occluded gas

简明释义

吸留气体

英英释义

例句

1.Scientists are studying the effects of occluded gas (被封闭的气体) on the overall geological structure of the area.

科学家们正在研究occluded gas（被封闭的气体）对该地区整体地质结构的影响。

2.The presence of occluded gas (被封闭的气体) in the sedimentary layers can affect the stability of the ground during construction projects.

沉积层中存在的occluded gas（被封闭的气体）可能会影响建筑项目期间地面的稳定性。

3.The extraction process involves releasing occluded gas (被封闭的气体) from deep within the earth.

提取过程涉及从地球深处释放occluded gas（被封闭的气体）。

4.The geologist discovered that the rock formation contained significant amounts of occluded gas (被封闭的气体), which could potentially be extracted for energy.

地质学家发现岩石层中含有大量的occluded gas（被封闭的气体），这些气体可能被提取用于能源。

5.During the drilling process, we encountered a layer rich in occluded gas (被封闭的气体), indicating a promising site for natural gas extraction.

在钻探过程中，我们遇到了一层富含occluded gas（被封闭的气体），这表明这是一个天然气开采的有前景地点。

作文

In the study of geology and petrology, the term occluded gas refers to gases that are trapped within the pores of a rock or mineral. This phenomenon is particularly significant in the context of hydrocarbon reservoirs, where the presence of occluded gas can influence the extraction process and the overall yield of natural resources. Understanding the behavior of occluded gas is essential for geologists and engineers as they assess the viability of drilling operations and the potential for oil and gas recovery.The formation of occluded gas occurs during various geological processes. For instance, when organic materials are subjected to heat and pressure over millions of years, they can generate hydrocarbons, which may then become trapped within the rock matrix. This trapping can occur in several ways, including physical entrapment in the pore spaces of the rock or chemical bonding with the mineral surfaces. The study of occluded gas is critical because it can significantly affect the permeability and porosity of rocks, which are key factors in determining how easily fluids can move through them.Moreover, the presence of occluded gas can alter the physical characteristics of the reservoir. For example, if a significant amount of gas is occluded within the rock, it can create pressure build-up, leading to the potential for gas migration or even explosive releases if not properly managed. This makes it imperative for engineers to conduct thorough geological surveys and modeling to predict the behavior of occluded gas in various scenarios, especially during drilling operations.Additionally, occluded gas plays a role in the environmental considerations of resource extraction. The release of gases from reservoirs can lead to greenhouse gas emissions, contributing to climate change. Understanding how occluded gas is stored and released helps companies implement better management practices to minimize their environmental footprint. Techniques such as enhanced oil recovery (EOR) often involve manipulating the conditions within the reservoir to either extract more hydrocarbons or to safely contain the occluded gas.Furthermore, research into occluded gas has implications beyond just the oil and gas industry. It also extends into fields such as volcanology, where the understanding of gas occlusion can provide insights into volcanic activity. Gases that are occluded gas within magma can indicate the potential for eruptions and help scientists predict volcanic behavior.In conclusion, the concept of occluded gas is multifaceted and plays a crucial role in various scientific and industrial applications. From influencing the extraction of energy resources to providing insights into geological processes, understanding occluded gas is vital. As technology advances and our understanding deepens, the management and study of occluded gas will continue to evolve, highlighting its importance in both resource extraction and environmental stewardship.

在地质学和岩石学的研究中，术语occluded gas指的是被困在岩石或矿物孔隙中的气体。这一现象在油气储层的背景下尤为重要，因为occluded gas的存在可能影响提取过程和自然资源的整体产量。理解occluded gas的行为对于地质学家和工程师评估钻探作业的可行性及石油和天然气的回收潜力至关重要。occluded gas的形成发生在各种地质过程中。例如，当有机材料在数百万年的热和压力下作用时，它们可以生成碳氢化合物，这些碳氢化合物可能会被困在岩石基质中。这种困住可以通过多种方式发生，包括物理困住在岩石的孔隙空间中或与矿物表面化学结合。研究occluded gas至关重要，因为它可以显著影响岩石的渗透性和孔隙度，而这些是决定流体如何轻易通过岩石的关键因素。此外，occluded gas的存在可以改变储层的物理特性。例如，如果岩石中被困了大量气体，它可能会导致压力积聚，从而在未妥善管理的情况下导致气体迁移甚至爆炸性释放。因此，工程师必须进行彻底的地质调查和建模，以预测occluded gas在各种场景中的行为，特别是在钻探操作期间。此外，occluded gas在资源提取的环境考虑中也起着重要作用。储层中气体的释放可能导致温室气体排放，助长气候变化。了解occluded gas的储存和释放方式有助于公司实施更好的管理实践，以最小化其环境足迹。增强油气回收（EOR）等技术通常涉及操控储层内的条件，以提取更多的碳氢化合物或安全地容纳occluded gas。此外，对occluded gas的研究不仅限于石油和天然气行业。它还扩展到火山学等领域，在那里对气体闭合的理解可以提供火山活动的见解。被occluded gas困住的气体可以指示喷发的潜力，并帮助科学家预测火山行为。总之，occluded gas的概念是多方面的，在各种科学和工业应用中发挥着至关重要的作用。从影响能源资源的提取到提供对地质过程的见解，理解occluded gas至关重要。随着技术的进步和我们理解的加深，occluded gas的管理和研究将继续发展，突显其在资源提取和环境管理中的重要性。