stranded caisson

简明释义

出水沉箱

英英释义

例句

1.The construction team had to devise a plan to remove the stranded caisson 搁浅的基础桩 from the riverbed before proceeding with the bridge work.

施工团队必须制定计划，在继续桥梁工程之前，将河床上的stranded caisson 搁浅的基础桩 移除。

2.The environmental impact assessment included the effects of the stranded caisson 搁浅的基础桩 on local marine life.

环境影响评估包括了stranded caisson 搁浅的基础桩 对当地海洋生物的影响。

3.A specialized crane was brought in to lift the stranded caisson 搁浅的基础桩 out of the mud.

一台专业起重机被引入，将stranded caisson 搁浅的基础桩 从泥土中吊起。

4.Engineers evaluated the structural integrity of the stranded caisson 搁浅的基础桩 to determine if it could be salvaged.

工程师评估了stranded caisson 搁浅的基础桩 的结构完整性，以确定是否可以进行打捞。

5.After the storm, several stranded caissons 搁浅的基础桩 were reported along the coastline, posing a hazard to navigation.

风暴过后，沿海报告了几处stranded caissons 搁浅的基础桩，对航行构成了危险。

作文

In the field of civil engineering and marine construction, the term stranded caisson refers to a type of foundation structure that becomes immobilized or trapped in a specific location, often due to environmental factors or construction errors. A caisson is typically a large, watertight structure used for underwater construction, providing a safe working environment while building foundations for bridges, piers, or offshore platforms. When a stranded caisson occurs, it can pose significant challenges to engineers and construction teams, as it may hinder progress and require additional resources to resolve the situation.The occurrence of a stranded caisson can happen for various reasons. One common scenario involves unexpected geological conditions that make it difficult to move the caisson after it has been placed in position. For instance, if a caisson is lowered into water but encounters an unexpected rock formation or sediment layer, it may become stuck, rendering it stranded. Additionally, adverse weather conditions, such as strong currents or storms, can also contribute to a caisson becoming stranded, as these elements can shift its position or prevent safe retrieval.When faced with a stranded caisson, engineers must assess the situation carefully. They often employ various techniques to try to free the caisson, including the use of cranes, tugboats, or specialized equipment designed to manipulate heavy structures underwater. In some cases, they may need to excavate around the caisson to relieve pressure and allow for its movement. This process can be time-consuming and costly, leading to delays in the overall construction project.Moreover, the presence of a stranded caisson can have environmental implications. If the caisson is not removed promptly, it may disrupt local marine ecosystems or pose hazards to navigation. Engineers must work closely with environmental agencies to ensure that their actions comply with regulations and minimize any negative impacts on the surrounding area.In conclusion, the concept of a stranded caisson highlights the complexities and challenges that can arise in marine construction projects. Understanding the potential causes and consequences of a stranded caisson is crucial for engineers and project managers. By preparing for such scenarios and implementing effective strategies, construction teams can mitigate risks and ensure the successful completion of their projects. The lessons learned from handling stranded caissons can also contribute to the development of better practices in the industry, ultimately leading to safer and more efficient construction methods in marine environments.

在土木工程和海洋建筑领域，术语stranded caisson指的是一种基础结构，它因环境因素或施工错误而变得固定或被困在特定位置。沉箱通常是一个大型的、密闭的结构，用于水下施工，为桥梁、码头或海上平台的基础建设提供安全的工作环境。当发生stranded caisson时，这可能会给工程师和施工团队带来重大挑战，因为这可能会阻碍进展，并需要额外的资源来解决这一情况。stranded caisson的发生可能有多种原因。一种常见的情况涉及意外的地质条件，使得在放置后很难移动沉箱。例如，如果一个沉箱被降入水中，但遇到意外的岩石层或沉积物层，它可能会被卡住，从而变得被困。此外，不利的天气条件，如强流或风暴，也可能导致沉箱被困，因为这些因素可以改变其位置或阻止安全取回。面对stranded caisson时，工程师必须仔细评估情况。他们通常采用各种技术来尝试解救沉箱，包括使用起重机、拖船或专门设计用于操纵水下重型结构的设备。在某些情况下，他们可能需要在沉箱周围挖掘以减轻压力并允许其移动。这个过程可能耗时且成本高昂，导致整个施工项目的延误。此外，stranded caisson的存在可能对环境产生影响。如果沉箱未能及时移除，可能会干扰当地的海洋生态系统或对航行构成危险。工程师必须与环境机构密切合作，以确保他们的行动符合规定，并尽量减少对周围地区的负面影响。总之，stranded caisson的概念突显了海洋建筑项目中可能出现的复杂性和挑战。理解被困沉箱的潜在原因和后果对于工程师和项目经理至关重要。通过为此类场景做好准备并实施有效策略，施工团队可以降低风险，确保项目的成功完成。从处理stranded caisson中获得的经验教训也可以促进行业内更好的实践的发展，最终导致海洋环境中更安全、更高效的施工方法。