geotechnology
简明释义
英[ˌdʒiːəʊtɛkˈnɒlədʒi]美[ˌdʒiəˈtɛkˌnɑlədʒi]
工艺地质学
地下资源开发工程学
英英释义
单词用法
地质技术应用 | |
地质技术行业 | |
地质技术研究 | |
地质技术创新 | |
地质技术与环境科学 | |
土木工程中的地质技术 | |
地质技术的整合 | |
地质技术的影响 |
同义词
反义词
生物技术 | 生物技术正在革新医学和农业。 | ||
信息技术 | Information technology has transformed the way we communicate. | 信息技术改变了我们的沟通方式。 |
例句
1.As the depth of foundation pits becomes bigger and bigger, the study of prediction and control of the displacement of foundation pits becomes one of the hot subjects studied in geotechnology field.
随着基坑开挖深度的增大,基坑变形的预测与控制已成为岩土工程领域研究的热点之一。
2.The problems of urban environmental geotechnology are the hot spot of engineering geology and geotechnique at present.
城市环境岩士工程问题是当前岩土工程和工程地质界研究的热点。
3.On the contrary, many modern water conservancy projects have been brought out large number problems of environmental geotechnology, and thus have been "short-lived projects" .
相对而言,当今不少水利工程诱发了大量的环境岩土工程问题,使很多水利工程变成“短命工程”。
4.The result of study shows that applying the fractal geometry to explain some problems in geotechnology is very effective.
初步研究结果表明,用分形几何解释某些岩土问题是十分有效的。
5.As the depth of foundation pits becomes bigger and bigger, the study of prediction and control of the displacement of foundation pits becomes one of the hot subjects studied in geotechnology field.
随着基坑开挖深度的增大,基坑变形的预测与控制已成为岩土工程领域研究的热点之一。
6.Seismic stability evaluation of municipal waste landfill is a new challenge in environmental geotechnology.
城市垃圾填埋场的地震稳定性评价是环境岩土工程领域遇到的新问题。
7.Many engineers specialize in geotechnology 地质技术 to improve soil stability for foundations.
许多工程师专注于地质技术,以改善基础的土壤稳定性。
8.Innovations in geotechnology 地质技术 have led to more sustainable construction practices.
地质技术的创新促进了更可持续的建筑实践。
9.Research in geotechnology 地质技术 helps us understand natural disasters better.
地质技术的研究帮助我们更好地理解自然灾害。
10.The use of geotechnology 地质技术 is essential in mining operations to ensure safety.
在采矿作业中,使用地质技术对于确保安全至关重要。
11.The field of geotechnology 地质技术 plays a crucial role in urban planning.
地质技术在城市规划中发挥着至关重要的作用。
作文
In recent years, the field of geotechnology has gained significant attention due to its crucial role in addressing various environmental and engineering challenges. Geotechnology refers to the application of geological science and technology to solve problems related to the earth's materials, structures, and processes. This interdisciplinary field combines aspects of civil engineering, geology, and environmental science, making it essential for sustainable development and infrastructure projects.One of the primary applications of geotechnology is in the construction industry. Engineers use geotechnology to assess soil stability, analyze geological hazards, and design foundations that can withstand natural forces such as earthquakes and landslides. For instance, when constructing a skyscraper, geotechnical engineers conduct extensive soil tests to determine the load-bearing capacity of the ground. This information is vital to ensure that the building's foundation is safe and secure, preventing potential disasters in the future.Moreover, geotechnology plays a pivotal role in environmental conservation. With the increasing impact of climate change, understanding the geological aspects of our environment has become more critical than ever. By utilizing geotechnology, scientists can monitor land degradation, track erosion patterns, and assess the health of ecosystems. This information is essential for developing effective strategies to mitigate environmental damage and promote sustainable land use practices.Another significant area where geotechnology is applied is in resource management. The extraction of natural resources, such as minerals and fossil fuels, requires a thorough understanding of geological formations. Geotechnology provides the tools necessary to locate these resources efficiently while minimizing environmental impact. For example, advanced imaging techniques and geophysical surveys enable companies to identify potential drilling sites without causing extensive harm to the surrounding ecosystem.Furthermore, the integration of modern technology with geotechnology has led to innovative solutions in various sectors. Geographic Information Systems (GIS) and remote sensing technologies allow for the collection and analysis of vast amounts of geospatial data. This data can be used for urban planning, disaster management, and even climate modeling. By leveraging these technologies, decision-makers can make informed choices that enhance public safety and improve quality of life.Despite its numerous benefits, the field of geotechnology also faces challenges. As urban areas continue to expand, the demand for land and resources increases, leading to potential conflicts between development and environmental preservation. Additionally, the complexities of geological systems mean that predictions are not always accurate, which can result in unforeseen consequences during construction projects or resource extraction.In conclusion, geotechnology is a vital discipline that encompasses various applications aimed at solving pressing issues related to the earth and its resources. From ensuring the safety of infrastructure to promoting environmental sustainability, the importance of geotechnology cannot be overstated. As we move forward, it is essential to continue investing in research and development within this field to harness its full potential and address the challenges that lie ahead. By doing so, we can create a more sustainable and resilient future for generations to come.
近年来,地质技术领域因其在解决各种环境和工程挑战中的关键作用而受到广泛关注。地质技术是指将地质科学和技术应用于解决与地球材料、结构和过程相关的问题。这一跨学科领域结合了土木工程、地质学和环境科学的各个方面,使其在可持续发展和基础设施项目中至关重要。地质技术的一个主要应用是在建筑行业。工程师利用地质技术评估土壤稳定性、分析地质灾害,并设计能够抵御地震和滑坡等自然力量的基础。例如,在建造摩天大楼时,岩土工程师会进行广泛的土壤测试,以确定地面的承载能力。这些信息对于确保建筑基础的安全和稳固至关重要,能够防止未来潜在的灾难。此外,地质技术在环境保护中也起着重要作用。随着气候变化影响的加剧,了解我们环境的地质方面变得比以往任何时候都更加重要。通过利用地质技术,科学家可以监测土地退化、跟踪侵蚀模式并评估生态系统的健康状况。这些信息对于制定有效的策略以减轻环境损害和促进可持续土地利用实践至关重要。地质技术的另一个重要应用领域是资源管理。天然资源的开采,如矿物和化石燃料,要求对地质构造有透彻的理解。地质技术提供了必要的工具,以高效定位这些资源,同时最小化对环境的影响。例如,先进的成像技术和地球物理勘测使公司能够在不对周围生态系统造成广泛伤害的情况下识别潜在的钻探地点。此外,现代技术与地质技术的结合在各个领域带来了创新解决方案。地理信息系统(GIS)和遥感技术允许收集和分析大量地理空间数据。这些数据可以用于城市规划、灾害管理甚至气候建模。通过利用这些技术,决策者可以做出明智的选择,从而增强公共安全,提高生活质量。尽管有许多好处,地质技术领域仍面临挑战。随着城市地区的不断扩张,对土地和资源的需求增加,可能导致开发与环境保护之间的冲突。此外,地质系统的复杂性意味着预测并不总是准确,这可能导致在建筑项目或资源开采过程中出现意想不到的后果。总之,地质技术是一个重要的学科,涵盖了旨在解决与地球及其资源相关的紧迫问题的各种应用。从确保基础设施的安全到促进环境可持续性,地质技术的重要性不容小觑。随着我们向前发展,继续投资于这一领域的研究和发展,以充分发挥其潜力并应对未来的挑战至关重要。通过这样做,我们可以为子孙后代创造一个更加可持续和有韧性的未来。