additional porosity

简明释义

附加孔隙度;

英英释义

例句

1.Engineers found that the additional porosity in the soil improved the drainage system significantly.

工程师发现土壤中的额外的孔隙度显著改善了排水系统。

2.Adding additional porosity to the ceramic allowed for better air flow during the firing process.

在陶瓷中增加额外的孔隙度允许在烧制过程中更好的气流。

3.The team experimented with additional porosity in their biofilters to enhance pollutant removal.

团队在他们的生物过滤器中实验了额外的孔隙度以增强污染物去除效果。

4.The new material was designed with additional porosity to enhance its ability to absorb moisture.

这种新材料设计有额外的孔隙度以增强其吸湿能力。

5.The researchers discovered that additional porosity in the foam could lead to better insulation properties.

研究人员发现泡沫中的额外的孔隙度可以导致更好的绝缘性能。

作文

In the field of geology and petroleum engineering, understanding the concept of porosity is crucial for evaluating the potential of a reservoir. Porosity refers to the measure of void spaces in a material, and it plays a significant role in determining how much fluid can be stored within a rock formation. When we talk about additional porosity, we are referring to the extra void spaces that can be created or enhanced through various geological processes or human interventions. This concept is particularly important when assessing unconventional reservoirs, such as shale gas or tight oil formations.The presence of additional porosity can significantly influence the flow of hydrocarbons within a reservoir. For example, during the process of hydraulic fracturing, fractures are created in the rock, which can lead to the development of additional porosity. These fractures not only increase the overall porosity of the rock but also enhance its permeability, allowing for improved fluid flow. As a result, operators can extract more oil and gas from the reservoir than would be possible without these interventions.Moreover, understanding additional porosity can help geologists and engineers make better predictions about reservoir performance. By analyzing the factors that contribute to the creation of additional porosity, such as mineral dissolution or the presence of natural fractures, experts can develop more accurate models of how fluids will behave in the subsurface. This knowledge is essential for optimizing extraction techniques and maximizing resource recovery.In addition to its implications for hydrocarbon extraction, additional porosity also has environmental considerations. The increased porosity can lead to higher rates of fluid migration, which may pose risks of contamination for surrounding groundwater resources. Therefore, it is vital for engineers to carefully assess the potential impacts of creating additional porosity through their operations. This includes implementing monitoring systems to track fluid movements and ensuring that proper safeguards are in place to protect the environment.In conclusion, additional porosity is a key concept in the study of reservoir dynamics and fluid flow. It represents the extra void spaces that can be developed within a rock formation, significantly influencing the extraction of hydrocarbons and the overall performance of a reservoir. However, with the benefits of additional porosity come responsibilities, particularly concerning environmental protection. As the industry continues to evolve, a deeper understanding of additional porosity will be essential for balancing resource extraction with environmental stewardship.

在地质学和石油工程领域，理解孔隙度的概念对于评估储层的潜力至关重要。孔隙度是指材料中空隙空间的测量，它在确定岩石形成中能够储存多少流体方面发挥着重要作用。当我们谈论额外孔隙度时，我们指的是通过各种地质过程或人为干预所创造或增强的额外空隙。这一概念在评估非常规储层（如页岩气或致密油层）时尤为重要。额外孔隙度的存在可以显著影响储层内烃类的流动。例如，在水力压裂过程中，岩石中会产生裂缝，这可能导致额外孔隙度的发展。这些裂缝不仅增加了岩石的整体孔隙度，还提高了其渗透性，从而允许流体更好地流动。因此，运营商可以从储层中提取更多的石油和天然气，而不需要这些干预措施。此外，了解额外孔隙度可以帮助地质学家和工程师更好地预测储层性能。通过分析导致额外孔隙度形成的因素，例如矿物溶解或自然裂缝的存在，专家可以开发出更准确的地下流体行为模型。这一知识对于优化开采技术和最大化资源回收至关重要。除了对烃类开采的影响外，额外孔隙度还有环境方面的考虑。增加的孔隙度可能导致流体迁移速率的提高，这可能对周围的地下水资源造成污染风险。因此，工程师必须仔细评估通过其操作创建额外孔隙度的潜在影响。这包括实施监测系统以跟踪流体运动，并确保采取适当的保护措施以保护环境。总之，额外孔隙度是研究储层动力学和流体流动的关键概念。它代表了岩石形成中可以发展出的额外空隙，显著影响烃类的提取和储层的整体性能。然而，伴随额外孔隙度的好处也带来了责任，特别是在环境保护方面。随着行业的不断发展，对额外孔隙度的更深入理解将对平衡资源开采与环境管理至关重要。