horizontal matrix permeability

简明释义

基质的水平渗透率;

英英释义

例句

1.The oil reservoir's production rate is influenced by the horizontal matrix permeability of the rock formations.

油藏的生产率受到岩石层的水平基质渗透率的影响。

2.Understanding horizontal matrix permeability is crucial for effective groundwater management.

理解水平基质渗透率对于有效的地下水管理至关重要。

3.We measured the horizontal matrix permeability of the soil to assess its drainage capabilities.

我们测量了土壤的水平基质渗透率以评估其排水能力。

4.In this project, we will evaluate the horizontal matrix permeability using laboratory tests.

在这个项目中，我们将通过实验室测试评估水平基质渗透率。

5.The study focused on the horizontal matrix permeability to determine the flow rates in the aquifer.

该研究集中在水平基质渗透率上，以确定含水层中的流速。

作文

Understanding the concept of horizontal matrix permeability is crucial in the field of geology and petroleum engineering. Permeability refers to the ability of a material to allow fluids to pass through it. In the context of geological formations, especially those that contain hydrocarbons, the permeability of the rock matrix plays a vital role in determining how easily oil or gas can be extracted. Horizontal matrix permeability specifically refers to the permeability of a rock formation in a horizontal direction, which is essential for assessing the flow of fluids within the subsurface environment.When we think about horizontal matrix permeability, we must consider the geological structure of the rock. Different types of rocks exhibit varying degrees of permeability due to their composition, grain size, and porosity. For instance, sandstone typically has higher permeability compared to shale, which can be almost impermeable. This difference is significant when planning drilling operations, as it dictates where to drill and how to approach extraction methods.The measurement of horizontal matrix permeability can be done using various techniques, including core sampling and laboratory testing. Core samples are taken from the rock formations and analyzed to determine their permeability characteristics. Understanding these properties helps engineers design better extraction strategies, ensuring maximum recovery of resources while minimizing environmental impact.Moreover, horizontal matrix permeability is not static; it can change over time due to various factors such as fluid injection during enhanced oil recovery processes, natural fracturing, or even tectonic activities. Monitoring these changes is crucial for the long-term management of oil and gas reservoirs. Advanced technologies, such as geophysical surveying and reservoir simulation, allow for real-time assessment of permeability changes, enabling more efficient resource management.In addition to its implications in hydrocarbon extraction, horizontal matrix permeability also plays a role in groundwater studies. Understanding how water moves through different geological layers is essential for managing water resources, predicting contaminant transport, and designing effective remediation strategies. For example, areas with high horizontal matrix permeability may be more susceptible to contamination from surface activities, necessitating stricter regulations and monitoring.In conclusion, the concept of horizontal matrix permeability is a fundamental aspect of geological studies and resource management. Its implications stretch beyond just oil and gas extraction; it is also vital for understanding groundwater flow and environmental protection. As technology continues to advance, our ability to measure and analyze horizontal matrix permeability will improve, leading to more efficient and sustainable practices in both energy production and water resource management.

理解“horizontal matrix permeability”这个概念在地质学和石油工程领域至关重要。渗透性指的是材料允许流体通过的能力。在地质构造的背景下，特别是那些含有碳氢化合物的岩石中，岩石基质的渗透性在决定油气提取的容易程度方面起着重要作用。“horizontal matrix permeability”特指岩层在水平方向上的渗透性，这对于评估地下环境中流体的流动至关重要。当我们想到“horizontal matrix permeability”时，我们必须考虑岩石的地质结构。不同类型的岩石由于其组成、颗粒大小和孔隙度表现出不同程度的渗透性。例如，砂岩通常具有比页岩更高的渗透性，而页岩几乎可以是不可渗透的。这种差异在规划钻井作业时是显著的，因为它决定了在哪里钻探以及如何接近提取方法。“horizontal matrix permeability”的测量可以通过各种技术进行，包括岩心取样和实验室测试。岩心样本从岩层中提取并分析，以确定其渗透性特征。理解这些特性有助于工程师设计更好的提取策略，确保最大限度地回收资源，同时最小化对环境的影响。此外，“horizontal matrix permeability”并不是静态的；它可能会随着时间的推移而变化，这取决于各种因素，例如在增强油气回收过程中进行的流体注入、自然裂纹或甚至构造活动。监测这些变化对于油气储层的长期管理至关重要。先进的技术，如地球物理勘测和储层模拟，允许实时评估渗透性变化，从而实现更有效的资源管理。除了在碳氢化合物提取中的意义外，“horizontal matrix permeability”在地下水研究中也发挥着作用。理解水如何在不同的地质层中移动对于管理水资源、预测污染物运输和设计有效的修复策略至关重要。例如，具有高“horizontal matrix permeability”的地区可能更容易受到地表活动的污染，因此需要更严格的监管和监测。总之，“horizontal matrix permeability”的概念是地质研究和资源管理的一个基本方面。它的影响不仅限于石油和天然气提取；它对于理解地下水流动和环境保护也是至关重要的。随着技术的不断进步，我们测量和分析“horizontal matrix permeability”的能力将得到改善，从而在能源生产和水资源管理中实现更高效和可持续的实践。