lightning discharger

简明释义

避雷针

英英释义

例句

1.During the storm, the lightning discharger effectively redirected the electrical charge away from the power lines.

在暴风雨期间，避雷器有效地将电荷引导离电力线路。

2.The maintenance team checked the lightning discharger for any signs of wear and tear.

维护团队检查了避雷器是否有磨损迹象。

3.A properly installed lightning discharger can significantly reduce the risk of fire caused by lightning strikes.

正确安装的避雷器可以显著降低因雷击引发火灾的风险。

4.It's crucial to have a functioning lightning discharger on tall structures like skyscrapers.

在摩天大楼等高大建筑上，拥有一个正常工作的避雷器至关重要。

5.The engineer installed a new lightning discharger to protect the building from electrical surges.

工程师安装了一个新的避雷器以保护建筑免受电涌的影响。

作文

In the realm of electrical engineering and safety measures, the term lightning discharger refers to a device designed to safely redirect and dissipate the enormous energy produced by lightning strikes. This is crucial for protecting structures, electrical systems, and ultimately human lives from the devastating effects of lightning. Understanding the functionality and importance of a lightning discharger can greatly enhance our preparedness against natural electrical phenomena.When lightning strikes, it can produce voltages in excess of millions of volts, which can easily overwhelm unprotected structures. A lightning discharger works by providing a low-resistance path for the lightning current to follow, directing it safely into the ground. This minimizes the risk of fire, explosion, or damage to electrical equipment. For instance, tall buildings often utilize a network of conductors and grounding systems that include a lightning discharger to ensure that any lightning strike is effectively managed.The installation of a lightning discharger is a critical aspect of building design, especially in areas prone to thunderstorms. Engineers must carefully assess the location and height of the discharger to maximize its effectiveness. The materials used in constructing a lightning discharger are also vital; they must be able to withstand extreme temperatures and the intense energy of a lightning strike. Typically, copper and aluminum are favored due to their excellent conductivity and durability.Moreover, the effectiveness of a lightning discharger is not solely dependent on its physical attributes but also on regular maintenance and inspection. Over time, corrosion and environmental factors can degrade the performance of these devices. Therefore, routine checks are essential to ensure that the lightning discharger remains functional and capable of performing its role in lightning protection systems.In addition to protecting buildings, lightning dischargers play a significant role in safeguarding electronic devices. In our increasingly digital world, the presence of sensitive electronics in homes and businesses is ubiquitous. A lightning strike can induce power surges, leading to irreversible damage to computers, servers, and other crucial equipment. By integrating lightning dischargers into electrical systems, we can mitigate these risks and protect our investments.Furthermore, public awareness about the importance of lightning dischargers is essential. Many people underestimate the dangers posed by lightning and may not realize that proper protection can save lives and property. Educational programs and initiatives can help inform communities about the benefits of installing these devices, particularly in regions with frequent thunderstorms.In conclusion, a lightning discharger is an indispensable component of modern electrical safety systems. Its ability to safely manage the energy from lightning strikes protects not only buildings and infrastructure but also the lives of individuals within those structures. As we continue to face the challenges posed by extreme weather events, understanding and implementing effective lightning protection measures, including the use of lightning dischargers, will become increasingly important. Investing in such safety measures is not merely a precaution; it is a necessary step towards ensuring a safer environment for all.

在电气工程和安全措施的领域中，术语雷电放电器指的是一种旨在安全地重定向和消散雷击产生的巨大能量的装置。这对于保护建筑物、电气系统以及最终人类生命免受雷电的破坏性影响至关重要。理解雷电放电器的功能和重要性可以大大增强我们对自然电现象的准备。当雷电击中时，它可以产生超过数百万伏特的电压，这很容易使未受保护的结构超负荷。雷电放电器通过提供一条低阻抗路径，使雷电电流得以安全地导入地下，从而降低火灾、爆炸或电气设备损坏的风险。例如，高楼通常使用包括雷电放电器在内的导体和接地系统网络，以确保任何雷电击中都能得到有效管理。安装雷电放电器是建筑设计的重要方面，尤其是在雷暴频繁的地区。工程师必须仔细评估放电器的位置和高度，以最大限度地提高其有效性。构建雷电放电器所使用的材料也至关重要；它们必须能够承受极端温度和雷电击中的强大能量。通常，铜和铝因其优良的导电性和耐用性而受到青睐。此外，雷电放电器的有效性不仅依赖于其物理属性，还依赖于定期维护和检查。随着时间的推移，腐蚀和环境因素可能会降低这些设备的性能。因此，例行检查对于确保雷电放电器保持功能并能够在雷电保护系统中发挥作用至关重要。除了保护建筑物之外，雷电放电器在保护电子设备方面也发挥着重要作用。在我们日益数字化的世界中，家庭和企业中敏感电子设备的存在无处不在。雷电击中可能导致电涌，从而对计算机、服务器和其他关键设备造成不可逆转的损害。通过将雷电放电器集成到电气系统中，我们可以减轻这些风险并保护我们的投资。此外，提高公众对雷电放电器重要性的认识至关重要。许多人低估了雷电带来的危险，可能没有意识到适当的保护措施可以拯救生命和财产。教育项目和倡议可以帮助社区了解安装这些设备的好处，特别是在雷暴频繁的地区。总之，雷电放电器是现代电气安全系统不可或缺的组成部分。它安全管理雷电击中能量的能力不仅保护建筑物和基础设施，还保护这些结构内个体的生命。随着我们继续面临极端天气事件带来的挑战，理解和实施有效的雷电保护措施，包括使用雷电放电器，将变得越来越重要。投资于此类安全措施不仅仅是一种预防措施；这是确保所有人更安全环境的必要步骤。