Asphaltenes Risk Assessment and Mitigation – Designing Appropriate Laboratory Test Protocols

A. R. Farrell, B. Martin, D. Frigo, G. Graham
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引用次数: 1

Abstract

Methods currently used to evaluate laboratory performance of asphaltenes inhibitors are non-optimal because the conditions used are so far from those prevailing in the field, leading to incorrect assessment of dose rates or even selection of chemicals that may not be beneficial at all. We present a dynamic flow test method for asphaltenes risk assessment and inhibitor qualification that uses field-representative temperature, pressure and fluid dynamics to enable successful correlation with field behaviour. This paper discusses the most commonly used laboratory test methods for asphaltenes testing and proposes a new dynamic flow method that offers a significant improvement over other widely-used techniques. Reconditioned dead crude oil is co-injected with n-heptane through a steel capillary and an inline filter. Differential pressures are recorded to monitor the extent of asphaltenes precipitation and deposition. We highlight key parameters that should be optimised to ensure that chemical performance is tested against the actual functionality required in the field and under conditions that are as representative as practicable. We present a case study describing the use of the dynamic flow test equipment to assess asphaltenes deposition risk and to qualify asphaltenes inhibitors for field application. We demonstrate that the method is able to rank chemicals for performance at inhibiting deposition under flowing conditions and at more field-representative temperature and pressure, with much lower percentages of n-heptane than required for conventional dispersancy testing. We discuss the effect of critical parameters affecting the extent of asphaltenes deposition. Fluid dynamics are recognised to play a key role in asphaltenes deposition in the field, not least, because at higher wall velocities the erosive force acting on field deposits is high enough to limit further growth and steady state can be reached. Flowing tests were conducted under a number of fluid-dynamic regimes in which asphaltenic crude oil was destabilised by addition of n-heptane. The effects of wall shear stress, wall velocity, residence time, and other factors were evaluated upon asphaltenes deposition in a steel capillary and upon bulk precipitation by subsequent filtration. The results obtained from laboratory tests correlate well with field observations and demonstrate that flow regimes in laboratory tests can approach those occurring in the field. This paper presents the development of a new laboratory test method utilising dead crude both for asphaltenes risk assessment and inhibitor qualification that offers significantly improved correlation with field behaviour over conventional dispersancy testing, yet remains much more cost effective than labour-intensive autoclave testing utilising live fluids. When considering asphaltenes risk analysis the approach also allows for deposition vs. precipitation to be examined under field realistic conditions, and we demonstrate how this can be of significant importance when, for example, introducing gas lift into asphaltenic crudes.
沥青质的风险评估和缓解。设计适当的实验室试验方案
目前用于评估沥青质抑制剂实验室性能的方法并不理想,因为所使用的条件与现场的普遍条件相去甚远,导致对剂量率的评估不正确,甚至可能选择根本无益的化学品。我们提出了一种用于沥青质风险评估和抑制剂鉴定的动态流动测试方法,该方法使用具有现场代表性的温度、压力和流体动力学来成功地与现场行为进行关联。本文讨论了沥青质测试中最常用的实验室测试方法,并提出了一种新的动态流动方法,该方法比其他广泛使用的技术有显著的改进。修复后的死原油通过钢毛细管和在线过滤器与正庚烷共注入。记录压差以监测沥青质沉淀和沉积的程度。我们强调了应该优化的关键参数,以确保化学性能根据现场所需的实际功能进行测试,并在尽可能具有代表性的条件下进行测试。我们提出了一个案例研究,描述了动态流动测试设备的使用,以评估沥青质沉积风险,并确定沥青质抑制剂是否适合现场应用。我们证明,该方法能够在流动条件下,在更具现场代表性的温度和压力下,对化学物质的抑制沉积性能进行排序,并且比常规分散性测试所需的正庚烷百分比要低得多。讨论了关键参数对沥青质沉积程度的影响。流体动力学被认为在沥青质的沉积中起着关键作用,尤其是因为在较高的壁速下,作用于现场沉积物的侵蚀力足够大,从而限制了进一步的生长,并可以达到稳定状态。流动试验是在一些流体动力学制度下进行的,其中沥青质原油通过添加正庚烷而不稳定。研究了壁面剪切应力、壁面速度、停留时间和其他因素对沥青质在钢毛细管中的沉积和随后过滤的大块沉淀的影响。实验室试验的结果与现场观测结果吻合良好,并表明实验室试验中的流态可以接近现场发生的流态。本文介绍了一种利用死原油进行沥青质风险评估和抑制剂鉴定的新实验室测试方法的发展,与传统的分散性测试相比,该方法显著提高了与现场行为的相关性,但仍然比使用活流体的劳动密集型高压灭菌器测试更具成本效益。在考虑沥青质风险分析时,该方法还允许在现场实际条件下检查沉积与沉淀,并且我们证明了在例如向含沥青质的原油引入气举时,这是多么重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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