overall submerged length

简明释义

船体水下部分最大长度

英英释义

例句

1.The design specifications require an overall submerged length of at least 10 meters for stability.

设计规格要求稳定性至少有10米的整体淹没长度。

2.The overall submerged length of the foundation piles is critical for structural integrity.

基础桩的整体淹没长度对结构完整性至关重要。

3.To determine buoyancy, we need to measure the overall submerged length of the vessel.

为了确定浮力，我们需要测量船只的整体淹没长度。

4.During the inspection, the divers noted the overall submerged length of the underwater cables.

在检查过程中，潜水员注意到水下电缆的整体淹没长度。

5.The engineer calculated the overall submerged length of the pipe to ensure it was within acceptable limits.

工程师计算了管道的整体淹没长度以确保其在可接受的范围内。

作文

Understanding the concept of overall submerged length is essential in various fields, particularly in engineering and marine studies. The term refers to the total length of an object that is submerged underwater, which can significantly impact its buoyancy, stability, and overall performance. In this essay, I will explore the importance of overall submerged length in the context of ship design and underwater construction, as well as its implications for environmental studies.In naval architecture, the overall submerged length of a vessel is a critical parameter that influences how the ship interacts with water. When designing a ship, engineers must consider how much of the hull will be submerged when the vessel is fully loaded. This measurement affects the ship's displacement, which is the weight of the water displaced by the submerged part of the hull. A greater overall submerged length typically means increased displacement, which can enhance stability but may also lead to higher fuel consumption due to increased resistance as the ship moves through water.Moreover, the overall submerged length plays a significant role in determining a ship's center of gravity and metacentric height. These factors are crucial for ensuring that the vessel remains upright and stable during navigation. A well-designed ship with an optimal overall submerged length will have a low center of gravity, which helps prevent capsizing in rough seas. Therefore, naval architects must meticulously calculate the overall submerged length during the design phase to ensure safety and efficiency.In addition to shipbuilding, the concept of overall submerged length is also relevant in underwater construction projects, such as the installation of pipelines or underwater structures. Engineers must account for the overall submerged length of these installations to ensure they are adequately anchored and can withstand the forces exerted by currents and waves. A proper understanding of the overall submerged length allows for better planning and execution of these projects, minimizing risks and potential failures.Furthermore, the study of overall submerged length extends into environmental science, particularly in assessing the impact of submerged structures on marine ecosystems. For example, artificial reefs are often created to promote marine life. The overall submerged length of these reefs determines their effectiveness in attracting fish and other marine organisms. Researchers analyze how different designs and sizes affect the surrounding environment, including water flow patterns and habitat availability.In conclusion, the concept of overall submerged length is multifaceted and plays a vital role in various disciplines, from naval architecture to environmental science. Understanding this term not only helps engineers and architects design safer and more efficient vessels but also aids in the sustainable development of underwater structures. As we continue to explore our oceans and develop technologies that interact with aquatic environments, the importance of the overall submerged length will remain a key consideration in ensuring both functionality and ecological balance.

理解“整体淹没长度”的概念在多个领域中至关重要，尤其是在工程和海洋研究中。这个术语指的是一个物体在水下的总长度，这会显著影响其浮力、稳定性和整体性能。在这篇文章中，我将探讨“整体淹没长度”在船舶设计和水下施工中的重要性，以及它对环境研究的影响。在海军建筑中，船舶的“整体淹没长度”是一个关键参数，影响着船舶与水的相互作用。在设计船舶时，工程师必须考虑船体在满载时将有多少部分被淹没。这个测量影响着船舶的排水量，即船体淹没部分所排开的水的重量。更大的“整体淹没长度”通常意味着增加的排水量，这可以增强稳定性，但也可能导致由于水中阻力增加而消耗更多燃料。此外，“整体淹没长度”在确定船舶的重心和元心高度方面也起着重要作用。这些因素对于确保船舶在航行过程中保持直立和稳定至关重要。设计良好的船舶具有最佳的“整体淹没长度”将拥有较低的重心，这有助于防止在恶劣海况下翻覆。因此，海军建筑师必须在设计阶段仔细计算“整体淹没长度”以确保安全和效率。除了船舶建造， “整体淹没长度”的概念在水下施工项目中也同样相关，例如管道或水下结构的安装。工程师必须考虑这些安装的“整体淹没长度”，以确保它们得到适当锚定，并能够承受水流和波浪施加的力量。对“整体淹没长度”的正确理解使得这些项目的规划和执行更加出色，降低了风险和潜在的失败。此外，“整体淹没长度”的研究还延伸到环境科学，特别是在评估淹没结构对海洋生态系统的影响时。例如，人工礁常常被创造出来以促进海洋生物的生长。“整体淹没长度”决定了这些礁石吸引鱼类和其他海洋生物的有效性。研究人员分析不同设计和尺寸如何影响周围环境，包括水流模式和栖息地可用性。总之，“整体淹没长度”的概念是多方面的，在多个学科中发挥着重要作用，从海军建筑到环境科学。理解这个术语不仅帮助工程师和建筑师设计出更安全、更高效的船舶，还促进了水下结构的可持续发展。随着我们继续探索海洋并开发与水域环境相互作用的技术，“整体淹没长度”的重要性将始终是确保功能性和生态平衡的关键考虑因素。