neutron neutron log

简明释义

中子 中子测井

英英释义

例句

1.During the drilling operation, the engineers analyzed the neutron neutron log data for better decision-making.

在钻探作业中，工程师分析了中子中子测井数据以便做出更好的决策。

2.In the oil industry, a neutron neutron log is essential for evaluating hydrocarbon reserves.

在石油行业，中子中子测井对评估碳氢化合物储量至关重要。

3.The neutron neutron log helped identify zones with high water saturation in the reservoir.

该中子中子测井帮助识别了储层中水饱和度高的区域。

4.Using a neutron neutron log, we can differentiate between gas and oil in the formation.

通过使用中子中子测井，我们可以区分地层中的天然气和石油。

5.The geologist used the neutron neutron log to determine the porosity of the rock formations.

地质学家使用中子中子测井来确定岩石层的孔隙度。

作文

In the field of geophysics and petrophysics, various logging techniques are employed to gather information about the subsurface formations. One such technique that has gained prominence is the neutron neutron log. This method utilizes the principles of nuclear physics to provide valuable insights into the composition and characteristics of geological formations. The neutron neutron log is particularly effective in identifying the presence of hydrogen atoms, which are abundant in water and hydrocarbons. This makes it an essential tool for oil and gas exploration as well as groundwater studies.The working principle of the neutron neutron log involves the emission of neutrons into the surrounding rock formations. When these neutrons collide with hydrogen nuclei, they lose energy and are scattered back towards the logging tool. By measuring the rate at which the neutrons are returned, geologists can infer the amount of hydrogen present in the formation. This data allows them to estimate the porosity of the rock, which is a critical factor in determining its ability to store fluids like oil, gas, or water.One of the significant advantages of the neutron neutron log is its ability to differentiate between various types of fluids within the rock. For instance, when used in combination with other logging techniques, such as density logs, the neutron neutron log can help differentiate between oil, gas, and water. This differentiation is crucial for resource management and extraction strategies, as it informs engineers about the most efficient methods to extract these resources.Moreover, the neutron neutron log is not limited to hydrocarbon exploration. It also plays a vital role in environmental studies, particularly in assessing groundwater resources. By providing detailed information about the subsurface water content, the neutron neutron log aids in managing water resources effectively, especially in arid regions where water scarcity is a pressing issue.However, the use of the neutron neutron log does come with some limitations. For instance, the presence of heavy minerals or certain types of clays can interfere with the neutron measurements, leading to inaccurate readings. Therefore, it is essential for geologists to interpret the results carefully and consider the geological context when analyzing the data obtained from the neutron neutron log.In conclusion, the neutron neutron log is a powerful tool in the arsenal of geophysical logging techniques. Its ability to provide critical information about subsurface formations makes it invaluable in both resource exploration and environmental management. As technology continues to advance, the accuracy and efficiency of the neutron neutron log are expected to improve, further enhancing its role in understanding the complexities of the Earth's subsurface. With ongoing research and development, the applications of the neutron neutron log will likely expand, paving the way for more sustainable practices in resource extraction and environmental conservation.

在地球物理学和岩石物理学领域，采用各种测井技术来获取地下地层的信息。其中一种越来越受到重视的技术是中子中子测井。这种方法利用核物理的原理，为地质地层的组成和特性提供了宝贵的见解。中子中子测井在识别氢原子的存在方面特别有效，因为氢原子在水和碳氢化合物中丰富。这使得它成为石油和天然气勘探以及地下水研究的必要工具。中子中子测井的工作原理涉及将中子发射到周围的岩石地层中。当这些中子与氢核碰撞时，它们会失去能量并被散射回测井工具。通过测量中子返回的速率，地质学家可以推断出地层中氢的含量。这些数据使他们能够估算岩石的孔隙度，这是确定其储存油、气或水等流体能力的关键因素。中子中子测井的一个显著优势是能够区分岩石中的各种流体类型。例如，当与其他测井技术（如密度测井）结合使用时，中子中子测井可以帮助区分石油、天然气和水。这种区分对于资源管理和开采策略至关重要，因为它为工程师提供了有关最有效提取这些资源的方法的信息。此外，中子中子测井不仅限于碳氢化合物勘探。它在环境研究中也发挥着重要作用，特别是在评估地下水资源方面。通过提供有关地下水含量的详细信息，中子中子测井有助于有效管理水资源，尤其是在水资源匮乏的问题突出的干旱地区。然而，使用中子中子测井确实存在一些限制。例如，重矿物或某些类型的粘土的存在可能会干扰中子的测量，导致读数不准确。因此，地质学家在分析从中子中子测井获得的数据时，必须仔细解释结果，并考虑地质背景。总之，中子中子测井是地球物理测井技术工具箱中的一项强大工具。它提供有关地下地层的关键信息，使其在资源勘探和环境管理中具有不可或缺的价值。随着技术的不断进步，预计中子中子测井的准确性和效率将进一步提高，从而增强其在理解地球地下复杂性方面的作用。随着持续的研究和开发，中子中子测井的应用范围可能会扩大，为资源开采和环境保护的可持续实践铺平道路。