surge limit

简明释义

喘振极限

英英释义

例句

1.The surge limit for this transformer is set at 200% of its rated capacity.

该变压器的冲击限制设定为其额定容量的200%。

2.To ensure safety, the device automatically shuts down when the surge limit is reached.

为了确保安全，当达到冲击限制时，设备会自动关闭。

3.Exceeding the surge limit can lead to catastrophic failures in electrical systems.

超过冲击限制可能导致电气系统的灾难性故障。

4.When designing the circuit, engineers must consider the surge limit of each component.

在设计电路时，工程师必须考虑每个组件的冲击限制。

5.The power supply has a surge limit to prevent damage from voltage spikes.

电源设有冲击限制以防止因电压尖峰而造成损坏。

作文

In the realm of engineering and technology, the term surge limit plays a crucial role in ensuring the safety and efficiency of various systems. Understanding this concept is essential for engineers and technicians who design and maintain equipment that operates under varying loads and conditions. The surge limit refers to the maximum allowable increase in pressure or flow that a system can handle before it risks failure or damage. This limit is particularly important in industries such as oil and gas, where pipelines and machinery are subjected to sudden changes in pressure due to operational demands or external factors.When designing a system, engineers must take into account the potential for surges, which can occur for numerous reasons, including pump failures, valve closures, or even seismic activity. By establishing a surge limit, they can ensure that the system is equipped to handle these unexpected events without catastrophic consequences. For instance, in a water distribution network, if a pump suddenly shuts down, the resulting pressure surge can lead to pipe bursts or leaks. Thus, engineers must calculate the surge limit to prevent such failures.Moreover, the determination of a surge limit involves complex calculations and simulations. Engineers utilize software tools to model fluid dynamics and predict how different scenarios will affect system performance. These models help identify the critical points where pressure may exceed safe levels, allowing for the implementation of protective measures such as pressure relief valves and surge tanks.In addition to preventing physical damage, adhering to the surge limit is also vital for maintaining operational efficiency. Systems that frequently operate near their surge limits may experience increased wear and tear, leading to higher maintenance costs and downtime. Therefore, by understanding and respecting the surge limit, companies can optimize their operations and extend the lifespan of their equipment.The implications of ignoring the surge limit can be severe. In extreme cases, exceeding this limit can result in explosions, environmental disasters, or loss of life. For example, in the chemical industry, a surge in pressure within a reactor can lead to uncontrolled reactions, causing toxic releases or fires. This highlights the importance of rigorous safety standards and regular inspections to ensure that systems remain within their designated surge limit.In conclusion, the concept of surge limit is fundamental in the fields of engineering and technology. It serves as a guideline for designing safe and efficient systems capable of withstanding unexpected pressures. By understanding and applying this concept, engineers can protect both their equipment and the environment from the potentially disastrous effects of pressure surges. As technology continues to advance, the importance of clearly defining and adhering to surge limits will only grow, making it an essential aspect of modern engineering practices.

在工程和技术领域，术语surge limit（涌浪极限）在确保各种系统的安全性和效率方面发挥着至关重要的作用。理解这一概念对于设计和维护在不同负载和条件下运行的设备的工程师和技术人员来说至关重要。surge limit（涌浪极限）指的是系统在面临故障或损坏风险之前可以承受的最大允许压力或流量的增加。这一极限在石油和天然气等行业尤为重要，因为管道和机械在操作需求或外部因素导致的压力突然变化下受到影响。在设计系统时，工程师必须考虑到涌浪的潜在发生，这可能由于多种原因引起，包括泵故障、阀门关闭，甚至地震活动。通过建立surge limit（涌浪极限），他们可以确保系统能够应对这些突发事件，而不会造成灾难性的后果。例如，在水分配网络中，如果泵突然停机，随之而来的压力激增可能导致管道破裂或泄漏。因此，工程师必须计算surge limit（涌浪极限）以防止此类故障。此外，确定surge limit（涌浪极限）涉及复杂的计算和模拟。工程师利用软件工具建模流体动力学，预测不同场景将如何影响系统性能。这些模型帮助识别压力可能超过安全水平的关键点，从而允许实施保护措施，如压力释放阀和涌浪罐。除了防止物理损坏，遵守surge limit（涌浪极限）对于维持操作效率也至关重要。经常在其涌浪极限附近运行的系统可能会经历更大的磨损，导致更高的维护成本和停机时间。因此，通过理解和尊重surge limit（涌浪极限），公司可以优化其操作并延长设备的使用寿命。忽视surge limit（涌浪极限）的后果可能是严重的。在极端情况下，超过这一极限可能导致爆炸、环境灾难或生命损失。例如，在化工行业，反应器内的压力激增可能导致无法控制的反应，造成有毒物质释放或火灾。这突显了严格安全标准和定期检查的重要性，以确保系统保持在指定的surge limit（涌浪极限）之内。总之，surge limit（涌浪极限）这一概念在工程和技术领域是基础。它作为设计安全且高效的系统的指南，使其能够承受意外压力。通过理解和应用这一概念，工程师可以保护他们的设备和环境免受压力涌浪的潜在灾难性影响。随着技术的不断进步，清晰定义和遵守surge limits（涌浪极限）的重要性只会增加，这使其成为现代工程实践的重要组成部分。