full load power

简明释义

满载功率

英英释义

例句

1.To avoid overheating, ensure that the system does not exceed its full load power 满载功率 limit.

为了避免过热，确保系统不超过其满载功率 full load power限制。

2.The generator operates at its full load power 满载功率 for optimal efficiency during peak demand.

发电机在高峰需求期间以其满载功率 full load power运行，以达到最佳效率。

3.When designing the electrical system, we must consider the full load power 满载功率 of all connected devices.

在设计电气系统时，我们必须考虑所有连接设备的满载功率 full load power。

4.The motor's full load power 满载功率 rating is crucial for determining its performance specifications.

电动机的满载功率 full load power额定值对于确定其性能规格至关重要。

5.The full load power 满载功率 of the transformer must match the total load demand.

变压器的满载功率 full load power必须与总负载需求相匹配。

作文

Understanding the concept of full load power is essential in the field of electrical engineering and energy management. Full load power refers to the maximum power output that a machine or system can deliver under its full operational capacity. This term is particularly relevant when discussing generators, motors, and other electrical devices that have specific ratings for performance. When a device operates at its full load power, it is functioning at its optimal level, providing the maximum efficiency and productivity that it was designed for.In practical applications, knowing the full load power of a system helps engineers and operators ensure that they are not overloading equipment, which can lead to failures or reduced lifespan. For example, if a motor is rated for a full load power of 10 kW, operating it consistently at or near this level is crucial for maintaining its reliability. Exceeding this power rating may cause overheating, increased wear and tear, and ultimately, catastrophic failure.Moreover, understanding full load power is vital for energy efficiency initiatives. Many organizations aim to reduce their energy consumption and carbon footprint by optimizing the use of their electrical devices. By ensuring that machines operate close to their full load power, businesses can maximize their output while minimizing waste. This balance is critical in industries where energy costs are a significant portion of operational expenses.Additionally, the concept of full load power is closely related to power factor, which measures how effectively electrical power is being converted into useful work output. A low power factor indicates that a system is not using electricity efficiently, often because it is operating below its full load power. Improving the power factor can lead to cost savings and enhanced performance, making it an important consideration in the design and operation of electrical systems.In conclusion, the term full load power encapsulates a fundamental principle in electrical engineering that has far-reaching implications for efficiency, reliability, and performance. Understanding this concept allows engineers and operators to make informed decisions about equipment usage, energy consumption, and overall system design. As industries continue to evolve and face increasing pressure to improve sustainability, the importance of grasping the nuances of full load power will only grow. The ability to optimize operations around this concept can lead to significant benefits, both economically and environmentally.

理解满载功率的概念在电气工程和能源管理领域至关重要。满载功率是指机器或系统在其全部操作能力下可以提供的最大功率输出。这个术语在讨论发电机、电动机和其他具有特定性能评级的电气设备时尤其相关。当设备以其满载功率运行时，它处于最佳水平，提供其设计所需的最大效率和生产力。在实际应用中，了解系统的满载功率有助于工程师和操作人员确保不超负荷设备，这可能导致故障或缩短使用寿命。例如，如果一个电动机的满载功率为10千瓦，则持续在此水平或接近此水平运行对保持其可靠性至关重要。超过此功率额定值可能导致过热、磨损加剧，最终导致灾难性故障。此外，理解满载功率对于能源效率倡议至关重要。许多组织旨在通过优化电气设备的使用来减少能源消耗和碳足迹。通过确保机器接近其满载功率运行，企业可以最大化产出，同时最小化浪费。这种平衡在能源成本占运营费用重要部分的行业中至关重要。此外，满载功率的概念与功率因数密切相关，功率因数测量电力被有效转换为有用工作输出的程度。低功率因数表明系统未有效利用电力，通常因为它在低于其满载功率的情况下运行。改善功率因数可以带来成本节约和性能提升，使其成为电气系统设计和运行中的重要考虑因素。总之，满载功率这一术语概括了电气工程中的一个基本原则，其影响深远，涉及效率、可靠性和性能。理解这一概念使工程师和操作人员能够就设备使用、能源消耗和整体系统设计做出明智的决策。随着行业的不断发展，面临提高可持续性的压力，掌握满载功率的细微差别的重要性只会增加。围绕这一概念优化运营的能力可以带来显著的经济和环境效益。