volts lost

简明释义

电压降

英英释义

例句

1.To improve efficiency, it is crucial to minimize the volts lost 电压损失 during transmission.

为了提高效率，减少传输过程中的volts lost 电压损失至关重要。

2.The engineer calculated the volts lost 电压损失 to determine the efficiency of the solar panel setup.

工程师计算了volts lost 电压损失以确定太阳能电池板设置的效率。

3.After replacing the old wires, we noticed a decrease in volts lost 电压损失 in the entire system.

更换旧电缆后，我们注意到整个系统的volts lost 电压损失有所减少。

4.The technician measured the volts lost 电压损失 across the resistor to ensure it was within acceptable limits.

技术员测量了电阻器上的volts lost 电压损失以确保其在可接受的范围内。

5.When the circuit was analyzed, we found that the total volts lost 电压损失 was significantly affecting the performance of the motor.

当电路被分析时，我们发现总的volts lost 电压损失显著影响了电机的性能。

作文

Understanding the concept of energy loss in electrical systems is crucial for engineers and technicians alike. One term that often comes up in discussions about electrical efficiency is volts lost, which refers to the voltage that is dissipated as heat due to resistance in electrical components or wires during the transmission of electricity. This phenomenon can significantly impact the performance and efficiency of electrical systems, making it essential to grasp its implications.When electricity flows through a conductor, such as a wire, it encounters resistance. This resistance causes some of the electrical energy to be converted into heat, leading to a reduction in voltage at the receiving end. The term volts lost essentially encapsulates this loss of voltage, which can have various consequences depending on the application. For example, in power distribution networks, excessive volts lost can lead to inadequate voltage levels at the end-user's location, resulting in poor performance of electrical devices and appliances.To illustrate the importance of minimizing volts lost, consider a scenario involving a long-distance power transmission line. As electricity travels over long distances, it encounters more resistance, leading to higher volts lost. This situation necessitates the use of higher transmission voltages to ensure that enough voltage reaches the end users. Engineers often employ transformers to step up the voltage for transmission and then step it down again for safe use at the consumer level. However, even with these measures, some volts lost are inevitable.Moreover, understanding volts lost is not just limited to large-scale power systems. In smaller electrical circuits, such as those found in household appliances, volts lost can also occur. For instance, if a wire used in a home circuit is too thin for the amount of current flowing through it, the resistance will increase, causing more volts lost and potentially leading to overheating or failure of the appliance. Therefore, selecting the appropriate wire gauge is critical in minimizing energy loss and ensuring safety.Another aspect to consider is the environmental impact of volts lost. When energy is wasted as heat, it not only reduces the efficiency of the electrical system but also contributes to increased greenhouse gas emissions. Power plants must generate additional electricity to compensate for the losses, which can result in higher fossil fuel consumption and environmental degradation. Thus, reducing volts lost is not only an engineering challenge but also an environmental necessity.In conclusion, the term volts lost serves as a reminder of the importance of efficiency in electrical systems. By understanding how voltage loss occurs and its implications, engineers and technicians can work towards designing systems that minimize these losses. Whether it is through selecting the right materials, optimizing circuit designs, or implementing advanced technologies, reducing volts lost is essential for creating sustainable and efficient electrical systems that meet the demands of modern society.

理解电气系统中的能量损失概念对工程师和技术人员来说至关重要。在关于电气效率的讨论中，一个常常出现的术语是volts lost，它指的是在电力传输过程中，由于电气元件或电线的电阻而导致的电压以热量的形式散失。这种现象会显著影响电气系统的性能和效率，因此掌握其含义至关重要。当电流通过导体（如电线）时，它会遇到电阻。这个电阻导致一些电能转化为热能，从而导致接收端的电压降低。术语volts lost本质上概括了这种电压损失，这可能根据应用的不同而产生各种后果。例如，在电力分配网络中，过多的volts lost可能导致最终用户位置的电压水平不足，从而导致电器和设备的性能不佳。为了说明最小化volts lost的重要性，可以考虑一个涉及长距离电力传输线的场景。当电力在长距离上传输时，它会遇到更多的电阻，导致更高的volts lost。这种情况需要使用更高的传输电压，以确保足够的电压到达最终用户。工程师通常使用变压器将电压升高以进行传输，然后再将其降低到消费者安全使用的水平。然而，即使采取这些措施，一些volts lost也是不可避免的。此外，理解volts lost不仅限于大规模电力系统。在家庭电器等较小的电路中，volts lost也会发生。例如，如果家用电路中使用的电线对于流经的电流而言过细，电阻就会增加，导致更多的volts lost，并可能导致电器过热或故障。因此，选择合适的电线规格对于最小化能量损失和确保安全至关重要。另一个需要考虑的方面是volts lost对环境的影响。当能量以热量的形式被浪费时，不仅降低了电气系统的效率，还导致温室气体排放增加。发电厂必须产生额外的电力来补偿损失，这可能导致化石燃料消耗增加和环境退化。因此，减少volts lost不仅是一个工程挑战，也是一个环境必要性。总之，术语volts lost提醒我们电气系统效率的重要性。通过理解电压损失的发生方式及其影响，工程师和技术人员可以努力设计出最小化这些损失的系统。无论是通过选择合适的材料、优化电路设计还是实施先进技术，减少volts lost对于创建满足现代社会需求的可持续和高效的电气系统至关重要。