full-load power

简明释义

满载功率

英英释义

例句

1.The generator can produce a maximum of 100 kW at its full-load power (额定满载功率).

该发电机在其full-load power (额定满载功率)下最大可产生100千瓦的电力。

2.During peak hours, the plant operates at full-load power (额定满载功率) to meet demand.

在高峰时段，工厂以full-load power (额定满载功率)运转以满足需求。

3.The efficiency rating of the system is based on its performance at full-load power (额定满载功率).

系统的效率评级是基于其在full-load power (额定满载功率)下的表现。

4.To ensure efficiency, the motor should operate close to its full-load power (额定满载功率).

为了确保效率，电动机应尽量接近其full-load power (额定满载功率)运行。

5.When testing the equipment, it is important to measure the full-load power (额定满载功率) output.

在测试设备时，测量其full-load power (额定满载功率)输出非常重要。

作文

In the modern world, energy consumption is a crucial aspect of daily life and industrial operations. One key term that often arises in discussions about electrical systems and machinery is full-load power. This term refers to the maximum power output that a machine or system can deliver under full operational conditions. Understanding full-load power is essential for engineers, electricians, and anyone involved in the design and operation of electrical equipment. To grasp the concept of full-load power, it is important to consider its implications in various contexts. For instance, in industrial settings, machines like motors, generators, and transformers are rated based on their full-load power. This rating indicates the amount of electrical power the device can handle without overheating or experiencing failure. When a motor operates at its full-load power, it is running at its maximum efficiency, which is critical for ensuring optimal performance and longevity.Moreover, understanding full-load power helps in designing electrical systems that are not only efficient but also safe. Engineers must ensure that the power supply matches the full-load power requirements of the equipment to avoid underloading or overloading situations. Underloading can lead to inefficiencies, while overloading can cause equipment failure and safety hazards. Therefore, accurately calculating the full-load power of all components in a system is vital for proper system design.In addition to industrial applications, full-load power is also significant in residential settings. Home appliances such as refrigerators, air conditioners, and heaters have their own full-load power ratings. Knowing these ratings allows homeowners to understand their energy consumption and make informed decisions about their electricity use. For example, if a homeowner knows that their air conditioner has a full-load power rating of 2 kW, they can better manage their energy bills by using the appliance efficiently.Furthermore, the concept of full-load power extends to renewable energy systems as well. In solar power installations, the full-load power of solar panels and inverters needs to be considered to ensure that the system can meet the energy demands of the household or facility. By calculating the full-load power, users can optimize their solar energy systems to provide sufficient power without exceeding the capacity of their equipment.In conclusion, the term full-load power is fundamental in understanding the capabilities and limitations of electrical systems, whether in industrial or residential contexts. It serves as a guideline for safe and efficient operation, helping to prevent potential issues related to power supply and equipment performance. As our reliance on technology continues to grow, so does the importance of comprehending terms like full-load power to ensure a sustainable and efficient energy future.

在现代社会，能源消耗是日常生活和工业运营的关键方面。一个在讨论电气系统和机械时常常出现的术语是满载功率。这个术语指的是机器或系统在完全操作条件下可以提供的最大功率输出。理解满载功率对工程师、电工以及任何参与电气设备设计和操作的人来说都是至关重要的。要掌握满载功率的概念，考虑其在各种背景下的含义是很重要的。例如，在工业环境中，像电动机、发电机和变压器这样的机器是根据其满载功率进行评级的。这个评级表示设备可以处理的电功率，而不会过热或发生故障。当电动机在其满载功率下运行时，它是在其最大效率下运行，这对确保最佳性能和使用寿命至关重要。此外，理解满载功率有助于设计既高效又安全的电气系统。工程师必须确保电源与设备的满载功率要求相匹配，以避免负载不足或过载的情况。负载不足可能导致效率低下，而过载可能导致设备故障和安全隐患。因此，准确计算系统中所有组件的满载功率对于适当的系统设计至关重要。除了工业应用，满载功率在住宅环境中也同样重要。家用电器如冰箱、空调和加热器都有各自的满载功率评级。了解这些评级使得房主能够理解他们的能源消耗，并就电力使用做出明智的决策。例如，如果房主知道他们的空调的满载功率为2千瓦，他们可以更好地管理自己的能源账单，通过高效使用该设备来降低费用。此外，满载功率的概念也扩展到可再生能源系统。在太阳能发电安装中，太阳能电池板和逆变器的满载功率需要被考虑，以确保系统能够满足家庭或设施的能源需求。通过计算满载功率，用户可以优化他们的太阳能系统，以提供足够的电力而不超出设备的能力。总之，术语满载功率在理解电气系统的能力和局限性方面是基础，无论是在工业还是住宅环境中。它作为安全和高效操作的指导方针，有助于防止与电源供应和设备性能相关的潜在问题。随着我们对技术的依赖不断增加，理解像满载功率这样的术语的重要性也在不断上升，以确保可持续和高效的能源未来。