unattended machinery spaces

简明释义

无人机舱代号

英英释义

例句

1.Emergency alarms must be functional in all unattended machinery spaces (无人值守的机械空间) to ensure safety.

所有无人值守的机械空间（无人值守的机械空间）中的紧急警报必须正常工作以确保安全。

2.Proper ventilation is essential in unattended machinery spaces (无人值守的机械空间) to avoid overheating.

在无人值守的机械空间（无人值守的机械空间）中，适当的通风是避免过热的关键。

3.The ship's safety protocols require regular inspections of unattended machinery spaces (无人值守的机械空间) to prevent any potential issues.

船舶的安全规程要求定期检查无人值守的机械空间（无人值守的机械空间）以防止潜在问题。

4.During the night shift, the engineers monitored the unattended machinery spaces (无人值守的机械空间) remotely using advanced technology.

在夜班期间，工程师们使用先进技术远程监控无人值守的机械空间（无人值守的机械空间）。

5.Regular maintenance checks of unattended machinery spaces (无人值守的机械空间) help in identifying potential failures early.

对无人值守的机械空间（无人值守的机械空间）进行定期维护检查有助于及早发现潜在故障。

作文

In the modern world, industries and transportation heavily rely on machinery to operate efficiently. One critical aspect of ensuring the safety and functionality of these machines is the management of unattended machinery spaces. These areas are typically found in ships, industrial plants, and large commercial buildings, where machinery operates without constant human supervision. Understanding the implications and risks associated with unattended machinery spaces is essential for both safety and operational efficiency.Firstly, it is important to define what constitutes unattended machinery spaces. These are designated areas where machinery, such as engines, generators, and boilers, can function autonomously without a crew present at all times. For instance, in maritime operations, certain sections of a vessel may be categorized as unattended machinery spaces, allowing for more efficient use of manpower while still maintaining operational capabilities.However, the absence of constant supervision in these spaces does not eliminate the need for vigilance. Machinery can malfunction or experience failures that require immediate attention. Therefore, it is vital to implement robust monitoring systems that can detect anomalies and alert personnel when issues arise. This includes the installation of sensors, alarms, and automated systems that can provide real-time data about the performance of equipment within unattended machinery spaces.Moreover, safety protocols must be established to mitigate risks associated with unattended machinery spaces. Regular maintenance schedules should be adhered to, ensuring that all machinery is operating efficiently and safely. Training personnel to understand the potential hazards and operational procedures related to these spaces is also critical. This training should cover emergency response protocols in case of malfunctions or accidents, as well as the proper use of monitoring technology.Another significant factor to consider is the environmental impact of unattended machinery spaces. In many cases, these areas house equipment that can pose risks to the environment if not managed correctly. For example, leaks from fuel tanks or chemical spills can have devastating effects on surrounding ecosystems. Therefore, it is imperative to incorporate environmental safeguards into the design and operation of unattended machinery spaces. This can include spill containment systems, regular inspections, and adherence to environmental regulations.In conclusion, while unattended machinery spaces offer advantages in terms of operational efficiency and resource management, they also present unique challenges that must be addressed. By implementing comprehensive monitoring systems, establishing safety protocols, and considering environmental impacts, industries can effectively manage these spaces. Ultimately, the goal is to ensure that machinery operates safely and efficiently, minimizing risks to both personnel and the environment. As technology continues to advance, the management of unattended machinery spaces will likely evolve, requiring ongoing education and adaptation to new methods and practices.

在现代社会，工业和交通严重依赖机械的高效运作。确保这些机器安全和功能的一个关键方面是对无人值守机械空间的管理。这些区域通常位于船舶、工业厂房和大型商业建筑中，机器在没有人类持续监督的情况下运作。理解与无人值守机械空间相关的含义和风险对于安全和操作效率至关重要。首先，重要的是定义什么构成无人值守机械空间。这些是指定区域，机器（如发动机、发电机和锅炉）可以在没有人员随时在场的情况下自主运行。例如，在海事操作中，船舶的某些部分可能被归类为无人值守机械空间，这允许更有效地利用人力，同时保持操作能力。然而，这些空间缺乏持续监督并不意味着可以忽视警惕性。机器可能会发生故障或出现需要立即处理的问题。因此，实施强大的监控系统以检测异常并在问题出现时提醒人员至关重要。这包括安装传感器、警报和自动化系统，以提供关于无人值守机械空间内设备性能的实时数据。此外，必须建立安全协议以减轻与无人值守机械空间相关的风险。应遵守定期维护计划，确保所有机械高效且安全地运行。培训人员了解与这些空间相关的潜在危险和操作程序也是至关重要的。这种培训应涵盖在发生故障或事故时的应急响应协议，以及监控技术的正确使用。另一个重要因素是考虑无人值守机械空间的环境影响。在许多情况下，这些区域容纳的设备如果管理不当，可能对环境造成风险。因此，将环境保护措施纳入无人值守机械空间的设计和操作中是必要的。这可以包括溢出控制系统、定期检查和遵守环境法规。总之，虽然无人值守机械空间在操作效率和资源管理方面提供了优势，但它们也带来了独特的挑战，需要加以解决。通过实施全面的监控系统、建立安全协议和考虑环境影响，行业可以有效管理这些空间。最终目标是确保机械安全高效地运行，最小化对人员和环境的风险。随着技术的不断进步，对无人值守机械空间的管理可能会不断演变，要求持续教育和适应新的方法和实践。