automatic main engine remote control

简明释义

主机自动遥控装置

英英释义

例句

1.With the automatic main engine remote control, the crew can manage engine operations without being physically present in the engine room.

通过自动主机远程控制，船员可以在不亲自到达机舱的情况下管理发动机操作。

2.During the drill, the captain demonstrated how to use the automatic main engine remote control to start and stop the engine.

在演习中，船长演示了如何使用自动主机远程控制来启动和停止发动机。

3.The automatic main engine remote control allows for real-time monitoring of engine performance from a distance.

通过自动主机远程控制，可以实时监控发动机性能。

4.The safety features of the vessel were enhanced by integrating automatic main engine remote control systems.

通过集成自动主机远程控制系统，船舶的安全功能得到了增强。

5.The ship's navigation system was upgraded to include an automatic main engine remote control, allowing for easier operation from the bridge.

船舶的导航系统进行了升级，增加了自动主机远程控制功能，使得从驾驶室操作更加方便。

作文

In the modern era of technology, the concept of automation has permeated various industries, including maritime operations. One significant advancement in this field is the development of systems like automatic main engine remote control. This technology allows for the remote operation of a ship's main engine, enhancing both safety and efficiency during navigation. The automatic main engine remote control system enables operators to manage engine functions from a distance, reducing the need for physical presence in potentially hazardous areas of the vessel.The benefits of implementing automatic main engine remote control are manifold. Firstly, it significantly improves safety. In traditional setups, engineers often had to be present in the engine room, which is typically a confined and sometimes dangerous environment. By utilizing remote control technology, personnel can operate the engine from a safe distance, minimizing the risk of accidents or injuries.Secondly, the automatic main engine remote control system enhances operational efficiency. It allows for quick adjustments to engine performance based on real-time data and conditions. For example, if a ship encounters adverse weather or navigational challenges, the operator can make immediate changes to the engine's output without needing to be physically present. This responsiveness can be crucial for maintaining course and speed, ultimately leading to better fuel efficiency and reduced operational costs.Moreover, the integration of automatic main engine remote control with other onboard systems can provide comprehensive monitoring and control capabilities. Modern vessels are equipped with various sensors and systems that collect data about engine performance, fuel consumption, and environmental conditions. By combining this data with remote control capabilities, operators can make informed decisions that optimize the ship's performance while also adhering to environmental regulations.However, the adoption of automatic main engine remote control is not without its challenges. One of the primary concerns is the reliability of the technology. Any failure in the remote control system could lead to catastrophic consequences, such as loss of engine power or inability to respond to emergencies. Therefore, robust redundancy systems and regular maintenance are essential to ensure the reliability of these systems.Furthermore, there is a need for comprehensive training for personnel who will be operating the automatic main engine remote control systems. Operators must be well-versed in both the technical aspects of the technology and the underlying principles of engine operation. This knowledge is crucial for making quick decisions in high-pressure situations.In conclusion, the advent of automatic main engine remote control represents a significant leap forward in maritime technology. By enhancing safety, improving efficiency, and providing advanced monitoring capabilities, this technology is poised to revolutionize the way vessels are operated. As the industry continues to embrace automation, it is imperative to address the associated challenges to fully realize the potential benefits of this innovative system. The future of maritime operations looks promising with the integration of such advanced technologies, paving the way for safer and more efficient journeys across the seas.

在现代科技时代，自动化的概念渗透到各个行业，包括海事操作。这个领域的一项重要进展是开发了像自动主机远程控制这样的系统。这项技术允许远程操作船舶的主机，提高了航行过程中的安全性和效率。自动主机远程控制系统使操作员能够远程管理发动机功能，减少了在船舶潜在危险区域内身体存在的需要。实施自动主机远程控制的好处是多方面的。首先，它显著提高了安全性。在传统设置中，工程师通常必须在机房内，这通常是一个封闭且有时危险的环境。通过利用远程控制技术，人员可以在安全距离内操作发动机，从而最大限度地降低事故或受伤的风险。其次，自动主机远程控制系统提高了操作效率。它允许根据实时数据和条件快速调整发动机性能。例如，如果船只遇到恶劣天气或导航挑战，操作员可以立即对发动机输出进行更改，而无需亲自到场。这种响应能力对于保持航向和速度至关重要，最终导致更好的燃油效率和降低运营成本。此外，将自动主机远程控制与其他船上系统集成，可以提供全面的监控和控制能力。现代船舶配备了各种传感器和系统，收集有关发动机性能、燃油消耗和环境条件的数据。通过将这些数据与远程控制能力结合起来，操作员可以做出明智的决策，优化船舶的性能，同时遵守环境法规。然而，采用自动主机远程控制并非没有挑战。其中一个主要问题是技术的可靠性。远程控制系统的任何故障都可能导致灾难性后果，例如失去发动机动力或无法应对紧急情况。因此，强大的冗余系统和定期维护对于确保这些系统的可靠性至关重要。此外，操作自动主机远程控制系统的人员需要接受全面培训。操作员必须熟悉技术方面的知识以及发动机操作的基本原理。这种知识对于在高压情况下做出快速决策至关重要。总之，自动主机远程控制的出现代表了海事技术的一次重大飞跃。通过提高安全性、改善效率和提供先进的监控能力，这项技术有望彻底改变船舶的操作方式。随着行业继续接受自动化，解决相关挑战对于充分实现这一创新系统的潜在好处至关重要。随着这种先进技术的整合，海事操作的未来看起来前景光明，为跨海航行的安全和高效旅程铺平道路。