anisotropy dipmeter

简明释义

各向异性地层倾角仪;

英英释义

例句

1.In our recent field study, the anisotropy dipmeter revealed unexpected variations in bedding angles.

在我们最近的野外研究中，各向异性倾角仪揭示了沉积角度的意外变化。

2.The anisotropy dipmeter provided critical information for the drilling team to optimize their approach.

这台各向异性倾角仪为钻探团队提供了关键的信息，以优化他们的方法。

3.The geologist used an anisotropy dipmeter to measure the directional properties of the rock layers.

地质学家使用各向异性倾角仪测量岩层的方向特性。

4.Using the anisotropy dipmeter, researchers were able to identify fault lines in the geological formation.

研究人员利用各向异性倾角仪能够识别地质构造中的断层线。

5.By analyzing data from the anisotropy dipmeter, we can better understand the stress distribution in the subsurface.

通过分析各向异性倾角仪的数据，我们可以更好地理解地下的应力分布。

作文

In the field of geophysics and petroleum engineering, understanding subsurface formations is crucial for efficient resource extraction. One of the essential tools used in this endeavor is the anisotropy dipmeter, which plays a significant role in evaluating the geological features of a given area. The anisotropy dipmeter is an instrument designed to measure the orientation and inclination of rock layers, providing valuable information about the subsurface environment. This tool helps geologists and engineers determine the dip and azimuth of geological formations, which are critical for drilling operations and reservoir management.The concept of anisotropy refers to the directional dependence of a material's properties. In geology, this means that the physical properties of rock formations can vary based on direction. For example, a rock may be stronger or more permeable in one direction than another. The anisotropy dipmeter is specifically designed to identify these variations by measuring the angle of the dip of the rock layers relative to the horizontal plane. By analyzing this data, geologists can deduce the stress history and tectonic forces that have shaped the region over time.When using the anisotropy dipmeter, data is collected through sensors that are typically deployed within a borehole. As the tool is lowered into the well, it continuously records measurements of the rock's dip and azimuth. This information is then processed to create detailed models of the subsurface geology. These models are invaluable for predicting the behavior of fluids within the rock, which is essential for oil and gas exploration.Moreover, the anisotropy dipmeter can also aid in identifying potential hazards associated with drilling operations. By understanding the orientation of fault lines and fractures, engineers can make informed decisions about where to drill and how to manage the risks involved. This capability not only enhances safety but also optimizes the overall efficiency of resource extraction.In addition to its applications in petroleum engineering, the anisotropy dipmeter is also used in civil engineering projects, such as tunneling and foundation design. Knowledge of the subsurface conditions allows engineers to design structures that can withstand the geological forces at play. For instance, if a construction site is located in an area with significant anisotropic properties, the design must account for potential differential settlement and stability issues.In conclusion, the anisotropy dipmeter is a vital tool in the fields of geology and engineering. Its ability to measure the directional properties of rock formations provides essential insights that guide drilling operations and construction projects. Understanding the data collected by the anisotropy dipmeter allows professionals to make better decisions, ultimately leading to safer and more efficient resource management. As technology continues to advance, the capabilities of the anisotropy dipmeter will likely improve, further enhancing our understanding of the Earth's subsurface and its complexities.

在地球物理学和石油工程领域，理解地下层的构造对于高效的资源开采至关重要。用于这一目的的基本工具之一是各向异性测斜仪，它在评估特定区域的地质特征方面发挥着重要作用。各向异性测斜仪是一种旨在测量岩层的方向和倾斜度的仪器，提供有关地下环境的宝贵信息。该工具帮助地质学家和工程师确定地质构造的倾斜角和方位，这对钻井作业和油田管理至关重要。各向异性的概念指的是材料属性的方向依赖性。在地质学中，这意味着岩层的物理属性可能会根据方向而变化。例如，某种岩石在一个方向上可能比另一个方向更坚固或更具渗透性。各向异性测斜仪专门设计用于通过测量岩层相对于水平面的倾斜角来识别这些变化。通过分析这些数据，地质学家可以推断出塑造该地区的应力历史和构造力。在使用各向异性测斜仪时，通常通过传感器在钻孔内收集数据。当该工具被降低到井中时，它会持续记录岩石的倾斜度和方位。然后处理这些信息以创建地下地质的详细模型。这些模型对预测岩石内流体的行为至关重要，这对于石油和天然气勘探至关重要。此外，各向异性测斜仪还可以帮助识别与钻井作业相关的潜在危险。通过了解断层线和裂缝的方向，工程师可以就钻井位置和风险管理做出明智的决策。这种能力不仅增强了安全性，还优化了资源开采的整体效率。除了在石油工程中的应用外，各向异性测斜仪还用于土木工程项目，如隧道和基础设计。了解地下条件使工程师能够设计能够承受地质力的结构。例如，如果建筑工地位于具有显著各向异性特性的区域，则设计必须考虑潜在的差异沉降和稳定性问题。总之，各向异性测斜仪是在地质学和工程学领域的重要工具。它测量岩层的方向性特性，提供指导钻井作业和建筑项目的基本见解。理解各向异性测斜仪收集的数据使专业人员能够做出更好的决策，最终导致更安全和更高效的资源管理。随着技术的不断进步，各向异性测斜仪的功能可能会进一步改善，从而增强我们对地球地下及其复杂性的理解。