double bottom under engines and boilers

简明释义

机、炉舱双层底机炉舱双层底

英英释义

例句

1.Our maintenance team is trained to work on the double bottom under engines and boilers efficiently.

我们的维护团队经过培训，能够高效地处理发动机和锅炉下的双层底部。

2.The structural integrity of the double bottom under engines and boilers is crucial for the vessel's performance.

对于船只的性能来说，发动机和锅炉下的双层底部的结构完整性至关重要。

3.Regular inspections of the double bottom under engines and boilers are essential for safety.

定期检查发动机和锅炉下的双层底部对安全至关重要。

4.The ship's design includes a double bottom under engines and boilers to enhance stability.

船舶的设计包括在发动机和锅炉下方有一个双层底部以增强稳定性。

5.The double bottom under engines and boilers helps to prevent oil leaks in case of a spill.

在泄漏情况下，发动机和锅炉下的双层底部有助于防止油泄漏。

作文

In the world of maritime engineering, the design and construction of ships involve a multitude of intricate components that ensure safety, efficiency, and durability. One such critical feature is the double bottom under engines and boilers, which plays a vital role in the overall structural integrity of a vessel. This term refers to the space beneath the engines and boilers that consists of two layers of watertight compartments. This design not only enhances the ship's buoyancy but also provides a safeguard against potential leaks and flooding.The importance of a double bottom under engines and boilers cannot be overstated. It serves multiple purposes, primarily focusing on safety and stability. By having a double layer, the risk of water entering the engine room or boiler area is significantly reduced. In the event of an accident or hull breach, the double bottom acts as a barrier, preventing water from flooding these critical areas, which could lead to catastrophic failures or loss of control of the vessel.Moreover, the double bottom under engines and boilers contributes to the ship's overall weight distribution and stability. Ships are designed to carry heavy machinery, and the placement of engines and boilers in the lower part of the vessel helps lower the center of gravity. This is crucial for maintaining balance and preventing capsizing, especially in rough seas. The double bottom design allows for better weight management, ensuring that the vessel remains stable even when it encounters turbulent waters.Another significant advantage of having a double bottom under engines and boilers is the added space for storage and maintenance. The compartments created by the double bottom can be utilized for storing fuel, ballast water, or other essential supplies. This additional storage space is invaluable for long voyages, where resupply may not be feasible. Furthermore, having a dedicated area for maintenance tasks ensures that engineers and crew members can access the engines and boilers safely and efficiently, without the risk of exposure to hazardous conditions.From an engineering perspective, the construction of a double bottom under engines and boilers requires meticulous planning and execution. Shipbuilders must ensure that the materials used are robust and corrosion-resistant to withstand the harsh marine environment. Additionally, the design must comply with international safety standards and regulations, which dictate the required dimensions and specifications for double bottoms in various types of vessels.In conclusion, the double bottom under engines and boilers is a fundamental aspect of ship design that enhances safety, stability, and functionality. Its presence not only protects critical machinery from potential water ingress but also contributes to the overall performance of the vessel. As maritime technology continues to evolve, the importance of such structural features will remain paramount in ensuring the safety and efficiency of modern ships. Understanding the significance of a double bottom system is essential for anyone involved in maritime operations, whether they are engineers, naval architects, or crew members. This knowledge is crucial for maintaining the integrity and reliability of vessels as they navigate the vast oceans, facing the challenges posed by nature and human activity alike.

在海洋工程的世界中，船舶的设计和建造涉及许多复杂的组件，这些组件确保了安全、效率和耐用性。其中一个关键特征是发动机和锅炉下的双底部，它在船只的整体结构完整性中发挥着至关重要的作用。这个术语指的是位于发动机和锅炉下方的空间，由两个层次的防水舱室组成。这种设计不仅增强了船只的浮力，还提供了防止潜在泄漏和洪水的保护。发动机和锅炉下的双底部的重要性不容小觑。它具有多重功能，主要集中在安全性和稳定性上。通过设置双层，水进入机舱或锅炉区的风险显著降低。在发生事故或船体破损的情况下，双底部充当屏障，防止水涌入这些关键区域，这可能导致灾难性的故障或失去对船只的控制。此外，发动机和锅炉下的双底部有助于船只的整体重量分布和稳定性。船只设计用于承载重型机械，而将发动机和锅炉放置在船只的下部有助于降低重心。这对于维持平衡和防止翻覆至关重要，尤其是在恶劣海况下。双底部设计允许更好的重量管理，确保船只在遇到波涛汹涌的水域时保持稳定。拥有发动机和锅炉下的双底部的另一个显著优势是增加了存储和维护的空间。双底部所形成的舱室可以用于储存燃料、压载水或其他必需品。这额外的存储空间对于长途航行至关重要，因为在这种情况下，补给可能不可行。此外，拥有专门的维护区域可确保工程师和船员能够安全有效地接触到发动机和锅炉，而无需面临暴露于危险条件的风险。从工程的角度来看，建造发动机和锅炉下的双底部需要精心的规划和执行。造船商必须确保所用材料坚固且耐腐蚀，以承受恶劣的海洋环境。此外，设计必须符合国际安全标准和法规，这些标准和法规规定了各种类型船只双底部所需的尺寸和规格。总之，发动机和锅炉下的双底部是船舶设计的基本方面，增强了安全性、稳定性和功能性。它的存在不仅保护关键机械免受潜在水侵害，还促进了船只的整体性能。随着海洋技术的不断发展，这种结构特征的重要性将在确保现代船舶的安全性和效率方面保持至关重要。理解双底系统的重要性对于任何参与海洋作业的人来说都是必不可少的，无论他们是工程师、海军建筑师还是船员。这种知识对于维护船只的完整性和可靠性至关重要，因为它们在广阔的海洋中航行，面对自然和人类活动带来的挑战。