petrophysical

简明释义

英[/ˌpɛtrəˈfɪzɪkəl/]美[/ˌpɛtrəˈfɪzɪkəl/]

adj. 岩石物理的

英英释义

单词用法

同义词

反义词

例句

1.The key factors influencing Archie's parameters, especially the influence of petrophysical properties and wettability, were discussed.

讨论了岩石物性和岩石润湿性对阿尔奇参数的影响。

2.The non-producing reserves are mainly characterized by poor petrophysical property, low reserve abundance and large variation of reservoir buried depth, etc.

新疆油田低渗透孔隙型油藏未动用储量的主要特点为储层物性差、储量丰度低、油藏埋藏深度变化范围大等。

3.There is better correlation between macro petrophysical parameters and micro structural parameters.

储集层的宏观物性参数与微观结构参数之间有良好的相关关系。

4.Petrophysical parameters are the basis of seismic reflection character analysis.

岩石物理参数是地震反射特征分析的基础。

5.The minimum core size that can result in stable petrophysical parameters may be defined as the characteristic scale of rock continuity.

物性参数分析值不发生剧烈变化的最小岩心尺度，称作岩石的连续性特征尺度。

6.The exploration of mid-deep oil and gas is constrained mainly by reservoir petrophysical changes of deep Dongying and Shahejie Formations.

辽中凹陷沙河街组及部分东营组储层埋藏深度大及储层物性变化大的特点制约了中深层油气的勘探；

7.The engineer conducted a detailed petrophysical analysis to determine the reservoir's properties.

工程师进行了详细的岩石物理分析，以确定储层的特性。

8.Understanding the petrophysical characteristics of the rock is essential for drilling operations.

了解岩石的岩石物理特性对于钻探作业至关重要。

9.The petrophysical data collected from the field will help in predicting oil production rates.

从现场收集的岩石物理数据将有助于预测石油生产率。

10.We need to integrate petrophysical studies with geophysical surveys for better results.

我们需要将岩石物理研究与地球物理勘测结合，以获得更好的结果。

11.The petrophysical models developed were crucial for the success of the exploration project.

开发的岩石物理模型对勘探项目的成功至关重要。

作文

Understanding the term petrophysical is crucial for anyone involved in the fields of geology, petroleum engineering, and environmental science. The word petrophysical refers to the study of the physical and chemical properties of rocks and their interactions with fluids. This discipline plays a vital role in exploration and production activities in the oil and gas industry, as well as in groundwater studies and geological research. The significance of petrophysical properties lies in their ability to influence the behavior of reservoirs. For instance, understanding porosity and permeability is essential for predicting how fluids will move through rock formations. Porosity refers to the void spaces within a rock, while permeability measures the ability of those spaces to allow fluids to flow. These two parameters are fundamental in assessing the viability of a reservoir for hydrocarbon extraction or groundwater supply. In addition to porosity and permeability, other petrophysical properties such as density, sonic velocity, and electrical conductivity provide valuable insights into the composition and structure of subsurface materials. By conducting various laboratory tests and utilizing advanced technologies like seismic imaging, geologists and engineers can obtain a comprehensive understanding of the petrophysical characteristics of a given area. This knowledge is essential for making informed decisions regarding drilling locations and extraction methods. Moreover, the integration of petrophysical data with geological and geophysical information enhances the overall interpretation of subsurface conditions. For example, when combined with seismic data, petrophysical properties can help delineate different rock types and identify potential reservoirs. This multidisciplinary approach allows for more accurate modeling of subsurface environments, ultimately leading to better resource management and environmental protection. In recent years, advancements in technology have further improved the study of petrophysical properties. The use of machine learning and artificial intelligence in analyzing large datasets has revolutionized the way scientists interpret petrophysical information. These tools facilitate the identification of patterns and correlations that may not be immediately apparent through traditional methods. As a result, the efficiency and accuracy of reservoir characterization have significantly increased, allowing for more effective exploration and production strategies. Furthermore, understanding petrophysical properties is not only important for resource extraction but also for environmental considerations. For instance, knowledge of how contaminants behave in different rock types is critical for groundwater protection and remediation efforts. By studying the petrophysical characteristics of aquifers, scientists can develop strategies to mitigate pollution and ensure sustainable water resources. In conclusion, the study of petrophysical properties is an essential aspect of modern geology and engineering. It provides the foundation for understanding the behavior of subsurface materials and their interactions with fluids. As technology continues to advance, the field of petrophysical research will undoubtedly evolve, offering new insights and solutions for both resource management and environmental protection. Therefore, gaining a solid grasp of the concept of petrophysical is imperative for professionals engaged in these critical fields.

理解术语petrophysical（岩石物理学）对于任何参与地质学、石油工程和环境科学领域的人来说都是至关重要的。这个词petrophysical指的是对岩石的物理和化学性质及其与流体相互作用的研究。这个学科在石油和天然气行业的勘探和生产活动中发挥着至关重要的作用，同时也在地下水研究和地质研究中扮演着重要角色。 petrophysical性质的重要性在于它们能够影响储层的行为。例如，理解孔隙度和渗透率对于预测流体如何在岩石层中移动是至关重要的。孔隙度指的是岩石内部的空隙，而渗透率则衡量这些空隙允许流体流动的能力。这两个参数是评估油气开采或地下水供应的储层可行性的基础。 除了孔隙度和渗透率之外，其他petrophysical性质如密度、声速和电导率也提供了关于地下材料组成和结构的宝贵见解。通过进行各种实验室测试和利用先进的技术，如地震成像，地质学家和工程师可以获得对特定区域的petrophysical特征的全面了解。这些知识对于做出关于钻探位置和开采方法的明智决策至关重要。 此外，将petrophysical数据与地质和地球物理信息结合起来，可以增强对地下条件的整体解释。例如，当与地震数据结合时，petrophysical性质可以帮助划分不同的岩石类型并识别潜在的储层。这种多学科的方法使得对地下环境的建模更加准确，最终导致更好的资源管理和环境保护。 近年来，技术的进步进一步改善了对petrophysical性质的研究。机器学习和人工智能在分析大型数据集中的应用彻底改变了科学家对petrophysical信息的解释方式。这些工具促进了识别模式和相关性的过程，这些模式和相关性可能通过传统方法不易显现。因此，储层特征的效率和准确性显著提高，使得探索和生产策略更加有效。 此外，理解petrophysical性质不仅对资源开采重要，而且对环境考虑也至关重要。例如，了解污染物在不同岩石类型中的行为对于地下水保护和修复工作至关重要。通过研究含水层的petrophysical特征，科学家可以制定减轻污染和确保可持续水资源的策略。 总之，对petrophysical性质的研究是现代地质学和工程学的一个重要方面。它为理解地下材料的行为及其与流体的相互作用提供了基础。随着技术的不断进步，petrophysical研究领域无疑将不断发展，提供新的见解和解决方案，以便于资源管理和环境保护。因此，深入掌握petrophysical这一概念对于从事这些关键领域的专业人士来说是至关重要的。