intermittant operation
简明释义
间歇操作
英英释义
例句
1.Engineers are troubleshooting the intermittant operation of the generator.
工程师正在排查发电机的间歇性运行问题。
2.Due to intermittant operation, the system experienced frequent outages.
由于间歇性运行,系统经历了频繁的停机。
3.The machine showed signs of intermittant operation, which caused delays in production.
机器出现了间歇性运行的迹象,导致生产延误。
4.The software's intermittant operation makes it difficult to rely on for critical tasks.
软件的间歇性运行使其在关键任务中难以依赖。
5.We need to address the issues causing intermittant operation in the assembly line.
我们需要解决导致装配线出现间歇性运行的问题。
作文
In today's fast-paced world, technology plays a crucial role in our daily lives. However, there are instances when machines and systems do not function continuously but instead operate in cycles. This phenomenon is known as intermittent operation, which refers to the periodic functioning of a system or device rather than its constant operation. Understanding this concept is essential for both engineers and users alike, as it can significantly impact efficiency and performance.For instance, consider the example of an air conditioning unit. During hot summer months, these units may run continuously to cool down a space. However, if the unit is set to operate on a timer or thermostat, it will engage in intermittent operation, turning on and off based on the temperature settings. This not only saves energy but also prolongs the lifespan of the unit. In this case, the intermittent operation allows for a balance between comfort and energy efficiency.Another area where intermittent operation is commonly observed is in manufacturing processes. Many factories utilize machinery that does not run non-stop. Instead, they may operate in batches, producing goods in intervals. This method can help optimize production schedules and reduce waste. For example, a printing press may work for several hours, then pause for maintenance or to change materials, demonstrating intermittent operation in action. By understanding how to manage these intervals effectively, manufacturers can improve overall productivity.Moreover, the concept of intermittent operation extends beyond machinery; it can also be applied to various systems such as traffic lights and irrigation systems. Traffic lights operate intermittently, changing colors at set intervals to control the flow of traffic, ensuring safety and efficiency on the roads. Similarly, irrigation systems may water crops on a schedule, allowing for intermittent operation that promotes healthy growth while conserving water resources.In the context of renewable energy, intermittent operation is particularly relevant. Solar panels and wind turbines generate electricity based on environmental conditions, meaning their output is not constant. This variability necessitates the development of robust energy storage solutions and grid management strategies to ensure a reliable power supply. Understanding the nature of intermittent operation in these systems is vital for advancing sustainable energy practices and integrating them into existing infrastructures.In conclusion, intermittent operation is a fundamental concept that applies to various aspects of technology and systems in our daily lives. From household appliances to industrial machinery and renewable energy sources, recognizing the benefits and challenges of intermittent operation can lead to improved efficiency, cost savings, and sustainability. As we continue to innovate and adapt to changing environments, embracing the principles of intermittent operation will be crucial for achieving optimal performance in our increasingly complex world.
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,有时机器和系统并不持续运行,而是周期性地工作。这种现象被称为间歇性操作,指的是系统或设备的周期性功能,而不是其持续操作。理解这一概念对工程师和用户来说都至关重要,因为它会显著影响效率和性能。例如,考虑空调单元的例子。在炎热的夏季,这些单元可能会持续运行以冷却空间。然而,如果将设备设置为定时器或温控器,它将以间歇性操作的方式工作,根据温度设置开启和关闭。这不仅节省了能源,还延长了设备的使用寿命。在这种情况下,间歇性操作实现了舒适与能效之间的平衡。另一个常见的间歇性操作实例出现在制造过程中。许多工厂使用的机械并不是不停地运行。相反,它们可能分批次进行操作,间歇性地生产商品。这种方法可以帮助优化生产计划并减少浪费。例如,一台印刷机可能工作几个小时,然后暂停进行维护或更换材料,这展示了间歇性操作的实际应用。通过有效管理这些间隔,制造商可以提高整体生产力。此外,间歇性操作的概念超越了机械设备;它还可以应用于各种系统,如交通信号灯和灌溉系统。交通信号灯间歇性地工作,在设定的时间间隔内改变颜色,以控制交通流量,确保道路安全和效率。同样,灌溉系统可能会按照计划给作物浇水,实现促进健康生长并节约水资源的间歇性操作。在可再生能源的背景下,间歇性操作尤其相关。太阳能电池板和风力涡轮机根据环境条件发电,这意味着它们的输出并不恒定。这种变异性需要开发强大的能源存储解决方案和电网管理策略,以确保可靠的电力供应。理解这些系统中间歇性操作的性质对于推进可持续能源实践并将其整合到现有基础设施中至关重要。总之,间歇性操作是一个基本概念,适用于我们日常生活中技术和系统的各个方面。从家用电器到工业机械,再到可再生能源来源,认识到间歇性操作的好处和挑战可以带来更高的效率、节约成本和可持续性。随着我们不断创新和适应变化的环境,拥抱间歇性操作的原则对于在我们日益复杂的世界中实现最佳性能至关重要。
