damper of dolphin mooring

简明释义

桩柱系泊阻尼器

英英释义

例句

1.The engineer explained how the damper of dolphin mooring can reduce vibrations from passing ships.

工程师解释了如何通过码头系缆器的阻尼器来减少过往船只的振动。

2.In our project, we need to consider the damper of dolphin mooring to ensure stability during storms.

在我们的项目中，我们需要考虑码头系缆器的阻尼器以确保在风暴期间的稳定性。

3.We installed a new damper of dolphin mooring to enhance the docking process for larger vessels.

我们安装了新的码头系缆器的阻尼器以增强大型船只的停靠过程。

4.The damper of dolphin mooring plays a crucial role in protecting the dock from excessive movement.

在保护码头免受过度运动方面，码头系缆器的阻尼器起着至关重要的作用。

5.The maintenance team checked the damper of dolphin mooring for any signs of wear and tear.

维护团队检查了码头系缆器的阻尼器是否有磨损迹象。

作文

In the realm of marine engineering, various components play crucial roles in ensuring the safety and efficiency of docking systems. One such component is the damper of dolphin mooring, which serves as a critical element in stabilizing vessels during their berthing process. The term 'dolphin' refers to a structure that is used to secure ships at a dock, while a 'damper' is a device that reduces vibrations or oscillations. Therefore, the damper of dolphin mooring can be understood as a mechanism that dampens the forces exerted on a dolphin structure when a vessel is moored. This is particularly important in busy ports where multiple ships may be docking simultaneously, leading to potential collisions or excessive movement. The functionality of the damper of dolphin mooring is rooted in its ability to absorb kinetic energy. When a ship approaches a dock, it typically carries significant momentum. If this momentum is not adequately managed, it can lead to violent impacts against the mooring structure, causing damage to both the ship and the dock. The damper helps mitigate these impacts by absorbing some of the energy, thus reducing the forces transmitted to the dolphin structure. This not only protects the physical infrastructure but also enhances the safety of the crew aboard the vessel.Moreover, the design of the damper of dolphin mooring can vary based on the specific requirements of the port and the types of vessels that frequent it. For instance, a port that accommodates large cargo ships may require more robust damping systems compared to one that primarily services smaller yachts. Engineers must consider factors such as the weight of the ships, the typical weather conditions, and the frequency of vessel traffic when designing these dampers. In addition to mechanical dampers, there are also hydraulic and pneumatic dampers that can be employed in dolphin mooring systems. Hydraulic dampers use fluid dynamics to absorb shock, while pneumatic dampers rely on air compression. Each type has its own advantages and disadvantages, and the choice often depends on the specific operational needs of the port. The importance of the damper of dolphin mooring extends beyond mere structural integrity; it also plays a vital role in operational efficiency. By minimizing the forces experienced during docking, these dampers allow for smoother operations, reducing the time it takes for vessels to berth and unberth. This efficiency is particularly valuable in commercial ports where time is money, and delays can lead to significant financial losses. Furthermore, as global trade continues to expand, the demand for effective mooring systems will only increase. Ports around the world are investing in advanced technologies to enhance their mooring capabilities, and the damper of dolphin mooring is at the forefront of these innovations. As engineers continue to develop new materials and designs, we can expect even greater improvements in the performance of these systems. In conclusion, the damper of dolphin mooring is an essential component in the maritime industry, contributing to the safety and efficiency of docking operations. Its ability to absorb energy and reduce vibrations is crucial in preventing damage to both vessels and infrastructure. As we look towards the future of marine engineering, the continued innovation in mooring systems will undoubtedly play a significant role in the evolution of port operations worldwide.

在海洋工程领域，各种组件在确保停靠系统的安全和效率方面发挥着至关重要的作用。其中一个关键组件是码头系泊减震器，它在船只靠泊过程中起着稳定作用。术语“码头”指的是用于在码头上固定船只的结构，而“减震器”是减少振动或摆动的装置。因此，码头系泊减震器可以理解为一种在船只停靠时减轻施加在码头结构上的力量的机制。这在繁忙的港口尤为重要，因为多艘船只可能同时停靠，导致潜在的碰撞或过度移动。码头系泊减震器的功能源于其吸收动能的能力。当船只靠近码头时，通常携带着相当大的动量。如果这种动量没有得到适当管理，可能会导致船只与系泊结构之间发生剧烈碰撞，从而对船只和码头造成损害。减震器通过吸收一部分能量来帮助缓解这些冲击，从而减少传递到码头结构上的力量。这不仅保护了物理基础设施，还增强了船员的安全性。此外，码头系泊减震器的设计可以根据港口的具体要求和频繁进出的船只类型而有所不同。例如，一个容纳大型货船的港口可能需要比主要服务小型游艇的港口更强大的减震系统。工程师在设计这些减震器时，必须考虑船只的重量、典型天气条件以及船只交通的频率。除了机械减震器，还有液压和气动减震器可以应用于码头系泊系统。液压减震器利用流体动力学来吸收冲击，而气动减震器则依赖空气压缩。每种类型都有其优缺点，选择通常取决于港口的具体操作需求。码头系泊减震器的重要性不仅仅体现在结构完整性上；它还在操作效率中发挥着至关重要的作用。通过最小化在靠泊过程中经历的力量，这些减震器使得操作更加顺畅，减少了船只靠泊和离泊所需的时间。这种效率在商业港口尤其有价值，因为时间就是金钱，延误可能导致显著的经济损失。此外，随着全球贸易的不断扩展，对有效系泊系统的需求只会增加。世界各地的港口正在投资先进技术，以增强其系泊能力，而码头系泊减震器正处于这些创新的前沿。随着工程师继续开发新材料和设计，我们可以期待这些系统的性能会有更大的改善。总之，码头系泊减震器是海事行业的一个基本组成部分，有助于停靠操作的安全性和效率。其吸收能量和减少振动的能力对于防止船只和基础设施的损坏至关重要。展望海洋工程的未来，系泊系统的持续创新无疑将在全球港口运营的演变中发挥重要作用。