working steam pressure

简明释义

工作蒸汽压力

英英释义

例句

1.To ensure safety, the working steam pressure 工作蒸汽压力 must not exceed the rated capacity.

为了确保安全，工作蒸汽压力 工作蒸汽压力不得超过额定容量。

2.Operators must monitor the working steam pressure 工作蒸汽压力 regularly to prevent malfunctions.

操作员必须定期监测工作蒸汽压力 工作蒸汽压力以防止故障。

3.The boiler operates efficiently at a working steam pressure 工作蒸汽压力 of 150 psi.

锅炉在150 psi的工作蒸汽压力 工作蒸汽压力下高效运行。

4.During maintenance, technicians checked the working steam pressure 工作蒸汽压力 gauges for accuracy.

在维护过程中，技术人员检查了工作蒸汽压力 工作蒸汽压力表的准确性。

5.The system is designed to handle a maximum working steam pressure 工作蒸汽压力 of 200 psi.

该系统设计为可承受最高工作蒸汽压力 工作蒸汽压力为200 psi。

作文

The concept of working steam pressure is crucial in various engineering and industrial applications, particularly in the operation of steam boilers and turbines. Understanding this term requires a basic grasp of how steam systems function. In essence, working steam pressure refers to the pressure at which steam is generated and utilized within a system. This pressure is vital for ensuring that the steam can perform its intended work efficiently. In many industries, steam is used as a source of energy to drive machinery or to provide heating. The efficiency of these processes largely depends on maintaining the appropriate working steam pressure. If the pressure is too low, the steam may not have enough energy to perform the required tasks, leading to inefficiencies and potential operational failures. Conversely, if the pressure is too high, it can cause safety hazards, including equipment damage or even catastrophic failures. To maintain safe and effective operations, engineers must monitor and control the working steam pressure closely. This involves using pressure gauges and control systems that can adjust the pressure as needed. For example, in a steam boiler, the working steam pressure is typically regulated by a combination of valves and pumps that either increase or decrease the flow of water into the boiler, thereby adjusting the steam output. Moreover, different applications require different working steam pressures. For instance, a power plant might operate at a much higher pressure compared to a small industrial facility. Understanding the specific requirements for each application is essential for maximizing efficiency and ensuring safety. Engineers often conduct calculations to determine the optimal working steam pressure for their systems, taking into account factors such as temperature, flow rate, and the physical properties of steam. In addition to operational considerations, the working steam pressure also has implications for maintenance and inspection routines. Equipment operating under high pressure must be regularly inspected for signs of wear and tear, as the stress from high pressures can lead to material fatigue over time. Failure to maintain proper inspection schedules can result in unexpected breakdowns, which can be costly and dangerous. In conclusion, the term working steam pressure encapsulates a critical aspect of steam system operations. It is not just a technical specification but a key factor that influences efficiency, safety, and maintenance practices in various industries. Understanding and managing working steam pressure is essential for engineers and operators who rely on steam systems to power their operations. By ensuring that the pressure is maintained within the appropriate range, industries can optimize performance and minimize risks associated with steam generation and utilization.

“工作蒸汽压力”这一概念在各种工程和工业应用中至关重要，特别是在蒸汽锅炉和涡轮机的运行中。理解这个术语需要对蒸汽系统如何运作有基本的了解。简单来说，工作蒸汽压力指的是蒸汽在系统中生成和使用时的压力。这一压力对于确保蒸汽能够高效地执行其预期工作至关重要。在许多行业中，蒸汽被用作驱动机械或提供加热的能源来源。这些过程的效率在很大程度上依赖于维持适当的工作蒸汽压力。如果压力过低，蒸汽可能没有足够的能量来完成所需任务，从而导致效率低下和潜在的操作故障。相反，如果压力过高，则可能导致安全隐患，包括设备损坏甚至灾难性故障。为了保持安全和有效的操作，工程师必须密切监控和控制工作蒸汽压力。这涉及使用压力表和控制系统，根据需要调整压力。例如，在蒸汽锅炉中，工作蒸汽压力通常通过阀门和泵的组合进行调节，这些阀门和泵可以增加或减少水流入锅炉的量，从而调整蒸汽输出。此外，不同的应用需要不同的工作蒸汽压力。例如，发电厂可能在比小型工业设施更高的压力下运行。理解每个应用的具体要求对于最大化效率和确保安全至关重要。工程师通常会进行计算，以确定其系统的最佳工作蒸汽压力，考虑因素包括温度、流量和蒸汽的物理特性。除了操作考虑外，工作蒸汽压力还对维护和检查程序有影响。在高压下运行的设备必须定期检查磨损和撕裂的迹象，因为高压带来的应力可能导致材料疲劳。如果不保持适当的检查计划，可能会导致意外故障，这可能是昂贵且危险的。总之，术语工作蒸汽压力概括了蒸汽系统操作的一个关键方面。它不仅仅是一个技术规范，更是影响效率、安全和维护实践的重要因素。理解和管理工作蒸汽压力对于依赖蒸汽系统推动其运营的工程师和操作员至关重要。通过确保压力保持在适当范围内，各行业可以优化性能并最小化与蒸汽生成和利用相关的风险。