structural sea chest

简明释义

结构性海水吸入箱

英英释义

例句

1.The engineer explained how the structural sea chest is crucial for the vessel's cooling system.

工程师解释了结构海箱对船舶冷却系统的重要性。

2.During dry docking, we found that the structural sea chest needed repairs to ensure proper water flow.

在干船坞期间，我们发现结构海箱需要修理以确保水流畅通。

3.A blockage in the structural sea chest can lead to overheating of the engine.

在结构海箱中的堵塞可能导致发动机过热。

4.Regular inspections of the structural sea chest are vital for maintaining the ship's performance.

定期检查结构海箱对于维持船舶性能至关重要。

5.The ship's maintenance team inspected the structural sea chest for any signs of corrosion.

船舶的维护团队检查了结构海箱是否有腐蚀迹象。

作文

In the world of marine engineering and shipbuilding, the term structural sea chest refers to a vital component of a vessel's design. A structural sea chest is essentially a compartment or chamber located within the hull of a ship, designed to house various systems that interact with seawater. This can include systems for cooling, ballast, or even firefighting. The design and implementation of a structural sea chest are crucial for ensuring the structural integrity and operational efficiency of a ship. One of the primary functions of a structural sea chest is to provide a means for seawater to enter the ship's systems while maintaining the necessary pressure and flow. For example, in cooling systems, seawater is drawn in through the structural sea chest to cool engines and other machinery. This process must be carefully managed to avoid issues such as cavitation or corrosion, which can arise from improper design or maintenance of the structural sea chest. Another important aspect of a structural sea chest is its role in ensuring the vessel's stability. By integrating the structural sea chest into the ship's design, engineers can optimize weight distribution and enhance the overall balance of the vessel. This is particularly important in larger ships, where even minor discrepancies in weight distribution can lead to significant stability issues. Therefore, the strategic placement and construction of a structural sea chest can greatly influence a ship's performance on the water.Moreover, the materials used in constructing a structural sea chest are also critical. Typically, these structures are made from corrosion-resistant materials such as stainless steel or specialized coatings that can withstand the harsh marine environment. This ensures longevity and reduces maintenance costs over time. Engineers must also consider the impact of marine growth, such as barnacles and algae, which can accumulate on the structural sea chest and affect its efficiency. Regular inspections and maintenance are essential to keep the structural sea chest functioning optimally.Furthermore, the design of a structural sea chest must comply with international maritime regulations and standards. These regulations are in place to ensure safety and environmental protection. For instance, the International Maritime Organization (IMO) has guidelines that dictate how systems interacting with seawater should be designed and maintained. Compliance with these regulations not only protects the marine environment but also enhances the ship's operational reliability. In conclusion, the structural sea chest is a critical element in the design and operation of marine vessels. Its multifaceted roles in facilitating seawater flow, enhancing stability, and ensuring compliance with safety standards underscore its importance in shipbuilding. As technology advances, the design and materials used for structural sea chests will likely evolve, leading to more efficient and environmentally friendly maritime operations. Understanding the significance of a structural sea chest is essential for anyone involved in marine engineering or ship design, as it plays a pivotal role in the functionality and safety of seafaring vessels.

在海洋工程和造船的世界中，短语结构海腔指的是船舶设计中的一个重要组成部分。结构海腔本质上是位于船体内部的一个舱室或腔室，旨在容纳与海水相互作用的各种系统。这可以包括冷却、压载甚至灭火系统。结构海腔的设计和实施对于确保船舶的结构完整性和操作效率至关重要。结构海腔的主要功能之一是为海水进入船舶系统提供一种方式，同时保持必要的压力和流量。例如，在冷却系统中，海水通过结构海腔被引入，以冷却发动机和其他机械设备。这个过程必须仔细管理，以避免诸如气蚀或腐蚀等问题，这些问题可能由于结构海腔的不当设计或维护而产生。结构海腔的另一个重要方面是其在确保船舶稳定性方面的作用。通过将结构海腔集成到船舶的设计中，工程师可以优化重量分布，增强船舶的整体平衡。这在大型船舶中尤为重要，因为即使是微小的重量分布差异也可能导致显著的稳定性问题。因此，结构海腔的战略位置和构造可以极大地影响船舶在水上的性能。此外，构建结构海腔所用的材料也至关重要。通常，这些结构由耐腐蚀材料制成，例如不锈钢或能够承受恶劣海洋环境的特殊涂层。这确保了其使用寿命，并降低了长期维护成本。工程师还必须考虑海洋生长（如藤壶和藻类）对结构海腔的影响，这些生物可能会在结构海腔上积聚并影响其效率。定期检查和维护对于保持结构海腔的最佳功能至关重要。此外，结构海腔的设计必须遵循国际海事法规和标准。这些法规旨在确保安全和环境保护。例如，国际海事组织（IMO）有指导方针，规定与海水相互作用的系统应如何设计和维护。遵守这些法规不仅保护海洋环境，还增强了船舶的操作可靠性。总之，结构海腔是海洋船舶设计和操作中的关键元素。它在促进海水流动、增强稳定性以及确保遵守安全标准等多方面的角色强调了它在造船中的重要性。随着技术的发展，结构海腔的设计和使用的材料可能会演变，从而导致更高效和环保的海事操作。理解结构海腔的重要性对于任何参与海洋工程或船舶设计的人来说都是必不可少的，因为它在航行船舶的功能和安全中发挥着关键作用。