intermittent operation

简明释义

间歇运行

英英释义

例句

1.In intermittent operation, the device switches on and off at regular intervals.

在间歇性操作中，设备会在固定的时间间隔内开关。

2.The machine is designed for intermittent operation, meaning it can run for a few hours and then needs to rest.

这台机器是为了间歇性操作而设计的，这意味着它可以运行几个小时，然后需要休息。

3.The generator is suitable for intermittent operation during power outages.

发电机适合在停电期间进行间歇性操作。

4.Due to intermittent operation, the system may experience temporary outages.

由于间歇性操作，系统可能会经历暂时的停机。

5.The heating system is optimized for intermittent operation to save energy.

该供暖系统经过优化以实现节能的间歇性操作。

作文

In today's fast-paced world, technology plays a crucial role in our daily lives. However, not all technological systems function seamlessly; some experience what is known as intermittent operation. This term refers to a situation where a system or device operates sporadically rather than continuously, leading to periods of both functionality and inactivity. Understanding the implications of intermittent operation is essential for both users and engineers alike.One common example of intermittent operation can be found in household appliances. Consider a washing machine that occasionally fails to start or stops mid-cycle. Such behavior can be frustrating for users who rely on these machines for their daily chores. The causes of intermittent operation in this context can range from electrical issues, such as faulty wiring, to mechanical problems, like a worn-out motor. Identifying the root cause is vital for effective troubleshooting and repair.In industrial settings, intermittent operation can have even more significant consequences. For instance, a manufacturing assembly line that experiences sporadic downtime may lead to decreased productivity and increased operational costs. When machinery does not run consistently, it can disrupt the workflow, causing delays in production schedules. Engineers must therefore implement preventive maintenance strategies to minimize the risk of intermittent operation and ensure that machines operate smoothly.The impact of intermittent operation extends beyond mere inconvenience; it can also affect safety. In critical systems, such as those used in healthcare or aviation, any interruption in operation can pose serious risks. For example, a medical device that operates intermittently may fail to deliver necessary treatment, endangering a patient's health. Similarly, an aircraft's navigation system experiencing intermittent operation could jeopardize the safety of passengers and crew. Therefore, rigorous testing and quality control measures are imperative to prevent such occurrences.Moreover, the rise of smart technology has introduced new challenges related to intermittent operation. Smart devices, which often rely on internet connectivity, can experience disruptions due to network issues. For example, a smart thermostat might not respond to commands if the Wi-Fi connection is unstable, leading to inconsistent heating or cooling in a home. Users must understand that while these devices offer convenience, they are not immune to the pitfalls of intermittent operation.To mitigate the effects of intermittent operation, individuals and organizations must adopt proactive measures. Regular maintenance checks, timely software updates, and proper user education can significantly reduce the likelihood of encountering such issues. For instance, educating users about the importance of maintaining a stable internet connection can help prevent problems with smart devices.In conclusion, intermittent operation is a phenomenon that can affect various systems, from household appliances to critical industrial machinery. Understanding its causes and implications is essential for effective management and troubleshooting. By taking proactive steps to address potential issues, we can enhance the reliability of our technology and ensure smoother operations in our daily lives. As we continue to integrate technology into our routines, being aware of the challenges posed by intermittent operation will enable us to navigate these complexities more effectively.

在当今快节奏的世界中，技术在我们的日常生活中扮演着至关重要的角色。然而，并非所有技术系统都能无缝运行；有些系统会经历所谓的间歇性运行。这个术语指的是系统或设备不是连续运行，而是偶尔运行，导致功能和非功能的交替状态。理解间歇性运行的影响对用户和工程师都至关重要。一个常见的间歇性运行的例子可以在家用电器中找到。考虑一下偶尔无法启动或在洗涤周期中途停止的洗衣机。这种行为对依赖这些机器进行日常琐事的用户来说可能令人沮丧。造成这种情况的原因可能从电气问题（如故障接线）到机械问题（如磨损的电动机）不等。识别根本原因对于有效的故障排除和修理至关重要。在工业环境中，间歇性运行可能会带来更重大的后果。例如，经历间歇性停机的制造装配线可能导致生产力下降和运营成本增加。当机器不能持续运行时，它可能会干扰工作流程，导致生产进度延误。因此，工程师必须实施预防性维护策略，以尽量减少发生间歇性运行的风险，确保机器顺利运行。间歇性运行的影响不仅仅是带来不便；它还可能影响安全。在关键系统中，如医疗保健或航空，任何操作中断都可能带来严重风险。例如，间歇性运行的医疗设备可能无法提供必要的治疗，危及患者的健康。同样，航班导航系统出现间歇性运行可能危及乘客和机组人员的安全。因此，严格的测试和质量控制措施对于防止此类事件至关重要。此外，智能技术的兴起带来了与间歇性运行相关的新挑战。智能设备通常依赖互联网连接，因此可能会因网络问题而出现中断。例如，如果Wi-Fi连接不稳定，智能恒温器可能无法响应命令，从而导致家中的加热或冷却不一致。用户必须理解，虽然这些设备提供了便利，但它们也不免遭遇间歇性运行的缺陷。为了减轻间歇性运行的影响，个人和组织必须采取主动措施。定期维护检查、及时的软件更新和适当的用户教育可以显著降低遇到此类问题的可能性。例如，教育用户保持稳定的互联网连接的重要性可以帮助防止智能设备出现问题。总之，间歇性运行是影响各种系统的现象，从家用电器到关键工业机械。理解其原因和影响对于有效管理和故障排除至关重要。通过采取主动措施来解决潜在问题，我们可以提高技术的可靠性，确保我们日常生活中的操作更加顺畅。随着我们继续将技术融入日常生活，意识到间歇性运行带来的挑战将使我们能够更有效地应对这些复杂性。