radioactive well logging
简明释义
放射性测井
英英释义
例句
1.Before drilling, the team conducted radioactive well logging 放射性井测量 to gather essential data about the subsurface.
在钻探之前,团队进行了放射性井测量以收集关于地下的重要数据。
2.The accuracy of radioactive well logging 放射性井测量 can significantly improve the drilling efficiency in mining operations.
在采矿作业中,放射性井测量的准确性可以显著提高钻探效率。
3.The use of radioactive well logging 放射性井测量 helps in identifying zones of high porosity in the reservoir.
使用放射性井测量有助于识别储层中的高孔隙度区。
4.Engineers analyzed the data from radioactive well logging 放射性井测量 to assess the geological formations surrounding the well.
工程师分析了来自放射性井测量的数据,以评估井周围的地质构造。
5.During the oil exploration phase, the geologists used radioactive well logging 放射性井测量 to determine the presence of hydrocarbons.
在石油勘探阶段,地质学家使用放射性井测量来确定碳氢化合物的存在。
作文
In the field of geosciences and petroleum engineering, various techniques are employed to gather information about subsurface formations. One such technique is known as radioactive well logging, which utilizes radioactive isotopes to analyze the properties of geological formations surrounding a borehole. This method plays a crucial role in the exploration and production of oil and gas, as well as in environmental studies and groundwater assessments.Radioactive well logging involves the use of a logging tool that is lowered into a wellbore. This tool emits gamma rays or other forms of radiation that interact with the surrounding rock and fluids. The response of these interactions is measured and recorded, providing valuable data about the composition and characteristics of the geological formations. For instance, different minerals and hydrocarbons have distinct responses to radiation, allowing geologists to identify the presence of oil, gas, or water in the subsurface layers.One significant advantage of radioactive well logging is its ability to provide real-time data during drilling operations. This immediacy allows engineers to make informed decisions on the drilling process, optimizing the extraction of resources and minimizing costs. Additionally, the data obtained can help in predicting the behavior of reservoirs over time, which is essential for effective resource management.Moreover, radioactive well logging is not limited to hydrocarbon exploration. It is also used in environmental monitoring, where it aids in identifying contamination levels in groundwater. By analyzing the radiation levels in soil and water samples, scientists can assess the impact of industrial activities and develop strategies for remediation.Safety is a paramount concern when it comes to radioactive well logging. The use of radioactive materials must be carefully controlled and monitored to prevent any harmful exposure to workers and the environment. Regulations govern the handling and disposal of radioactive waste generated during logging operations, ensuring that these activities are conducted responsibly.In conclusion, radioactive well logging is an indispensable tool in modern geoscience, providing critical insights into subsurface geology. Its applications extend beyond the oil and gas industry, impacting environmental science and resource management. As technology advances, the methods and instruments used in radioactive well logging will continue to evolve, offering even greater precision and safety in the exploration of our planet's resources.
在地球科学和石油工程领域,采用各种技术来收集地下层的信息。其中一种技术被称为放射性井测井,它利用放射性同位素分析围绕钻孔的地质构造特性。这种方法在石油和天然气的勘探与生产中发挥着至关重要的作用,同时也用于环境研究和地下水评估。放射性井测井涉及将测井工具放入井眼中。该工具发射伽马射线或其他形式的辐射,与周围的岩石和流体相互作用。这些相互作用的响应被测量和记录,提供有关地质构造组成和特征的宝贵数据。例如,不同的矿物和烃类对辐射的响应各不相同,这使得地质学家能够识别地下层中石油、天然气或水的存在。放射性井测井的一项显著优势是能够在钻井作业期间提供实时数据。这种即时性使工程师能够就钻井过程做出明智的决策,优化资源的开采并降低成本。此外,获得的数据可以帮助预测储层随时间的行为,这对于有效的资源管理至关重要。此外,放射性井测井不仅限于碳氢化合物的勘探。它还用于环境监测,通过分析土壤和水样中的辐射水平,帮助识别地下水中的污染水平。通过分析土壤和水样中的辐射水平,科学家可以评估工业活动的影响,并制定修复策略。安全性是放射性井测井的首要关注点。使用放射性材料必须严格控制和监测,以防止工人和环境受到有害暴露。法规规范了在测井操作中产生的放射性废物的处理和处置,确保这些活动以负责任的方式进行。总之,放射性井测井是现代地球科学中不可或缺的工具,为地下地质提供了关键洞察。它的应用超越了石油和天然气行业,影响着环境科学和资源管理。随着技术的进步,放射性井测井中使用的方法和仪器将继续发展,提供更大的精确度和安全性,以探索我们星球的资源。
