Applications of wireline formation testing (WFT) and downhole fluid analysis (DFA): Reviewing the importance of this technology in reservoir evaluation

IF 0.1 Q4 ENGINEERING, CHEMICAL
N. Alshmlh, Muhammad Villayat Abbas, A. S. A. Shahid
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Abstract

Wireline formation testing (WFT) is an important aspect in both exploration and production phases for reservoir evaluation. WFT tools can directly measure the formation pore pressures and then the pressure profiles are used to identify the type of pore fluids, identify the fluids density, fluid contact estimation, depletion and overpressure quantification, detection of continuity and connectivity of the reservoir in both the lateral and vertical directions. WFT is mostly used to evaluate formation permeability and taking fluid sampling. The new generation wireline formation sampling tools include a downhole fluid analyzer (DFA), which can analyze the composition of fluids in real-time and under in-situ conditions and also can measure the spectra of crude oil. So, in result, it is possible to identify fluid compositional variation and reservoir vertical compartmentalization. The analysis of fluid composition depends on the optical absorption, and the mass fraction estimation for the three groups of hydrocarbons: methane (C1), C2-5, and C6 + along with CO2 as well. Also, it provides formation fluid properties like gas oil ratio (GOR), density, viscosity, and resistivity. The DFA results are subsequently validated and modified by laboratory analysis on the fluid samples attained from the formation. The potential advantage of early measurements demonstrates that the DFA is a good decision-making solution in early stage without waiting for the lab result for months. Also, early DFA measurements are important in completion designing and well testing, the establishment of fluid gradients in reservoirs and connectivity, identifying and validating fluid distributions and reservoir structures.
电缆地层测试(WFT)和井下流体分析(DFA)技术在油藏评价中的应用
电缆地层测试(WFT)是勘探和生产阶段油藏评价的一个重要方面。WFT工具可以直接测量地层孔隙压力,然后利用压力剖面识别孔隙流体类型、流体密度、流体接触估计、衰竭和超压量化、检测储层横向和纵向的连续性和连通性。WFT主要用于评价地层渗透率和进行流体取样。新一代电缆地层取样工具包括一个井下流体分析仪(DFA),它可以实时和现场分析流体的成分,也可以测量原油的光谱。因此,可以识别流体成分变化和储层垂向分区。流体成分的分析依赖于光吸收,以及对三种碳氢化合物(甲烷(C1)、C2-5和C6 +以及CO2)的质量分数的估计。此外,它还可以提供地层流体特性,如气油比(GOR)、密度、粘度和电阻率。DFA结果随后通过对从地层中获得的流体样品的实验室分析进行验证和修正。早期测量的潜在优势表明,DFA在早期阶段是一个很好的决策解决方案,而无需等待数月的实验室结果。此外,早期DFA测量对于完井设计和试井、建立储层流体梯度和连通性、识别和验证流体分布和储层结构都很重要。
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