maximum allowable working pressure

简明释义

最大允许工作压力最大许用工作压力

英英释义

例句

1.Regular maintenance checks are essential to verify that the equipment does not exceed its maximum allowable working pressure 最大允许工作压力.

定期维护检查对于验证设备是否超过其最大允许工作压力 最大允许工作压力 是必不可少的。

2.Before starting the test, ensure that the system is operating within the maximum allowable working pressure 最大允许工作压力 limits.

在开始测试之前，确保系统的运行在最大允许工作压力 最大允许工作压力 范围内。

3.The engineer specified that the pipeline must not exceed the maximum allowable working pressure 最大允许工作压力 of 150 psi.

工程师指定管道的压力不得超过最大允许工作压力 最大允许工作压力 150 psi。

4.All operators must be trained to recognize the maximum allowable working pressure 最大允许工作压力 for each piece of equipment.

所有操作员必须接受培训，以识别每个设备的最大允许工作压力 最大允许工作压力。

5.The safety valve is set to open at the maximum allowable working pressure 最大允许工作压力 to prevent overpressure situations.

安全阀设置在最大允许工作压力 最大允许工作压力 处打开，以防止过压情况。

作文

Understanding the concept of maximum allowable working pressure is crucial for anyone involved in engineering, manufacturing, or maintenance of pressure systems. The maximum allowable working pressure (MAWP) refers to the highest pressure that a system or component can safely withstand during operation. This value is determined through rigorous testing and analysis, ensuring that safety standards are met to prevent catastrophic failures. In industries such as oil and gas, chemical processing, and water treatment, adhering to the maximum allowable working pressure is not just a regulatory requirement but also a fundamental aspect of operational safety.The importance of knowing the maximum allowable working pressure cannot be overstated. For instance, if a pressure vessel is operated beyond its MAWP, it risks bursting or leaking, which could lead to significant financial losses, environmental damage, and even loss of life. Engineers must meticulously calculate the MAWP based on material properties, design specifications, and external factors such as temperature and corrosion. This calculation ensures that all components, including pipes, valves, and tanks, can handle the pressures they will encounter during normal operations.In practical applications, the maximum allowable working pressure is often marked on equipment and documentation. Operators must be trained to recognize these limits and to monitor pressure levels continuously. Modern technologies, such as pressure sensors and automated monitoring systems, help maintain pressure within safe limits, alerting operators when pressures approach the MAWP. This proactive approach not only enhances safety but also prolongs the lifespan of equipment by preventing undue stress and wear.Moreover, compliance with the maximum allowable working pressure is essential during inspections and certifications. Regulatory bodies require that all pressure systems meet specific standards, and failing to adhere to these regulations can result in hefty fines or shutdowns. Therefore, understanding the implications of MAWP is vital for businesses that rely on pressure systems.Additionally, the maximum allowable working pressure plays a significant role in the design phase of any project involving pressurized systems. Engineers must consider the MAWP when selecting materials and designing components to ensure they can withstand expected operational pressures. This foresight helps avoid costly redesigns or modifications later in the project lifecycle.In conclusion, the maximum allowable working pressure is a fundamental concept in the realm of pressure systems. It encapsulates the safety and reliability of equipment used across various industries. By understanding and adhering to the MAWP, professionals can safeguard their operations, protect the environment, and ensure the safety of personnel. As technology continues to evolve, the methods for calculating and monitoring the maximum allowable working pressure will likely advance, further enhancing safety protocols and operational efficiency. Therefore, continuous education and training on this subject are imperative for all stakeholders involved in pressure-related industries.

理解最大允许工作压力的概念对于参与工程、制造或压力系统维护的任何人来说都是至关重要的。最大允许工作压力（MAWP）指的是系统或组件在操作期间可以安全承受的最高压力。这个数值是通过严格的测试和分析确定的，确保满足安全标准，以防止灾难性故障。在石油和天然气、化工处理以及水处理等行业，遵守最大允许工作压力不仅是法规要求，也是操作安全的基本方面。了解最大允许工作压力的重要性不容小觑。例如，如果一个压力容器的操作超出了其MAWP，就有可能发生爆裂或泄漏，这可能导致巨大的经济损失、环境破坏甚至生命损失。工程师必须仔细计算MAWP，基于材料属性、设计规格以及温度和腐蚀等外部因素。这一计算确保所有组件，包括管道、阀门和储罐，都能承受它们在正常操作中将遇到的压力。在实际应用中，最大允许工作压力通常标记在设备和文档上。操作人员必须接受培训，以识别这些限制并持续监测压力水平。现代技术，如压力传感器和自动监测系统，有助于保持压力在安全范围内，当压力接近MAWP时会提醒操作人员。这种主动的方法不仅增强了安全性，还通过防止过度压力和磨损来延长设备的使用寿命。此外，在检查和认证过程中，遵循最大允许工作压力也是至关重要的。监管机构要求所有压力系统符合特定标准，未能遵守这些规定可能导致巨额罚款或停工。因此，了解MAWP的影响对于依赖压力系统的企业至关重要。此外，最大允许工作压力在涉及加压系统的任何项目的设计阶段也发挥着重要作用。工程师在选择材料和设计组件时必须考虑MAWP，以确保它们能够承受预期的操作压力。这种前瞻性有助于避免在项目生命周期后期进行昂贵的重新设计或修改。总之，最大允许工作压力是压力系统领域的一个基本概念。它概括了各行业所用设备的安全性和可靠性。通过理解和遵守MAWP，专业人士可以保障其操作，保护环境，并确保人员安全。随着技术的不断发展，计算和监测最大允许工作压力的方法可能会进一步进步，从而增强安全协议和操作效率。因此，所有参与压力相关行业的利益相关者都必须不断接受关于这一主题的教育和培训。