instantaneous load

简明释义

瞬时负荷

英英释义

例句

1.The instantaneous load of the electrical circuit was too high, causing a breaker to trip.

电路的瞬时负载过高，导致断路器跳闸。

2.The software can simulate the instantaneous load on various components in real-time.

该软件可以实时模拟各个组件的瞬时负载。

3.Calculating the instantaneous load is crucial for determining the safety margin of the equipment.

计算瞬时负载对于确定设备的安全余量至关重要。

4.During the experiment, we recorded the instantaneous load to analyze its effects on the structure.

在实验过程中，我们记录了瞬时负载以分析其对结构的影响。

5.The engineer measured the instantaneous load on the bridge to ensure it could support the traffic.

工程师测量了桥上的瞬时负载以确保它能够承受交通。

作文

In the field of electrical engineering, understanding various concepts is crucial for effective design and analysis. One such concept is the instantaneous load, which refers to the load on a system at a specific moment in time. This term is often used in the context of electrical circuits, where the load can vary significantly depending on the operation of the devices connected to the circuit. To grasp the importance of instantaneous load, it is essential to consider its implications in real-world applications.When engineers design electrical systems, they must account for the instantaneous load that different appliances will impose on the circuit. For instance, when a high-power device, such as an air conditioner or a heater, is turned on, the instantaneous load spikes dramatically. This sudden increase in demand can lead to voltage drops or even circuit failures if the system is not adequately designed to handle such fluctuations.Moreover, the concept of instantaneous load is vital in renewable energy systems. For example, solar panels generate electricity based on sunlight availability, which can change throughout the day. The instantaneous load on the grid must be balanced with the energy produced by solar panels to ensure stability in the power supply. If the load exceeds the generation capacity at any given moment, it can result in outages or the need to draw from backup power sources.In addition to its significance in electrical engineering, the instantaneous load has implications in other fields such as mechanical engineering. In mechanical systems, the load can refer to the forces acting on a structure at a specific time. Understanding the instantaneous load is critical for ensuring that structures can withstand dynamic forces, such as those experienced during an earthquake or heavy wind.To effectively manage instantaneous load, engineers often employ various methods, including load forecasting and real-time monitoring. Load forecasting involves predicting the expected load on a system over a certain period, allowing for better planning and resource allocation. Real-time monitoring, on the other hand, enables engineers to observe and respond to changes in load instantaneously, ensuring the system operates within safe limits.In conclusion, the concept of instantaneous load is fundamental in both electrical and mechanical engineering. Its understanding is essential for designing systems that can handle fluctuations in demand without compromising safety or efficiency. As technology continues to evolve, the ability to manage instantaneous load will become increasingly important, especially with the rise of smart grids and automated systems. Therefore, engineers must prioritize studying and implementing strategies to effectively address instantaneous load challenges in their designs.

在电气工程领域，理解各种概念对于有效的设计和分析至关重要。其中一个概念是瞬时负载，它指的是系统在特定时刻的负载。这个术语通常用于电路的上下文中，其中负载可能会根据连接到电路的设备的操作而显著变化。为了掌握瞬时负载的重要性，考虑其在现实应用中的影响是必不可少的。当工程师设计电气系统时，他们必须考虑不同设备对电路施加的瞬时负载。例如，当高功率设备，如空调或加热器，启动时，瞬时负载会急剧上升。这种需求的突然增加可能导致电压下降，甚至电路故障，如果系统没有适当设计以处理这种波动。此外，瞬时负载的概念在可再生能源系统中也具有重要意义。例如，太阳能电池板根据阳光的可用性生成电力，这在一天中可能会有所变化。电网上的瞬时负载必须与太阳能电池板产生的能量相平衡，以确保电力供应的稳定。如果在任何给定时刻负载超过发电能力，可能会导致停电或需要从备份电源中抽取能量。除了在电气工程中的重要性，瞬时负载在机械工程等其他领域也有影响。在机械系统中，负载可以指在特定时间作用于结构的力。理解瞬时负载对于确保结构能够承受动态力（例如在地震或强风期间经历的力量）至关重要。为了有效管理瞬时负载，工程师通常采用各种方法，包括负载预测和实时监测。负载预测涉及预测系统在一定时期内的预期负载，从而允许更好的规划和资源分配。另一方面，实时监测使工程师能够即时观察和响应负载的变化，确保系统在安全限制内运行。总之，瞬时负载的概念在电气和机械工程中都是基础性的。理解它对于设计能够在不危害安全或效率的情况下处理需求波动的系统至关重要。随着技术的不断发展，管理瞬时负载的能力将变得越来越重要，尤其是在智能电网和自动化系统的兴起下。因此，工程师必须优先研究和实施策略，以有效应对设计中的瞬时负载挑战。