remote bridge control of main engine

简明释义

驾驶台主机遥控

英英释义

例句

1.The new system allows for efficient use of the remote bridge control of main engine during docking procedures.

新系统在停靠过程中有效利用主机的远程桥接控制。

2.The ship's crew used the remote bridge control of main engine to navigate through the narrow channel safely.

船员利用主机的远程桥接控制安全地通过狭窄的航道。

3.With the remote bridge control of main engine, the operator can start and stop the engine from a distance.

通过主机的远程桥接控制，操作员可以远程启动和停止引擎。

4.During the storm, the captain relied on the remote bridge control of main engine to maintain speed and direction.

在暴风雨中，船长依靠主机的远程桥接控制保持速度和方向。

5.The engineer performed diagnostics using the remote bridge control of main engine to identify issues.

工程师使用主机的远程桥接控制进行诊断以识别问题。

作文

In the maritime industry, advancements in technology have revolutionized the way ships are operated and controlled. One of the most significant innovations is the concept of remote bridge control of main engine, which allows operators to manage a vessel's propulsion system from a distance. This capability enhances safety, efficiency, and operational flexibility in various maritime scenarios.The remote bridge control of main engine refers to the ability to control the main engine of a ship from a remote location, typically from the bridge or a designated control room. This system uses advanced communication technologies to transmit commands and receive feedback in real-time. By utilizing this technology, crew members can operate the engine without being physically present in the engine room, thereby reducing the risk of accidents and improving response times during critical situations.One of the primary benefits of remote bridge control of main engine is enhanced safety. In case of emergencies, such as fires or mechanical failures in the engine room, crew members can quickly shut down the engine or adjust its power from a safe distance. This ability minimizes the risk of injury to personnel and prevents further damage to the vessel. Furthermore, the remote operation allows for better monitoring of the engine's performance, enabling operators to identify potential issues before they escalate into serious problems.Efficiency is another critical aspect of remote bridge control of main engine. With this technology, operators can optimize fuel consumption and engine performance by making real-time adjustments based on current conditions. For instance, if a ship encounters rough seas, the operator can modify the engine's output to ensure stability and comfort for passengers and crew. This adaptability not only enhances the overall experience on board but also contributes to more sustainable maritime operations by reducing emissions and fuel usage.Moreover, remote bridge control of main engine provides greater operational flexibility. In situations where the crew needs to manage multiple tasks simultaneously, having the ability to control the engine remotely allows for better allocation of human resources. For example, while one crew member navigates the ship, another can monitor and adjust the engine's performance without needing to be physically present in the engine room. This streamlined approach leads to improved coordination and efficiency in ship operations.However, implementing remote bridge control of main engine does come with its challenges. The reliance on technology means that vessels must have robust communication systems to ensure reliable data transmission. Any disruption in communication could lead to critical delays in decision-making and potentially jeopardize safety. Additionally, crew members need adequate training to operate these systems effectively, as the transition from traditional methods to remote control requires a shift in mindset and skillset.In conclusion, the remote bridge control of main engine represents a significant leap forward in maritime technology, offering numerous advantages in terms of safety, efficiency, and operational flexibility. As the industry continues to embrace innovation, it is essential to address the challenges associated with these systems to fully realize their potential. The future of maritime operations will undoubtedly benefit from the continued development and integration of remote control technologies, ultimately leading to safer and more efficient voyages across the world's oceans.

在海事行业，技术的进步彻底改变了船舶的操作和控制方式。其中一个最重要的创新是主机的远程操控的概念，它允许操作员从远处管理船只的推进系统。这种能力在各种海事场景中增强了安全性、效率和操作灵活性。主机的远程操控是指能够从远程位置（通常是船桥或指定的控制室）控制船舶的主机。该系统利用先进的通信技术实时传输命令并接收反馈。通过使用这一技术，船员可以在不亲自到达机舱的情况下操作发动机，从而降低事故风险并提高在关键情况下的响应时间。主机的远程操控的主要好处之一是增强了安全性。在紧急情况下，例如机舱内发生火灾或机械故障，船员可以迅速从安全距离关闭发动机或调整其功率。这种能力最大限度地减少了对人员的伤害风险，并防止了船舶的进一步损坏。此外，远程操作允许更好地监控发动机的性能，使操作员能够在潜在问题升级为严重问题之前识别出它们。效率是主机的远程操控的另一个关键方面。通过这项技术，操作员可以根据当前情况实时调整，以优化燃料消耗和发动机性能。例如，如果船舶遇到恶劣海况，操作员可以修改发动机的输出，以确保乘客和船员的稳定和舒适。这种适应性不仅增强了船上的整体体验，还通过减少排放和燃料使用有助于更可持续的海事运营。此外，主机的远程操控提供了更大的操作灵活性。在需要同时管理多项任务的情况下，能够远程控制发动机使人力资源的分配更加合理。例如，当一名船员导航时，另一名船员可以监控并调整发动机的性能，而无需亲自到达机舱。这种精简的方法导致了船舶操作中协调性和效率的提高。然而，实施主机的远程操控确实存在一些挑战。对技术的依赖意味着船舶必须拥有强大的通信系统，以确保可靠的数据传输。任何通信中断都可能导致决策延迟，并可能危及安全。此外，船员需要接受充分的培训，以有效操作这些系统，因为从传统方法过渡到远程控制需要思维方式和技能的转变。总之，主机的远程操控代表了海事技术的重大进步，在安全性、效率和操作灵活性方面提供了众多优势。随着行业继续拥抱创新，解决与这些系统相关的挑战至关重要，以充分实现其潜力。海事运营的未来无疑将受益于远程控制技术的持续发展和整合，最终导致在世界海洋上更安全、更高效的航行。