operating load

简明释义

工作负载

英英释义

例句

1.During peak hours, the operating load on the grid increases significantly.

在高峰时段，电网的工作负载显著增加。

2.Understanding the operating load is crucial for optimizing energy consumption.

理解工作负载对优化能源消耗至关重要。

3.The engineer calculated the operating load to ensure the system would function properly.

工程师计算了工作负载以确保系统能够正常运行。

4.The manufacturer tested the equipment under various operating loads to assess durability.

制造商在不同的工作负载下测试设备以评估耐用性。

5.To prevent overheating, it's essential to monitor the operating load of the motor.

为了防止过热，监控电动机的工作负载至关重要。

作文

In the world of engineering and physics, understanding the concept of operating load is crucial for ensuring the safety and efficiency of various systems. The term operating load refers to the actual load or weight that a structure, machine, or system is designed to carry during regular operations. This load can vary based on several factors, including the type of machinery, environmental conditions, and the specific tasks being performed. For instance, in the context of a bridge, the operating load would include the weight of vehicles, pedestrians, and any additional forces acting upon it, such as wind or seismic activity.Understanding operating load is essential for engineers when designing structures. They must calculate the maximum expected operating load to ensure that the materials used can withstand the stresses without failing. This involves using principles from physics and material science to predict how different loads will affect the integrity of a structure over time. If the operating load exceeds the design limits, it could lead to catastrophic failures, resulting in loss of life and significant financial costs.Moreover, the concept of operating load is also applicable in the realm of electrical engineering. In this field, the operating load refers to the amount of power consumed by electrical devices during normal operation. For example, an electrical circuit designed to handle a specific operating load must be adequately rated to prevent overheating and potential fires. Engineers must consider not only the operating load but also the peak loads that may occur during startup or when multiple devices are activated simultaneously.In addition to its importance in engineering, the concept of operating load is relevant in various industries, including manufacturing and construction. For instance, in a factory setting, machinery is often rated for a certain operating load, which indicates how much material it can process efficiently. Exceeding this load may result in mechanical failure or decreased productivity, highlighting the need for careful monitoring and management of operating load in industrial environments.Furthermore, understanding operating load can contribute to sustainability efforts. By optimizing the operating load of machines and systems, companies can reduce energy consumption and minimize waste. For example, if a manufacturing plant operates below its operating load, it may consume more energy than necessary for the output produced. Conversely, operating too close to the maximum operating load can lead to increased wear and tear on equipment, resulting in more frequent repairs and replacements.In conclusion, the concept of operating load is integral to multiple fields, including civil engineering, electrical engineering, and industrial operations. Understanding and managing operating load is vital for ensuring safety, efficiency, and sustainability. As technology continues to advance, the ability to accurately measure and predict operating load will become increasingly important, helping engineers and industry professionals make informed decisions that enhance performance while minimizing risks. Thus, a thorough grasp of operating load is essential for anyone involved in the design, operation, or maintenance of complex systems.

在工程和物理学的世界中，理解操作负载的概念对于确保各种系统的安全性和效率至关重要。术语操作负载指的是结构、机器或系统在正常操作期间设计承载的实际负载或重量。这种负载可能会根据多个因素而变化，包括机器类型、环境条件和所执行的特定任务。例如，在桥梁的背景下，操作负载将包括车辆、行人以及任何额外作用于其上的力量，如风或地震活动。理解操作负载对工程师在设计结构时至关重要。他们必须计算最大预期的操作负载，以确保所用材料能够承受压力而不发生失效。这涉及使用物理学和材料科学的原理来预测不同负载如何随着时间的推移影响结构的完整性。如果操作负载超过设计限制，可能会导致灾难性的故障，从而造成生命损失和巨大的经济成本。此外，操作负载的概念在电气工程领域也适用。在这个领域中，操作负载指的是电气设备在正常操作期间消耗的功率。例如，设计用于处理特定操作负载的电路必须有足够的额定值，以防止过热和潜在的火灾。工程师必须考虑不仅是操作负载，还要考虑在启动或多个设备同时激活时可能发生的峰值负载。除了在工程中的重要性，操作负载的概念在制造业和建筑业等各个行业中也很相关。例如，在工厂环境中，机器通常被评估为特定的操作负载，这表明它可以有效处理多少材料。超过此负载可能导致机械故障或生产力下降，这突显了在工业环境中仔细监控和管理操作负载的必要性。此外，理解操作负载可以促进可持续发展努力。通过优化机器和系统的操作负载，公司可以减少能源消耗并最小化浪费。例如，如果一家制造厂的操作低于其操作负载，则可能会比生产的产出消耗更多的能源。相反，过于接近最大操作负载的操作可能会导致设备磨损加剧，从而导致更频繁的维修和更换。总之，操作负载的概念在土木工程、电气工程和工业运营等多个领域中都是不可或缺的。理解和管理操作负载对于确保安全性、效率和可持续性至关重要。随着技术的不断进步，准确测量和预测操作负载的能力将变得越来越重要，帮助工程师和行业专业人士做出明智的决策，从而提高性能，同时最小化风险。因此，对于任何参与复杂系统的设计、操作或维护的人来说，全面掌握操作负载都是必不可少的。