electro-magnetic log

简明释义

电磁计程仪

英英释义

例句

1.The oil company used the electro-magnetic log to determine the conductivity of the geological formations.

石油公司使用电磁测井来确定地质层的导电性。

2.By analyzing the electro-magnetic log, geologists can identify potential hydrocarbon zones.

通过分析电磁测井，地质学家可以识别潜在的碳氢化合物区。

3.The electro-magnetic log is essential for assessing the reservoir's fluid content.

对于评估储层的流体含量，电磁测井是必不可少的。

4.The electro-magnetic log data revealed unexpected anomalies in the subsurface layers.

该电磁测井数据揭示了地下层中意外的异常情况。

5.During the drilling process, the team regularly checked the electro-magnetic log for accurate readings.

在钻井过程中，团队定期检查电磁测井以获取准确的读数。

作文

In the realm of geophysical exploration, various techniques are employed to gather essential data about the subsurface formations. One such method is the use of an electro-magnetic log (电磁测井), a sophisticated tool that has revolutionized the way geologists and engineers assess geological formations. This technique primarily utilizes electromagnetic fields to measure the electrical properties of the rocks and fluids found beneath the Earth's surface.The electro-magnetic log (电磁测井) operates on the principle that different materials respond differently to electromagnetic fields. When an electromagnetic signal is transmitted into the ground, it interacts with the subsurface materials, causing variations in the signal's strength and phase. These changes are then recorded and analyzed to provide valuable insights into the composition and characteristics of the geological formations. This method is particularly useful in identifying hydrocarbon reservoirs, as it can effectively differentiate between oil, gas, and water-bearing formations.One of the significant advantages of using an electro-magnetic log (电磁测井) is its ability to penetrate deeper into the Earth compared to conventional logging methods. This capability allows for a more comprehensive understanding of the subsurface environment, which is crucial for making informed decisions in resource extraction and management. Additionally, the electro-magnetic log (电磁测井) can be employed in environments where traditional logging tools may struggle due to high temperatures or pressures, making it a versatile option for various geological settings.Furthermore, the data obtained from an electro-magnetic log (电磁测井) can be integrated with other geophysical data to create a multidimensional model of the subsurface. This holistic approach not only enhances the accuracy of geological assessments but also aids in predicting the behavior of reservoirs over time. For instance, by combining electromagnetic data with seismic surveys, geologists can gain a clearer picture of the subsurface structure and fluid dynamics, which is vital for optimizing drilling strategies and reducing risks associated with exploration.However, it is important to note that while the electro-magnetic log (电磁测井) offers numerous benefits, it also comes with certain limitations. The interpretation of the data can be complex and requires a deep understanding of both the technology and the geological context. Misinterpretation can lead to erroneous conclusions, potentially resulting in costly mistakes during drilling operations. Therefore, it is essential for professionals in the field to undergo rigorous training and to utilize advanced software tools for data analysis.In conclusion, the electro-magnetic log (电磁测井) is an invaluable tool in the field of geophysical exploration, providing critical information about subsurface formations. Its ability to deliver accurate and detailed insights into geological structures makes it indispensable for the efficient and safe extraction of natural resources. As technology continues to advance, the applications of electro-magnetic logs (电磁测井) are likely to expand, further enhancing our understanding of the Earth's subsurface and improving our ability to manage its resources sustainably.

在地球物理勘探领域，各种技术被用来收集关于地下地层的重要数据。其中一种方法是使用电磁测井（electro-magnetic log），这是一种复杂的工具，彻底改变了地质学家和工程师评估地质构造的方式。这项技术主要利用电磁场来测量地球表面以下岩石和流体的电气特性。电磁测井（electro-magnetic log）基于不同材料对电磁场反应不同的原理。当电磁信号被传输到地下时，它与地下材料相互作用，导致信号强度和相位的变化。这些变化随后被记录和分析，以提供有关地质构造组成和特征的宝贵见解。这种方法在识别碳氢化合物储层方面特别有效，因为它可以有效区分油、气和含水层。使用电磁测井（electro-magnetic log）的一个显著优势是其能够比传统测井方法更深入地穿透地球。这种能力使得对地下环境有更全面的理解，这对做出资源开采和管理的明智决策至关重要。此外，电磁测井（electro-magnetic log）可以在传统测井工具可能因高温或高压而难以工作的环境中使用，使其成为各种地质环境的多功能选择。此外，从电磁测井（electro-magnetic log）获得的数据可以与其他地球物理数据集成，以创建地下的多维模型。这种整体方法不仅增强了地质评估的准确性，还有助于预测储层随时间的行为。例如，通过将电磁数据与地震勘测相结合，地质学家可以更清晰地了解地下结构和流体动力学，这对于优化钻探策略和减少勘探相关风险至关重要。然而，重要的是要注意，虽然电磁测井（electro-magnetic log）提供了许多好处，但也存在某些局限性。数据的解释可能很复杂，需要对技术和地质背景有深刻的理解。误解可能导致错误的结论，可能在钻探操作中造成昂贵的错误。因此，专业人员在该领域必须接受严格的培训，并利用先进的软件工具进行数据分析。总之，电磁测井（electro-magnetic log）是地球物理勘探领域中的一种宝贵工具，提供有关地下构造的关键数据。它能够提供准确和详细的地质结构洞察，使其在有效和安全地提取自然资源方面不可或缺。随着技术的不断进步，电磁测井（electro-magnetic log）的应用可能会扩展，进一步增强我们对地球地下的理解，提高我们可持续管理其资源的能力。