alternating load
基础释义:
交替负载,交替负荷
发音:
/??lt?n?t?? l??d/
alternating load英语范文:
I often hear people talking about alternating loads in their homes. They say that if they don't use their air conditioner or their refrigerator for a long time, the alternating load will cause their power grid to be overloaded and result in power outages.
In fact, alternating loads are a significant source of power demand in many countries, especially during peak hours when many people are using their appliances at the same time. Therefore, it is important to reduce the amount of alternating loads in our homes to reduce the strain on the power grid and avoid power outages.
音标:(['?lt?n?t??l??d])
基础释义:
alternating loads 指交替使用的电器设备,如空调、冰箱等。这些设备在开启和关闭时会产生电流波动,从而对电网造成压力。
在写作中,你可以使用这个短语来描述家庭电器的使用情况,或者讨论如何减少电网的负荷。
Alternating Load
在日常生活中,我们经常会遇到交替负荷的情况。所谓交替负荷,是指一种情况,其中两种或多种不同的负荷交替出现,使得物体或系统在不同的负荷状态下工作。
比如说,一个人在一段时间内可能需要从事重体力劳动,而在另一段时间内则需要休息。又或者,一个机器在一段时间内需要运行高强度的工作任务,而在另一段时间内则需要停止。这种交替负荷的情况在许多领域都有应用,如工业生产、体育运动和健康护理等。
对于交替负荷,我们需要采取适当的应对策略。首先,我们需要了解交替负荷的特点和规律,以便更好地适应不同的负荷状态。其次,我们需要合理安排工作和休息时间,以确保身体和心理能够得到充分的恢复和调整。此外,我们还需要注意交替负荷对个体差异的影响,因为每个人的身体和心理适应能力是不同的。
总的来说,交替负荷是一种常见的现象,我们需要采取适当的应对策略来适应它。通过了解交替负荷的特点和规律,合理安排工作和休息时间,以及注意个体差异的影响,我们可以更好地应对交替负荷的情况,提高工作效率和生活质量。
(注:以上内容仅供参考,具体内容可以根据实际情况进行调整和发挥。)
Alternating Load
In a system with multiple components, there will always be some components that work harder than others. This is especially true in a system where power is shared among components through alternating load. In alternating load, the workload is distributed between the components in a regular pattern, with each component working for a period of time and then resting for a period of time. This process is repeated continuously, resulting in a constant but alternating workload for each component.
In a system with alternating load, it is important to ensure that each component is able to handle its share of the workload without overloading or becoming too idle. If one component becomes overloaded, it may affect the overall performance of the system, leading to decreased efficiency or even failure. On the other hand, if one component becomes too idle, it may waste resources and reduce the overall efficiency of the system.
Therefore, it is essential to carefully manage the workload distribution in a system with alternating load. This can be done by carefully selecting the components and their configurations, ensuring that they are able to handle their share of the workload efficiently and without overloading. Additionally, it may be necessary to adjust the workload distribution dynamically as the system operates, based on real-time conditions and feedback from the system.
In conclusion, alternating load is a common phenomenon in systems with multiple components, and it requires careful management to ensure optimal performance and efficiency. By carefully selecting components and their configurations, as well as dynamically adjusting the workload distribution based on real-time conditions and feedback, it is possible to manage alternating load effectively and achieve optimal system performance.
