apparent gas in place
简明释义
1. 视天然气储量; 2. 视天然气地质储量;
英英释义
例句
1.The report highlighted the apparent gas in place as a key factor in determining the economic feasibility of the gas field.
报告强调了表观气体储量作为确定该气田经济可行性的关键因素。
2.Investors are interested in the apparent gas in place data to make informed decisions about funding exploration projects.
投资者对表观气体储量数据感兴趣,以便做出关于资助勘探项目的明智决策。
3.The geological survey indicated that there is a significant amount of apparent gas in place in the northern region, suggesting potential for future extraction.
地质调查显示,北部地区存在大量的表观气体储量,这表明未来开采的潜力。
4.The company reported an increase in apparent gas in place estimates due to improved technology and analysis methods.
该公司报告称,由于技术和分析方法的改进,表观气体储量的估计有所增加。
5.Engineers need to assess the apparent gas in place before drilling to ensure the viability of the project.
工程师在钻探之前需要评估表观气体储量,以确保项目的可行性。
作文
In the field of geology and petroleum engineering, understanding the concept of apparent gas in place is crucial for evaluating natural gas reserves. The term refers to the estimated volume of gas that exists within a reservoir, taking into account various factors such as pressure, temperature, and rock properties. This estimation is not merely a theoretical exercise; it has significant implications for energy production and resource management. To grasp the significance of apparent gas in place, one must first understand how gas accumulates in geological formations. Natural gas is often found in porous rocks that can store large quantities of gas. These reservoirs can be classified into different types based on their geological characteristics. The volume of gas that can be extracted from these reservoirs depends on the pressure and temperature conditions present at the time of extraction. When geologists and engineers assess a potential gas reservoir, they conduct various tests and analyses to determine the apparent gas in place. This involves studying seismic data, drilling core samples, and performing reservoir simulations. By analyzing this data, professionals can estimate the total amount of gas that could be produced from a reservoir under optimal conditions. However, it is essential to note that the apparent gas in place is just an estimate; it does not guarantee that all of this gas can be extracted economically or efficiently. One of the critical aspects of calculating apparent gas in place is understanding the concept of recovery factors. Recovery factors represent the percentage of gas that can be recovered from a reservoir compared to the total apparent gas in place. Various factors influence recovery rates, including the technology used for extraction, the properties of the reservoir rock, and the economic viability of production. For instance, advanced techniques like hydraulic fracturing have significantly increased recovery rates in shale gas formations, allowing producers to access gas that was previously considered unrecoverable. Moreover, the apparent gas in place is also influenced by market dynamics. As demand for natural gas fluctuates, the economic feasibility of extracting gas from certain reservoirs may change. In times of high demand, even reservoirs with lower recovery factors might become attractive for development. Conversely, during periods of low demand, operators may choose to postpone extraction efforts, leading to a reassessment of the apparent gas in place. In conclusion, the concept of apparent gas in place is fundamental in the exploration and production of natural gas. It provides a framework for estimating the potential resources available within a reservoir and guides decision-making in the energy industry. Understanding this term allows stakeholders to make informed choices about investments, technological developments, and resource management strategies. As the world continues to seek sustainable energy solutions, the accurate assessment of apparent gas in place will remain a vital component of ensuring energy security and efficiency.
在地质学和石油工程领域,理解“apparent gas in place”的概念对于评估天然气储量至关重要。这个术语指的是在一个储层内存在的气体的估计体积,考虑了压力、温度和岩石特性等各种因素。这一估算不仅仅是一个理论上的练习;它对能源生产和资源管理有着重要的影响。要掌握“apparent gas in place”的意义,首先必须了解气体如何在地质构造中积累。天然气通常存在于能够储存大量气体的多孔岩石中。这些储层可以根据其地质特征分为不同类型。从这些储层中提取的气体体积取决于提取时的压力和温度条件。当地质学家和工程师评估潜在的气体储层时,他们会进行各种测试和分析,以确定“apparent gas in place”。这涉及研究地震数据、钻探岩心样本和进行储层模拟。通过分析这些数据,专业人员可以估算在最佳条件下可以从储层中生产的气体总量。然而,必须注意的是,“apparent gas in place”只是一个估算;它并不保证所有这些气体都可以经济或有效地提取。计算“apparent gas in place”的一个关键方面是理解回收因子的概念。回收因子表示与储层中“apparent gas in place”的总量相比,可以从储层回收的气体百分比。各种因素影响回收率,包括用于提取的技术、储层岩石的特性以及生产的经济可行性。例如,先进的水力压裂技术显著提高了页岩气储层的回收率,使生产商能够访问以前被认为不可回收的气体。此外,“apparent gas in place”也受到市场动态的影响。随着对天然气需求的波动,从某些储层提取气体的经济可行性可能会发生变化。在需求高涨时期,即使是回收因子较低的储层也可能变得具有开发吸引力。相反,在需求低迷时期,运营商可能选择推迟提取工作,导致对“apparent gas in place”的重新评估。总之,“apparent gas in place”的概念在天然气的勘探和生产中是基础性的。它提供了一个框架,用于估算储层内可用的潜在资源,并指导能源行业的决策。理解这个术语使利益相关者能够就投资、技术开发和资源管理策略作出明智的选择。随着世界继续寻求可持续的能源解决方案,对“apparent gas in place”的准确评估将仍然是确保能源安全和效率的重要组成部分。
