unattended machinery spaces

简明释义

英国劳埃德船级社无人操纵机舱规范

英英释义

例句

1.The ship's safety protocols require constant monitoring of unattended machinery spaces 无人值守的机械空间 to prevent accidents.

船舶的安全协议要求对无人值守的机械空间 unattended machinery spaces进行持续监控，以防止事故发生。

2.Emergency procedures must be clearly posted in unattended machinery spaces 无人值守的机械空间 for quick access.

紧急程序必须清晰地张贴在无人值守的机械空间 unattended machinery spaces中，以便快速访问。

3.During the night shift, engineers must ensure that all alarms are functional in unattended machinery spaces 无人值守的机械空间.

在夜班期间，工程师必须确保无人值守的机械空间 unattended machinery spaces内所有警报正常工作。

4.Regular inspections of unattended machinery spaces 无人值守的机械空间 are essential for maintaining operational efficiency.

定期检查无人值守的机械空间 unattended machinery spaces对于维护操作效率至关重要。

5.Operators are trained to manage potential hazards in unattended machinery spaces 无人值守的机械空间 effectively.

操作员接受培训，以有效管理无人值守的机械空间 unattended machinery spaces中的潜在危险。

作文

In the maritime industry, safety and operational efficiency are of utmost importance. One crucial aspect that professionals must pay attention to is the management of unattended machinery spaces (UMS). These areas are typically found on ships and offshore platforms where machinery operates without constant human supervision. Understanding the implications and best practices regarding unattended machinery spaces is vital for ensuring both safety and productivity.Firstly, the term unattended machinery spaces refers to sections of a vessel or platform that house critical machinery such as engines, generators, and pumps, which can function autonomously for extended periods. While this autonomy allows for more efficient operations, it also poses significant risks. Without personnel present to monitor the equipment, any malfunction or emergency situation may go unnoticed until it escalates into a serious problem.To mitigate these risks, modern ships and offshore installations are equipped with advanced monitoring systems. These systems continuously track the performance and condition of machinery in unattended machinery spaces. For instance, sensors can detect changes in temperature, pressure, or vibration, alerting crew members to potential issues before they become critical. Moreover, automated systems can perform regular checks and even execute predefined emergency protocols without human intervention.Training is another essential component of managing unattended machinery spaces. Crew members must be well-versed in the operation and maintenance of machinery, as well as the specific protocols for monitoring these spaces. Regular drills and training sessions ensure that personnel are prepared to respond effectively to alarms or alerts originating from these areas. It is not enough to simply install technology; the human element remains crucial in interpreting data and making informed decisions.Furthermore, regulations and guidelines exist to govern the operation of unattended machinery spaces. Organizations such as the International Maritime Organization (IMO) have established standards that vessels must meet to qualify as having unattended operations. These standards include requirements for safety features, alarm systems, and crew qualifications. Compliance with these regulations not only enhances safety but also protects the environment by minimizing the risk of spills or accidents caused by machinery failure.In conclusion, while unattended machinery spaces offer significant advantages in terms of operational efficiency, they also present unique challenges that must be addressed. The combination of advanced monitoring technology, rigorous training, and adherence to regulatory standards creates a robust framework for managing these spaces effectively. As the maritime industry continues to evolve, the importance of understanding and managing unattended machinery spaces will only grow, underscoring the need for ongoing education and innovation in this critical area of operations.

在海事行业中，安全和操作效率至关重要。专业人士必须关注的一个关键方面是对无人值守机械空间（UMS）的管理。这些区域通常位于船舶和海上平台上，机器在没有人类持续监督的情况下运行。理解与无人值守机械空间相关的影响和最佳实践对于确保安全和生产力至关重要。首先，无人值守机械空间这个术语指的是船舶或平台上容纳关键机械的部分，例如发动机、发电机和泵，这些机械可以在没有人类干预的情况下自主运行较长时间。虽然这种自主性提高了操作效率，但也带来了重大风险。由于没有人员在场监控设备，任何故障或紧急情况可能会被忽视，直到升级为严重问题。为了降低这些风险，现代船舶和海上设施配备了先进的监控系统。这些系统连续跟踪无人值守机械空间中机械的性能和状态。例如，传感器可以检测温度、压力或振动的变化，提醒船员在问题变得严重之前采取措施。此外，自动化系统可以定期进行检查，甚至在没有人类干预的情况下执行预定义的紧急协议。培训是管理无人值守机械空间的另一个重要组成部分。船员必须熟悉机械的操作和维护，以及监控这些空间的具体协议。定期的演练和培训课程确保人员能够有效应对来自这些区域的警报或警告。仅仅安装技术是不够的；人类因素在解读数据和做出明智决策方面仍然至关重要。此外，存在监管和指导方针来规范无人值守机械空间的操作。国际海事组织（IMO）等机构制定了标准，要求船舶满足这些标准，以获得无人操作的资格。这些标准包括安全特性、警报系统和船员资格的要求。遵守这些规定不仅增强了安全性，还通过最小化因机械故障造成的泄漏或事故的风险来保护环境。总之，虽然无人值守机械空间在操作效率方面提供了显著优势，但它们也提出了独特的挑战，必须加以解决。先进的监控技术、严格的培训和遵守监管标准的结合，为有效管理这些空间创造了一个强大的框架。随着海事行业的不断发展，理解和管理无人值守机械空间的重要性只会增加，强调了在这一关键操作领域进行持续教育和创新的必要性。