steam turbine-driven windlass

简明释义

汽轮机驱动起锚机

英英释义

例句

1.The fishing vessel relied on a steam turbine-driven windlass to quickly deploy and retrieve nets.

这艘渔船依靠蒸汽涡轮驱动的绞盘快速放下和收回渔网。

2.The ship's anchor was raised using the steam turbine-driven windlass, which provided the necessary power for efficient operation.

船只的锚是通过蒸汽涡轮驱动的绞盘升起的，这提供了高效操作所需的动力。

3.In the shipyard, engineers were testing the steam turbine-driven windlass to ensure it met safety standards.

在造船厂，工程师们正在测试蒸汽涡轮驱动的绞盘以确保其符合安全标准。

4.During the storm, the crew had to manually assist the steam turbine-driven windlass when it malfunctioned.

在暴风雨中，当蒸汽涡轮驱动的绞盘发生故障时，船员不得不手动协助。

5.The steam turbine-driven windlass allowed for faster loading and unloading of cargo at the port.

在港口，蒸汽涡轮驱动的绞盘使得货物的装卸速度更快。

作文

In the world of maritime engineering, various mechanisms are employed to ensure the smooth operation of ships and vessels. One such mechanism that has gained attention is the steam turbine-driven windlass. This device plays a crucial role in anchoring and mooring operations, particularly in larger ships where traditional methods may not suffice. Understanding the functionality and significance of the steam turbine-driven windlass can provide insights into its importance in modern shipping practices.A windlass is a type of winch used on ships to raise and lower anchors or heavy equipment. The introduction of steam power revolutionized this mechanism, leading to the development of the steam turbine-driven windlass. Unlike conventional windlasses that rely on manual or electric power, the steam turbine-driven variant harnesses the power generated by steam turbines to operate efficiently and effectively.The operation of a steam turbine-driven windlass begins with the generation of steam in a boiler. This steam is then directed towards the turbine, which spins at high speeds. The rotational energy produced by the turbine is transferred to the windlass, enabling it to lift heavy anchors or other equipment with ease. This method significantly reduces the physical labor required from the crew, allowing for quicker and safer operations.One of the main advantages of using a steam turbine-driven windlass is its ability to handle large loads. In the context of modern shipping, where vessels can weigh thousands of tons, having a reliable system to manage anchoring is essential. The steam turbine's power allows for rapid deployment and retrieval of anchors, which is critical during emergencies or when navigating challenging waters.Additionally, the steam turbine-driven windlass contributes to the overall efficiency of maritime operations. With faster anchoring times, ships can minimize their time spent at port, thereby increasing their operational capacity. This efficiency translates into economic benefits, as shipping companies can optimize their schedules and reduce costs associated with delays.However, it is important to note that while the steam turbine-driven windlass offers numerous benefits, it also comes with challenges. The need for a steam power source means that ships must be equipped with boilers and related systems, which can add weight and complexity to the vessel. Furthermore, maintenance of the steam turbine and windlass requires specialized knowledge and skills, making it imperative for crews to be adequately trained.In conclusion, the steam turbine-driven windlass represents a significant advancement in maritime technology. By combining the power of steam turbines with traditional windlass functions, this device enhances the efficiency and safety of anchoring operations. As shipping continues to evolve, understanding the role of such innovations will be crucial for both maritime engineers and ship operators. The future of maritime operations may very well depend on the continued development and refinement of technologies like the steam turbine-driven windlass, ensuring that vessels can navigate the seas with greater ease and reliability.

在海洋工程的世界中，各种机制被用来确保船只和舰艇的顺利运行。其中一个引起关注的机制是蒸汽涡轮驱动的绞车。该装置在锚泊和系泊操作中发挥着至关重要的作用，特别是在较大的船只上，传统方法可能不足以满足需求。理解蒸汽涡轮驱动的绞车的功能和重要性，可以为我们提供关于其在现代航运实践中重要性的见解。绞车是一种用于船只上升降锚或重型设备的卷扬机。蒸汽动力的引入使这一机制发生了革命性变化，促成了蒸汽涡轮驱动的绞车的发展。与依赖手动或电力的传统绞车不同，蒸汽涡轮驱动的变体利用蒸汽涡轮产生的动力高效、有效地工作。蒸汽涡轮驱动的绞车的操作始于锅炉中蒸汽的产生。然后，这些蒸汽被引导到涡轮，涡轮高速旋转。涡轮产生的旋转能量被转移到绞车，使其能够轻松地提升重锚或其他设备。这种方法显著减少了船员所需的体力劳动，从而加快了操作速度，提高了安全性。使用蒸汽涡轮驱动的绞车的主要优点之一是能够处理大负载。在现代航运的背景下，船只的重量可以达到数千吨，因此拥有一个可靠的锚泊管理系统至关重要。蒸汽涡轮的动力允许快速部署和回收锚，这在紧急情况下或在复杂水域航行时尤为关键。此外，蒸汽涡轮驱动的绞车有助于整体海事操作的效率。通过更快的锚泊时间，船只可以最小化在港口的停留时间，从而提高运营能力。这种效率转化为经济利益，因为航运公司可以优化他们的时间表，减少与延误相关的成本。然而，重要的是要注意，尽管蒸汽涡轮驱动的绞车提供了许多好处，但它也伴随着挑战。对蒸汽动力源的需求意味着船只必须配备锅炉和相关系统，这可能增加船只的重量和复杂性。此外，蒸汽涡轮和绞车的维护需要专业知识和技能，因此船员必须接受充分的培训。总之，蒸汽涡轮驱动的绞车代表了海事技术的重要进步。通过将蒸汽涡轮的动力与传统绞车功能相结合，该装置提高了锚泊操作的效率和安全性。随着航运的不断发展，理解此类创新的作用对于海事工程师和船舶运营商来说至关重要。未来的海事操作可能非常依赖于像蒸汽涡轮驱动的绞车这样的技术的持续发展和完善，从而确保船只能够更轻松、更可靠地航行于海洋。