bulk of reservoir rock

简明释义

1. 储层大小; 2. 储层容积; 3. 储油层容积;

英英释义

例句

1.The study focused on analyzing the bulk of reservoir rock 储层岩石的主体 to improve our understanding of fluid flow in the reservoir.

这项研究集中在分析储层岩石的主体 以提高我们对油气藏中流体流动的理解。

2.The bulk of reservoir rock 储层岩石的主体 was found to have a high porosity, allowing for better hydrocarbon accumulation.

发现储层岩石的主体 具有高孔隙度，有利于更好的碳氢化合物积累。

3.During the drilling process, we encountered the bulk of reservoir rock 储层岩石的主体, which indicated a promising area for oil extraction.

在钻探过程中，我们遇到了储层岩石的主体 ，这表明这是一个有前景的石油开采区域。

4.Understanding the composition of the bulk of reservoir rock 储层岩石的主体 is crucial for effective reservoir management.

了解储层岩石的主体 的成分对有效的油藏管理至关重要。

5.The geologist explained that the bulk of reservoir rock 储层岩石的主体 is essential for determining the storage capacity of the field.

地质学家解释说，储层岩石的主体 是确定该油田储存能力的关键。

作文

Understanding the concept of the bulk of reservoir rock is essential for anyone involved in geology, petroleum engineering, or environmental science. Reservoir rocks are geological formations that can store significant amounts of fluids, such as oil and natural gas. The bulk of reservoir rock refers to the majority portion of these rocks that possess the necessary characteristics for fluid storage and movement. These characteristics include porosity, which is the measure of void spaces in the rock, and permeability, which is the ability of the rock to transmit fluids through its interconnected pore spaces.In the context of oil and gas exploration, the bulk of reservoir rock plays a crucial role in determining the viability of a reservoir. For instance, if the bulk of reservoir rock has high porosity but low permeability, it may hold a large amount of hydrocarbons; however, extracting those resources could be challenging. Conversely, a reservoir with lower porosity but higher permeability may allow for easier extraction, despite holding less total fluid. Therefore, understanding the properties of the bulk of reservoir rock helps geologists and engineers assess the potential yield of a reservoir.Moreover, the bulk of reservoir rock can vary significantly across different geological settings. For example, sandstone and limestone are common types of reservoir rocks, each exhibiting unique properties. In sandstone, the bulk of reservoir rock often consists of grains that are well-sorted and well-cemented, leading to higher porosity and permeability. On the other hand, limestone may have a more complex structure due to its formation from biological processes, resulting in varying porosity and permeability throughout the rock.The study of the bulk of reservoir rock is not limited to hydrocarbons; it also extends to groundwater reservoirs and carbon dioxide storage. In groundwater studies, the bulk of reservoir rock determines how much water can be stored and how easily it can be accessed. Similarly, in carbon capture and storage projects, understanding the bulk of reservoir rock is vital for ensuring that injected carbon dioxide remains trapped and does not migrate to the surface.Furthermore, advancements in technology have enhanced our ability to analyze the bulk of reservoir rock. Techniques such as 3D seismic imaging and reservoir simulation models allow scientists and engineers to visualize and predict the behavior of fluids within these rocks. By integrating data on the bulk of reservoir rock with advanced modeling, we can make more informed decisions about resource extraction and management.In conclusion, the bulk of reservoir rock is a fundamental concept in the fields of geology and petroleum engineering. It encompasses the physical properties and characteristics of reservoir rocks that influence fluid storage and movement. A thorough understanding of the bulk of reservoir rock is crucial for effective resource management, whether it be for fossil fuels, groundwater, or carbon sequestration. As we continue to face challenges related to energy production and environmental sustainability, the knowledge of the bulk of reservoir rock will remain an invaluable asset for scientists and engineers alike.

理解“bulk of reservoir rock”这一概念对于任何涉及地质学、石油工程或环境科学的人来说都是至关重要的。储层岩石是可以储存大量流体（如石油和天然气）的地质构造。“bulk of reservoir rock”指的是这些岩石中具有必要特征以储存和移动流体的主要部分。这些特征包括孔隙度，即岩石中空隙的测量，以及渗透率，即岩石通过其相互连接的孔隙传输流体的能力。在石油和天然气勘探的背景下，“bulk of reservoir rock”在确定储层的可行性方面发挥着关键作用。例如，如果“bulk of reservoir rock”具有高孔隙度但低渗透率，它可能会储存大量的碳氢化合物；然而，提取这些资源可能会面临挑战。相反，具有较低孔隙度但较高渗透率的储层可能允许更容易的提取，尽管其总流体含量较少。因此，了解“bulk of reservoir rock”的特性有助于地质学家和工程师评估储层的潜在产量。此外，“bulk of reservoir rock”在不同的地质环境中可能会显著变化。例如，砂岩和石灰岩是常见的储层岩石，各自展现出独特的特性。在砂岩中，“bulk of reservoir rock”通常由良好分选和良好胶结的颗粒组成，从而导致较高的孔隙度和渗透率。另一方面，石灰岩由于其生物形成过程可能具有更复杂的结构，导致岩石的孔隙度和渗透率在整个岩石中变化。“bulk of reservoir rock”的研究不仅限于碳氢化合物；它还扩展到地下水储层和二氧化碳储存。在地下水研究中，“bulk of reservoir rock”决定了可以储存多少水以及多容易获取。同样，在碳捕获和储存项目中，了解“bulk of reservoir rock”对确保注入的二氧化碳保持被困并且不向地表迁移至关重要。此外，技术的进步增强了我们分析“bulk of reservoir rock”的能力。三维地震成像和储层模拟模型等技术使科学家和工程师能够可视化和预测流体在这些岩石中的行为。通过将有关“bulk of reservoir rock”的数据与先进模型相结合，我们可以更明智地做出有关资源提取和管理的决策。总之，“bulk of reservoir rock”是地质学和石油工程领域的一个基本概念。它涵盖了影响流体储存和运动的储层岩石的物理特性和特征。对“bulk of reservoir rock”的透彻理解对于有效的资源管理至关重要，无论是针对化石燃料、地下水还是碳封存。随着我们继续面临与能源生产和环境可持续性相关的挑战，对“bulk of reservoir rock”的知识将仍然是科学家和工程师们宝贵的资产。