3D seismics
简明释义
1. 三维地震; 2. 三维地震勘探;
英英释义
3D seismics refers to the use of three-dimensional seismic imaging techniques to analyze and visualize subsurface geological structures and features. | 3D地震学是指使用三维地震成像技术来分析和可视化地下地质结构和特征。 |
例句
1.The oil company invested heavily in 3D seismics to locate new drilling sites.
这家石油公司在3D地震勘探上投入了大量资金,以寻找新的钻探地点。
2.The accuracy of 3D seismics has revolutionized the field of mineral exploration.
3D地震勘探的准确性彻底改变了矿产勘探领域。
3.Using 3D seismics allows geologists to create detailed images of the Earth's subsurface.
使用3D地震勘探可以让地质学家创建地球地下的详细图像。
4.The integration of 3D seismics with other geological data enhances our understanding of the area.
将3D地震勘探与其他地质数据结合,可以增强我们对该地区的理解。
5.After conducting 3D seismics, the team was able to identify potential earthquake zones.
在进行3D地震勘探后,团队能够识别潜在的地震区域。
作文
In recent years, the field of geophysics has made significant strides in improving our understanding of the Earth's subsurface structures. One of the most groundbreaking advancements in this area is the development of 3D seismics (三维地震勘探). This technology enables scientists and engineers to visualize and analyze geological formations in three dimensions, providing a more comprehensive view than traditional two-dimensional methods. The importance of 3D seismics cannot be overstated, especially in industries such as oil and gas exploration, mining, and environmental studies.The principle behind 3D seismics involves the use of seismic waves generated by controlled sources, such as explosions or vibrators, which travel through the Earth. These waves reflect off different geological layers and are recorded by an array of sensors placed on the surface. By analyzing the time it takes for the waves to return and their amplitude, geophysicists can create detailed images of the subsurface structures.One of the primary advantages of 3D seismics over traditional methods is its ability to provide a more accurate representation of complex geological formations. In many cases, subsurface structures are not uniform and can contain faults, folds, and other irregularities that are difficult to interpret using 2D data. With 3D seismics, geologists can visualize these complexities and make more informed decisions about drilling locations or resource extraction.Moreover, 3D seismics plays a crucial role in reducing exploration risks. By obtaining a clearer picture of the geological environment, companies can avoid costly mistakes associated with drilling in unproductive areas. This not only saves money but also minimizes the environmental impact of exploration activities. In addition, the detailed information gathered through 3D seismics can help in assessing the potential for natural hazards, such as earthquakes or landslides, thereby contributing to public safety.The applications of 3D seismics extend beyond resource extraction. In the field of environmental science, this technology is used to study groundwater resources, assess contamination, and monitor changes in the subsurface due to human activities. For instance, 3D seismics can help identify the extent of pollution plumes in aquifers, allowing for more effective remediation strategies.In conclusion, the advent of 3D seismics has revolutionized the way we explore and understand the Earth's subsurface. Its ability to provide detailed, three-dimensional images of geological formations has made it an invaluable tool in various fields, from energy production to environmental protection. As technology continues to advance, we can expect even greater improvements in the accuracy and efficiency of 3D seismics, paving the way for a deeper understanding of our planet's geology and helping us make more sustainable choices for the future.
近年来,地球物理学领域在提高我们对地球地下结构的理解方面取得了显著进展。其中最具突破性的进展之一是3D seismics(三维地震勘探)技术的发展。这项技术使科学家和工程师能够以三维方式可视化和分析地质构造,提供比传统二维方法更全面的视角。3D seismics的重要性不言而喻,尤其是在石油和天然气勘探、采矿和环境研究等行业。3D seismics的原理涉及使用由控制源(如爆炸或振动器)产生的地震波,这些波在地球内部传播。这些波在不同的地质层面反射,并由放置在地表的一系列传感器记录。通过分析波返回的时间和幅度,地球物理学家可以创建详细的地下结构图像。3D seismics相对于传统方法的主要优势之一是它能够提供复杂地质构造的更准确表示。在许多情况下,地下结构并不均匀,可能包含断层、褶皱和其他不规则性,这些在使用二维数据时难以解释。通过3D seismics,地质学家可以可视化这些复杂性,并就钻探位置或资源提取做出更明智的决策。此外,3D seismics在降低勘探风险方面发挥着至关重要的作用。通过获取更清晰的地质环境图像,公司可以避免与在无生产区域钻探相关的昂贵错误。这不仅节省了资金,还最小化了勘探活动对环境的影响。此外,通过3D seismics收集的详细信息可以帮助评估自然灾害的潜在风险,例如地震或滑坡,从而有助于公共安全。3D seismics的应用超出了资源开采。在环境科学领域,这项技术用于研究地下水资源、评估污染和监测由于人类活动引起的地下变化。例如,3D seismics可以帮助识别水层中污染羽流的范围,从而允许更有效的修复策略。总之,3D seismics的出现彻底改变了我们探索和理解地球地下的方式。其提供详细的三维地质构造图像的能力使其成为各个领域中不可或缺的工具,从能源生产到环境保护。随着技术的不断进步,我们可以期待3D seismics在准确性和效率方面的进一步提升,为我们更深入地了解地球的地质提供了可能,并帮助我们为未来做出更可持续的选择。
