starting air master handwheel

简明释义

起动空气主操纵手轮

英英释义

例句

1.The operator was instructed to close the starting air master handwheel 启动空气主手轮 after the system was pressurized.

操作员被指示在系统加压后关闭 启动空气主手轮 启动空气主手轮 。

2.The technician turned the starting air master handwheel 启动空气主手轮 to release the compressed air.

技术员转动了 启动空气主手轮 启动空气主手轮 来释放压缩空气。

3.If the engine fails to start, check if the starting air master handwheel 启动空气主手轮 is fully opened.

如果发动机未能启动，请检查 启动空气主手轮 启动空气主手轮 是否完全打开。

4.Always check the position of the starting air master handwheel 启动空气主手轮 before performing maintenance.

在进行维护之前，务必检查 启动空气主手轮 启动空气主手轮 的位置。

5.Before starting the engine, ensure that the starting air master handwheel 启动空气主手轮 is in the correct position.

在启动发动机之前，确保 启动空气主手轮 启动空气主手轮 在正确的位置。

作文

In the world of marine engineering and ship operations, various components play crucial roles in ensuring the smooth functioning of vessels. One such component is the starting air master handwheel, a vital part of the starting system for large diesel engines commonly found on ships. Understanding the function and importance of the starting air master handwheel can provide insights into the complexities of maritime machinery and safety protocols.The starting air master handwheel is essentially a manual control device that allows engineers to initiate the starting sequence of a ship's main engine using compressed air. This process is particularly important because it enables the engine to start quickly and efficiently, especially in emergencies when time is of the essence. The handwheel is connected to the air supply system, which stores compressed air used to crank the engine and facilitate its ignition.When an engineer turns the starting air master handwheel, they are engaging a series of valves and mechanisms that release compressed air into the engine's cylinders. This action creates the necessary pressure to turn the engine over and initiate combustion. In this way, the starting air master handwheel acts as a critical link between the operator and the engine, allowing for precise control over the starting process.Moreover, the design and placement of the starting air master handwheel are carefully considered to ensure ease of use and accessibility. It is usually located in the engine room, where engineers can quickly access it during routine operations or in emergency situations. The handwheel is designed to be robust and durable, capable of withstanding the rigors of a marine environment while providing reliable performance.In addition to its operational role, the starting air master handwheel also plays a significant role in safety protocols on board ships. Proper training and familiarity with the handwheel are essential for all engineering personnel. They must understand how to operate it effectively and respond to any potential malfunctions. Regular maintenance checks and inspections of the starting air master handwheel and associated systems are crucial to prevent failures that could lead to dangerous situations at sea.Furthermore, advancements in technology have led to the development of automated starting systems, which can reduce the reliance on manual controls like the starting air master handwheel. However, even with automation, the handwheel remains an important backup option, ensuring that engineers can still manually start the engine if needed. This dual capability highlights the importance of the starting air master handwheel in maintaining operational readiness and safety on board.In conclusion, the starting air master handwheel is a fundamental component in the operation of marine diesel engines. Its ability to control the starting process through manual intervention underscores its importance in both routine operations and emergency scenarios. As maritime technology continues to evolve, the starting air master handwheel will remain an essential element of ship engineering, providing reliability and safety in the demanding environment of the sea.

在海洋工程和船舶操作的世界中，各种组件在确保船只顺利运行方面发挥着至关重要的作用。其中一个组件就是启动空气主手轮，这是大型柴油发动机起动系统的重要组成部分，通常用于船舶上。理解启动空气主手轮的功能和重要性可以深入了解海事机械和安全协议的复杂性。启动空气主手轮本质上是一个手动控制装置，允许工程师使用压缩空气启动船舶的主发动机。这一过程尤为重要，因为它使发动机能够快速高效地启动，尤其是在紧急情况下，时间至关重要。手轮与空气供应系统相连，该系统储存用于启动发动机和促进点火的压缩空气。当工程师转动启动空气主手轮时，他们正在激活一系列阀门和机制，将压缩空气释放到发动机的气缸中。这一动作产生了转动发动机并启动燃烧所需的压力。通过这种方式，启动空气主手轮作为操作员与发动机之间的关键环节，允许对启动过程进行精确控制。此外，启动空气主手轮的设计和放置经过仔细考虑，以确保易于使用和可及性。它通常位于机舱内，工程师可以在例行操作或紧急情况下快速访问。手轮的设计坚固耐用，能够承受海洋环境的严酷条件，同时提供可靠的性能。除了其操作角色外，启动空气主手轮在船舶上的安全协议中也扮演着重要角色。所有工程人员都必须接受适当的培训，并熟悉手轮。他们必须了解如何有效操作它，并对任何潜在故障作出反应。定期维护检查和检查启动空气主手轮及相关系统对于防止可能导致危险情况的故障至关重要。此外，技术的进步促使自动启动系统的发展，这可以减少对手动控制如启动空气主手轮的依赖。然而，即使在自动化的情况下，手轮仍然是一个重要的备用选项，确保工程师在需要时仍能手动启动发动机。这种双重能力突显了启动空气主手轮在保持船舶操作准备和安全性方面的重要性。总之，启动空气主手轮是海洋柴油发动机操作的基本组成部分。它通过手动干预控制启动过程的能力强调了它在日常操作和紧急场景中的重要性。随着海事技术的不断发展，启动空气主手轮将继续成为船舶工程的一个重要元素，为在海洋的苛刻环境中提供可靠性和安全性。