geoprobe

简明释义

英[ˈdʒiːoʊˌproʊb]美[ˈdʒiːoʊˌproʊb]

地球物理探测火箭

英英释义

单词用法

同义词

反义词

例句

1.Used by all the major oil companies, programs like GeoProbe from Halliburton (HAL) subsidiary Landmark produce clear 3d images of rock structures under the seabed.

像GeoProbe(由Halliburton公司出品)就是一个被大多数石油开采公司采用的程序，这个程序附带的地标装置就能对海底下的岩石结构生成清晰的三维图像。

2.Used by all the major oil companies, programs like GeoProbe from Halliburton (HAL) subsidiary Landmark produce clear 3d images of rock structures under the seabed.

像GeoProbe(由Halliburton公司出品)就是一个被大多数石油开采公司采用的程序，这个程序附带的地标装置就能对海底下的岩石结构生成清晰的三维图像。

3.The construction project required a geoprobe to ensure safe digging conditions.

建设项目需要使用地质探针以确保安全挖掘条件。

4.The environmental team deployed a geoprobe to assess contamination in the area.

环境团队部署了一个地质探针来评估该地区的污染情况。

5.With the help of a geoprobe, researchers discovered new geological formations.

在地质探针的帮助下，研究人员发现了新的地质构造。

6.The geologist used a geoprobe to collect soil samples from the site.

地质学家使用地质探针从现场收集土壤样本。

7.Using a geoprobe allows for more precise measurements of underground water levels.

使用地质探针可以更精确地测量地下水位。

作文

In the field of geology and environmental science, the term geoprobe is often used to describe a specialized tool or technique for subsurface exploration. A geoprobe allows scientists and researchers to gather data about the Earth's layers without the need for extensive excavation. This method is particularly useful in urban areas where digging can cause significant disruptions and risks. The geoprobe technology employs various sensors and sampling devices that can analyze soil composition, detect contaminants, and assess geological formations. One of the primary advantages of using a geoprobe is its efficiency. Traditional drilling methods can be time-consuming and costly, but with a geoprobe, researchers can quickly obtain samples and data from multiple depths in a fraction of the time. This speed is crucial when conducting environmental assessments, especially in areas that may be affected by pollution or natural disasters. Additionally, the less invasive nature of a geoprobe minimizes the impact on the surrounding environment, making it a preferred choice for many projects.Moreover, the versatility of geoprobes allows them to be used in a variety of settings. Whether it's for groundwater studies, mineral exploration, or archaeological investigations, the adaptability of a geoprobe makes it an invaluable tool for professionals across different disciplines. For instance, in archaeological digs, a geoprobe can help locate artifacts buried deep beneath the surface without disturbing the site, preserving its integrity for future research.Furthermore, advancements in geoprobe technology have led to the development of more sophisticated models equipped with advanced imaging and analysis capabilities. These modern geoprobes can provide real-time data, allowing researchers to make informed decisions on-site. This immediacy enhances the effectiveness of environmental monitoring and remediation efforts, as timely interventions can lead to better outcomes in managing contaminated sites.The use of geoprobes is not limited to scientific research; they also play a crucial role in engineering and construction projects. During site assessments, a geoprobe can identify soil stability and composition, which are critical factors in determining the feasibility of building structures. Engineers rely on the data obtained from geoprobes to design safe and sustainable constructions, ensuring that projects are built on solid foundations.In conclusion, the term geoprobe encompasses a vital aspect of modern geological and environmental studies. Its ability to provide accurate and timely data while minimizing environmental disruption makes it an essential tool for researchers and professionals alike. As technology continues to evolve, the applications of geoprobes will likely expand, further enhancing our understanding of the Earth and its resources. The integration of geoprobes into various fields underscores the importance of innovation in addressing the challenges we face in managing our planet's health and sustainability.

在地质学和环境科学领域，术语geoprobe通常用来描述一种专门的工具或技术，用于地下探测。geoprobe使科学家和研究人员能够收集关于地球层的数据，而无需进行大规模挖掘。这种方法在城市地区尤其有用，因为挖掘可能会造成重大干扰和风险。geoprobe技术采用各种传感器和采样设备，可以分析土壤成分、检测污染物并评估地质构造。使用geoprobe的主要优势之一是其效率。传统的钻探方法可能耗时且成本高，但通过geoprobe，研究人员可以在短时间内快速获得多个深度的样本和数据。这种速度在进行环境评估时至关重要，尤其是在可能受到污染或自然灾害影响的地区。此外，geoprobe的非侵入性特征最小化了对周围环境的影响，使其成为许多项目的首选。此外，geoprobes的多功能性使其可以在各种环境中使用。无论是进行地下水研究、矿产勘探还是考古调查，geoprobe的适应性使其成为各个学科专业人员的重要工具。例如，在考古挖掘中，geoprobe可以帮助定位深埋地下的文物，而不破坏现场，从而保护其完整性以供未来研究。此外，geoprobe技术的进步导致了更复杂型号的发展，这些型号配备了先进的成像和分析能力。这些现代geoprobes可以提供实时数据，使研究人员能够在现场做出明智的决策。这种及时性增强了环境监测和修复工作的有效性，因为及时干预可以带来更好的结果，以管理受污染的地点。geoprobes的使用不仅限于科学研究；它们在工程和建筑项目中也发挥着至关重要的作用。在现场评估期间，geoprobe可以识别土壤的稳定性和成分，这些都是确定建筑结构可行性的关键因素。工程师依赖于从geoprobes获得的数据来设计安全和可持续的建筑，确保项目建立在坚实的基础上。总之，术语geoprobe涵盖了现代地质学和环境研究的重要方面。它能够提供准确和及时的数据，同时最小化环境干扰，使其成为研究人员和专业人士的重要工具。随着技术的不断发展，geoprobes的应用可能会进一步扩展，从而增强我们对地球及其资源的理解。将geoprobes整合到各个领域中强调了创新在应对我们面临的管理地球健康和可持续性挑战中的重要性。