subsiding tank

简明释义

沉淀槽

英英释义

例句

1.During the inspection, we found that the subsiding tank had accumulated sediment that needed to be cleared.

在检查过程中，我们发现沉降罐中积累了需要清理的沉淀物。

2.The city’s water supply relies on a series of subsiding tanks to manage excess rainwater.

该市的供水依赖一系列沉降罐来管理多余的雨水。

3.The engineers monitored the pressure levels in the subsiding tank to ensure it was functioning properly.

工程师们监测了沉降罐中的压力水平，以确保其正常运行。

4.Regular maintenance of the subsiding tank is crucial for preventing leaks and ensuring safety.

定期维护沉降罐对于防止泄漏和确保安全至关重要。

5.After the earthquake, the subsiding tank showed signs of structural damage that needed immediate attention.

地震后，沉降罐显示出需要立即关注的结构损坏迹象。

作文

In the field of engineering and construction, the term subsiding tank refers to a type of tank designed to accommodate the natural settling or subsidence of the ground beneath it. This phenomenon is particularly relevant in areas where the soil composition can lead to uneven settling over time. Understanding how to effectively design and implement a subsiding tank is crucial for ensuring the longevity and functionality of various structures, especially in industries such as wastewater management, oil and gas storage, and chemical processing.The primary purpose of a subsiding tank is to provide a stable environment for storing liquids while allowing for the inevitable shifts that occur in the earth below. Engineers must take into account factors such as soil type, moisture levels, and potential seismic activity when designing these tanks. For instance, in regions with clay-rich soils, the likelihood of expansion and contraction due to moisture changes can significantly affect the stability of a tank. Therefore, the design of a subsiding tank often includes features such as flexible joints and reinforced structures to accommodate these movements.Moreover, the construction process of a subsiding tank typically involves extensive site analysis and preparation. Engineers conduct soil tests to determine the load-bearing capacity of the ground and assess any risks associated with subsidence. Based on these evaluations, they can decide whether additional support structures are necessary or if the tank can be built directly on the existing soil. This careful planning helps prevent future issues related to tank integrity and safety.In addition to structural considerations, environmental factors also play a significant role in the design of a subsiding tank. For example, if a tank is situated near a water source, engineers must ensure that the design prevents any potential leaks that could contaminate the surrounding environment. This is particularly important in industries dealing with hazardous materials, where even a small spill can have devastating consequences. Thus, the integration of advanced sealing technologies and monitoring systems is often a critical aspect of subsiding tank design.Furthermore, the maintenance of a subsiding tank is essential for its continued operation. Regular inspections are necessary to identify any signs of distress or subsidence that may compromise the tank's integrity. These inspections can include visual assessments, as well as more sophisticated techniques such as ground-penetrating radar or laser scanning, which can detect subtle changes in the structure over time.In conclusion, the concept of a subsiding tank is integral to modern engineering practices, particularly in sectors that require the safe storage of liquids. By understanding the implications of ground subsidence and implementing appropriate design and maintenance strategies, engineers can create tanks that not only serve their intended purpose but also minimize environmental impact and enhance safety. The ongoing research and development in this area continue to improve our capabilities in constructing resilient and efficient subsiding tanks, ultimately contributing to better infrastructure and environmental protection.

在工程和建筑领域，术语subsiding tank指的是一种设计用于适应其下方地面自然沉降或下沉的罐。这种现象在土壤成分可能导致时间推移下沉不均匀的地区尤其相关。有效理解如何设计和实施subsiding tank对于确保各种结构的耐久性和功能性至关重要，特别是在废水管理、石油和天然气储存以及化学加工等行业。subsiding tank的主要目的是为储存液体提供一个稳定的环境，同时允许地球下方不可避免的移动。工程师必须考虑土壤类型、湿度水平和潜在的地震活动等因素来设计这些罐。例如，在富含粘土的地区，由于湿度变化，扩展和收缩的可能性会显著影响罐的稳定性。因此，subsiding tank的设计通常包括柔性接头和加固结构等特征，以适应这些运动。此外，subsiding tank的施工过程通常涉及广泛的现场分析和准备。工程师进行土壤测试，以确定地面的承载能力并评估与沉降相关的任何风险。根据这些评估，他们可以决定是否需要额外的支撑结构，或者是否可以直接在现有土壤上建造罐。这种仔细的规划有助于防止未来与罐的完整性和安全性相关的问题。除了结构方面的考虑，环境因素在subsiding tank的设计中也扮演着重要角色。例如，如果罐位于水源附近，工程师必须确保设计能够防止任何潜在泄漏，这可能会污染周围环境。这在处理危险材料的行业中特别重要，因为即使是小规模的泄漏也可能造成毁灭性的后果。因此，集成先进的密封技术和监测系统通常是subsiding tank设计的关键方面。此外，维护subsiding tank对于其持续运营至关重要。定期检查是必要的，以识别任何可能危及罐完整性的压力或沉降迹象。这些检查可以包括视觉评估，以及更复杂的技术，如地面穿透雷达或激光扫描，这可以检测到结构随时间的微小变化。总之，subsiding tank的概念是现代工程实践中不可或缺的一部分，特别是在需要安全储存液体的行业中。通过理解地面沉降的影响并实施适当的设计和维护策略，工程师可以创建不仅能满足其预期目的而且能最小化环境影响和增强安全性的罐。这一领域的持续研究与发展不断提高我们建造韧性和高效subsiding tank的能力，最终有助于改善基础设施和环境保护。