应用于这些系统,因为它们对这些水中的多价阳离子具有耐受性。此外,干摩擦减速器已经获得了更好的经济和物流动力。本文系统地研究了一种干法阳离子FR在不同浓度TDS盐水中的“动态”水化性能、减阻性能、机械稳定性、与其他阴离子化学添加剂的相容性以及热稳定性。研究人员对阳离子FR溶液进行了不同剪切速率的实验,以了解其水化能力、摩擦减量和机械稳定性。它与阴离子添加剂(如阻垢剂)的相容性也在实验室摩擦环中进行了测试。利用粘度计和多角度激光散射(mall)方法研究了阳离子FR溶液在150°F下的热稳定性。还研究了阳离子FR的电荷特性,表明其在高温下的自降解性能。在没有氧化破冰剂的情况下,通过岩心流动试验评估了FR溶液对地层的潜在损害。减摩试验和水化试验表明,FR在高TDS水体中表现良好,即使在低温条件下也能迅速达到峰值性能。即使在摩擦环中暴露于高泵送速率后,阳离子FR也具有很高的机械稳定性。众所周知,阳离子fr与聚阴离子阻垢剂不相容;在本研究中,确定了一种相容性阻垢剂SI-1。此外,由于担心与带负电荷的烃源岩的地层相容性或水处理厂中的絮凝,人们一直在犹豫是否使用这种阳离子材料。用阳离子FRs热测试表明,材料在没有任何其他添加剂的情况下降解为阴离子,这一事实被多阳离子添加剂C1在热处理样品中引起凝聚的事实所证实。因此,可以减轻对岩石润湿性影响或与水处理添加剂不相容的担忧。阴离子FRs没有发生类似的离子电荷变化。用阳离子FR溶液进行热测试也显示出明显的粘度下降,令人惊讶的是没有明显的分子量损失(通过mall)。然而,阳离子FR流体的岩心流动测试显示,即使没有破冰剂,其恢复渗透率也很好,进一步证实了其自清洁能力。本文将介绍这些fr的降解机理。干阳离子FR的自清洁能力,即使在相对较低的井底温度(BHT)下,再加上其高耐盐性,使其成为多种应用的优秀减阻剂,特别是在低质量的水中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dry Cationic Friction Reducers: New Alternative for High TDS Slickwater
Currently, well stimulation in North America has evolved almost entirely to slickwater fracturing with friction reducers (FRs). Some parts of North America are notorious for their poor water quality, so wells are commonly treated using high total dissolved solids (TDS)-containing flow-back or produced water. Cationic FRs are usually applied in these systems due to their tolerance to multivalent cations in such waters. Additionally, dry friction reducers have gained momentum for better economics and logistics. In this paper, a dry cationic FR is systematically studied with respect to its "on the fly" hydration capability, friction reduction, mechanical stability, compatibility with other anionic chemical additives, and thermal stability in different levels of TDS brines. The cationic FR solution was subjected to varying shearing rates to understand its hydration capability, friction reduction, and mechanical stability. Its compatibility with anionic additives, such as a scale inhibitor, was also tested in a laboratory friction loop. Thermal stability of the cationic FR solution was studied at 150°F using a viscometer and Multi-Angle Laser Light Scattering (MALLS) method to obtain molecular weight information. The charge characteristics of the cationic FR, indicative of self-degradation properties, with exposure to heat, were also studied. Potential formation damage of the FR solution was evaluated with core flow tests in the absence of oxidizing breakers. Friction reduction and hydration tests show that the FR performs well in high TDS waters, even at low temperature, reaching its peak performance rapidly. The cationic FR possesses high mechanical stability even after being exposed to high pumping rates in the friction loop. It is well known that cationic FRs are not compatible with polyanionic scale inhibitors; in this study, a compatible scale inhibitor, SI-1, is identified. Additionally, there has historically been hesitation to use such cationic materials due to concerns of formation compatibility with negatively charged source rocks or flocculation in water treatment plants. Thermal testing with cationic FRs reveals that the material degrades to anionic without the aid of any other additive, which is confirmed by the fact that addition of polycationic additive, C1, caused coacervation in the heat-treated sample. As a result, concerns over effects of rock wettability or incompatibility with water treatment additives can be alleviated. No anionic FRs undergo similar change of the ionic charge. Thermal testing with cationic FR solutions also shows a significant viscosity drop, surprisingly without pronounced molecular weight loss (via MALLS). However, core flow testing of cationic FR fluids shows good regained permeability, even without breakers, further confirming self-cleaning capability. The degradation mechanism of these FRs will be shown. The self-cleaning capability of the dry cationic FR, even at relatively low bottomhole temperature (BHT), in combination with its high salt-tolerance, makes it an excellent friction reducer for multiple applications, especially with low quality water.
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