general neutron logging tool

简明释义

1. 普通中子测井仪; 2. 普通中子测井下井仪;

英英释义

例句

1.The general neutron logging tool is essential for evaluating the effectiveness of enhanced oil recovery techniques.

对于评估提高石油采收率技术的有效性，一般中子测井工具是必不可少的。

2.Engineers calibrated the general neutron logging tool before deploying it in the field.

工程师在将一般中子测井工具投入现场使用之前进行了校准。

3.The geologist used a general neutron logging tool to assess the porosity of the rock formations.

地质学家使用了一个一般中子测井工具来评估岩石层的孔隙度。

4.The data from the general neutron logging tool helped in determining the hydrocarbon saturation in the reservoir.

来自一般中子测井工具的数据有助于确定储层中的碳氢化合物饱和度。

5.During the drilling process, the team relied on a general neutron logging tool to identify water-bearing zones.

在钻探过程中，团队依赖于一个一般中子测井工具来识别含水层。

作文

The oil and gas industry relies heavily on advanced technologies to explore and extract resources efficiently. One of the critical tools used in this sector is the general neutron logging tool, which plays a significant role in subsurface evaluation. This tool is designed to measure the properties of geological formations, particularly those containing hydrocarbons. By understanding the composition and characteristics of these formations, geologists and engineers can make informed decisions regarding drilling and production strategies.The general neutron logging tool operates on the principle of neutron interaction with matter. When neutrons are emitted from the tool, they collide with the nuclei of atoms in the surrounding rock and fluids. This interaction causes the neutrons to scatter, and the degree of scattering provides valuable information about the density and porosity of the formation. Higher porosity typically indicates a greater potential for hydrocarbon presence, making this tool essential for resource exploration.One of the main advantages of using the general neutron logging tool is its ability to differentiate between various types of fluids within the rock. For instance, it can distinguish between oil, gas, and water, which is crucial for determining the economic viability of a well. By analyzing the data collected from this tool, operators can optimize their drilling operations, reduce costs, and increase the likelihood of successful resource extraction.Moreover, the general neutron logging tool is often used in conjunction with other logging techniques, such as gamma-ray logging and resistivity logging. This multi-faceted approach allows for a more comprehensive understanding of the geological environment. By combining data from different sources, geoscientists can create detailed models of subsurface formations, leading to better predictions of resource locations and quantities.In recent years, advancements in technology have improved the functionality of the general neutron logging tool. Modern versions are equipped with sophisticated sensors and digital interfaces that enhance data accuracy and ease of use. These innovations have made it possible to conduct real-time analysis during drilling operations, allowing for immediate adjustments based on the data collected. This capability is particularly beneficial in complex geological settings where conditions can change rapidly.Furthermore, the environmental impact of drilling activities has become a significant concern in the industry. The general neutron logging tool contributes to more environmentally responsible practices by enabling precise targeting of resources, thereby minimizing unnecessary drilling and reducing the overall footprint of exploration activities. By ensuring that wells are drilled in the most promising locations, companies can decrease waste and conserve resources.In conclusion, the general neutron logging tool is an indispensable instrument in the oil and gas industry. Its ability to provide detailed insights into subsurface formations has transformed how geologists and engineers approach resource exploration. As technology continues to evolve, the effectiveness and efficiency of this tool will likely improve, further enhancing its value in sustainable resource management. Understanding the capabilities and applications of the general neutron logging tool is crucial for anyone involved in the energy sector, as it represents a key component in the quest for efficient and responsible resource extraction.

石油和天然气行业在探索和有效提取资源方面高度依赖先进技术。其中一个关键工具就是一般中子测井工具，它在地下评估中发挥着重要作用。该工具旨在测量地质构造的特性，特别是那些含有碳氢化合物的构造。通过理解这些构造的成分和特征，地质学家和工程师可以就钻探和生产策略做出明智的决策。一般中子测井工具的工作原理是基于中子与物质的相互作用。当工具发射中子时，它们会与周围岩石和流体中的原子核碰撞。这种相互作用导致中子的散射，散射程度提供了关于构造密度和孔隙度的宝贵信息。较高的孔隙度通常表示更大的碳氢化合物存在潜力，使该工具在资源勘探中至关重要。使用一般中子测井工具的主要优点之一是它能够区分岩石内的各种流体类型。例如，它可以区分油、气和水，这对于确定井的经济可行性至关重要。通过分析从该工具收集的数据，操作员可以优化钻探作业，降低成本，并增加成功提取资源的可能性。此外，一般中子测井工具通常与其他测井技术结合使用，例如伽马射线测井和电阻率测井。这种多方面的方法使对地质环境的理解更加全面。通过结合来自不同来源的数据，地球科学家可以创建地下构造的详细模型，从而更好地预测资源的位置和数量。近年来，技术的进步提高了一般中子测井工具的功能。现代版本配备了先进的传感器和数字接口，提高了数据的准确性和易用性。这些创新使得在钻探过程中进行实时分析成为可能，允许根据收集的数据立即进行调整。这个能力在复杂的地质环境中尤为有利，因为条件可能会迅速变化。此外，钻探活动对环境的影响已成为行业中的重大关注点。一般中子测井工具通过实现对资源的精确定位，有助于更具环境责任感的实践，从而最小化不必要的钻探，减少勘探活动的整体足迹。通过确保井在最有前景的位置进行钻探，公司可以减少浪费并节约资源。总之，一般中子测井工具是石油和天然气行业中不可或缺的仪器。它提供的对地下构造的详细洞察改变了地质学家和工程师对资源勘探的方式。随着技术的不断发展，该工具的有效性和效率可能会进一步提高，增强其在可持续资源管理中的价值。理解一般中子测井工具的能力和应用对于任何参与能源部门的人来说都是至关重要的，因为它代表了高效和负责任的资源提取追求中的关键组成部分。