residual electricity

简明释义

剩电

英英释义

例句

1.To safely handle the device, make sure to discharge any residual electricity 剩余电力 before opening it.

在打开设备之前，确保放电任何剩余电力以安全处理设备。

2.We need to check for residual electricity 剩余电力 in the system to ensure it's completely safe.

我们需要检查系统中的剩余电力，以确保它完全安全。

3.The technician warned us about the residual electricity 剩余电力 that could cause a shock if we touched the wires.

技术人员警告我们，如果触碰电线，可能会因剩余电力而受到电击。

4.The residual electricity 剩余电力 in the battery can power small devices for a short time.

电池中的剩余电力可以在短时间内为小设备供电。

5.After the machine was turned off, there was still some residual electricity 剩余电力 in the circuit.

机器关闭后，电路中仍然有一些剩余电力。

作文

In our modern world, electricity plays a crucial role in our daily lives. It powers our homes, fuels our devices, and drives industries. However, there are instances where not all the energy consumed is utilized effectively. This leads to the concept of residual electricity (剩余电力), which refers to the leftover electrical energy that remains in a system after the primary usage has taken place. Understanding this phenomenon is essential for both consumers and industries aiming to optimize energy consumption.Residual electricity can occur in various scenarios. For instance, in household appliances, such as microwaves and refrigerators, there is often a small amount of energy that is not used during operation. This energy might remain in the form of heat or electrical charge within the device. When these appliances are turned off, they may still retain some residual electricity (剩余电力), which can sometimes lead to energy wastage if not managed properly.In industrial settings, the concept of residual electricity (剩余电力) becomes even more significant. Many manufacturing processes require large amounts of power, and it is common for machines to consume more energy than necessary. This excess energy can accumulate as residual electricity (剩余电力) in the system, leading to inefficiencies and increased operational costs. By implementing better energy management systems and technologies, industries can reduce their residual electricity (剩余电力) and enhance overall productivity.Moreover, renewable energy sources, such as solar panels and wind turbines, also produce residual electricity (剩余电力). During periods of low demand, these systems may generate more electricity than is needed. The excess energy becomes residual electricity (剩余电力), which can be stored in batteries or fed back into the grid. This not only helps in managing energy supply but also contributes to sustainability efforts by reducing reliance on fossil fuels.To address the challenges posed by residual electricity (剩余电力), several strategies can be employed. One effective method is the use of smart grids, which utilize advanced technology to monitor and manage electricity flow more efficiently. Smart grids can detect when energy is surplus and redirect it accordingly, minimizing waste and maximizing utilization. Additionally, consumers can play a role by being mindful of their energy usage and investing in energy-efficient appliances that minimize residual electricity (剩余电力).In conclusion, the concept of residual electricity (剩余电力) is an important aspect of energy management in both residential and industrial contexts. By understanding and addressing the factors that contribute to residual electricity (剩余电力), we can work towards a more efficient and sustainable future. As technology continues to evolve, there will be more opportunities to harness this leftover energy, ultimately benefiting both the environment and our economy.

在我们现代的世界中，电力在我们的日常生活中扮演着至关重要的角色。它为我们的家居提供动力，驱动我们的设备，并推动工业。然而，有些情况下，所消耗的能量并未被有效利用。这导致了剩余电力的概念，它指的是在主要使用后，系统中剩余的电能。理解这一现象对于希望优化能耗的消费者和工业来说至关重要。剩余电力可能发生在各种场景中。例如，在家用电器中，如微波炉和冰箱，操作过程中通常会有少量能量未被使用。这种能量可能以热量或电荷的形式保留在设备内。当这些电器关闭时，它们可能仍然保留一些剩余电力，如果管理不当，可能会导致能量浪费。在工业环境中，剩余电力的概念变得更加重要。许多制造过程需要大量的电力，机器的能耗通常超过必要的量。这种多余的能量可以在系统中积累，形成剩余电力，导致效率低下和运营成本增加。通过实施更好的能源管理系统和技术，工业可以减少其剩余电力，提高整体生产力。此外，太阳能板和风力涡轮机等可再生能源也会产生剩余电力。在需求低迷期，这些系统可能会产生超出所需的电力。多余的能量成为剩余电力，可以储存在电池中或反馈到电网中。这不仅有助于管理能源供应，还有助于通过减少对化石燃料的依赖来促进可持续发展。为了应对剩余电力带来的挑战，可以采用几种策略。一种有效的方法是使用智能电网，利用先进技术更高效地监控和管理电力流动。智能电网可以检测何时电力过剩并相应地重新分配，最大限度地减少浪费并最大化利用。此外，消费者也可以通过关注自己的能耗和投资于能效高的电器来发挥作用，从而减少剩余电力。总之，剩余电力的概念是在住宅和工业环境中能源管理的重要方面。通过理解和解决导致剩余电力的因素，我们可以朝着一个更高效和可持续的未来努力。随着技术的不断发展，将会有更多机会来利用这些剩余的能量，最终使环境和我们的经济受益。