nonselfmaintained discharge
简明释义
非自持放电
英英释义
例句
1.The engineer noted that the system experienced a nonselfmaintained discharge during the test, indicating a failure in the automatic controls.
工程师注意到系统在测试期间经历了非自我维持的排放,这表明自动控制出现故障。
2.During the simulation, we observed a nonselfmaintained discharge that caused fluctuations in pressure.
在模拟过程中,我们观察到了一种非自我维持的排放,导致压力波动。
3.The research paper discussed the implications of nonselfmaintained discharge in chemical reactors.
研究论文讨论了非自我维持的排放在化学反应器中的影响。
4.Operators must be trained to identify signs of nonselfmaintained discharge to prevent system failures.
操作员必须接受培训,以识别非自我维持的排放的迹象,以防止系统故障。
5.In wastewater management, a nonselfmaintained discharge can lead to environmental hazards if not properly monitored.
在废水管理中,如果不进行适当监测,非自我维持的排放可能会导致环境危害。
作文
In the field of physics and engineering, the concept of nonselfmaintained discharge refers to a type of electrical discharge that does not sustain itself without external support or conditions. This phenomenon can be observed in various applications, such as in gas discharge tubes and certain types of lasers. Understanding nonselfmaintained discharge is crucial for engineers and scientists working with high-voltage systems, as it impacts the design and functionality of electronic devices.To illustrate the importance of nonselfmaintained discharge, consider the operation of a neon sign. When the voltage applied to the gas inside the sign reaches a certain threshold, the gas ionizes, creating a path for current to flow. However, once the power is turned off, the discharge ceases immediately, demonstrating that this type of discharge requires continuous energy input to maintain its state. This characteristic is what differentiates it from self-maintained discharges, which can continue to operate without constant external energy.The implications of nonselfmaintained discharge extend beyond decorative lighting. In scientific research, understanding how these discharges work can lead to advancements in plasma physics. Researchers can manipulate the conditions under which these discharges occur to study their properties, leading to new insights in material science and energy production. For instance, in controlled environments, scientists can create nonselfmaintained discharge conditions to explore how different gases behave under varying pressures and temperatures.Moreover, safety considerations must also be taken into account when dealing with nonselfmaintained discharge. Because the discharge can be unpredictable, especially in high-voltage applications, engineers must design systems that can effectively manage and contain these discharges. This includes implementing safety measures to prevent accidental discharge that could lead to equipment failure or personal injury.In conclusion, the concept of nonselfmaintained discharge plays a significant role in both practical applications and theoretical research. By understanding its characteristics and implications, professionals in the field can better design systems that utilize this phenomenon safely and effectively. Whether it is in the realm of decorative lighting, scientific exploration, or high-voltage engineering, the study of nonselfmaintained discharge continues to be a vital area of focus that contributes to technological advancement and safety in electrical systems.
在物理和工程领域,nonselfmaintained discharge(非自维持放电)的概念指的是一种不依赖外部支持或条件而无法维持自身的电气放电现象。这种现象可以在各种应用中观察到,例如气体放电管和某些类型的激光器。理解nonselfmaintained discharge对于从事高压系统的工程师和科学家至关重要,因为它影响电子设备的设计和功能。为了说明nonselfmaintained discharge的重要性,可以考虑霓虹灯的工作原理。当施加到灯管内气体上的电压达到某个阈值时,气体会被电离,形成电流流动的通路。然而,一旦电源关闭,放电立即停止,这表明这种类型的放电需要持续的能量输入才能维持其状态。这一特征使其与自维持放电区分开来,自维持放电可以在没有持续外部能量的情况下继续运行。nonselfmaintained discharge的影响不仅限于装饰照明。在科学研究中,理解这些放电的工作原理可以推动等离子体物理学的发展。研究人员可以操控发生这些放电的条件,研究其性质,从而在材料科学和能源生产方面获得新的见解。例如,在受控环境中,科学家可以创造nonselfmaintained discharge条件,以探索不同气体在不同压力和温度下的行为。此外,在处理nonselfmaintained discharge时,安全考虑也必须纳入其中。由于放电可能是不可预测的,尤其是在高压应用中,工程师必须设计能够有效管理和控制这些放电的系统。这包括实施安全措施,以防止意外放电导致设备故障或人身伤害。总之,nonselfmaintained discharge的概念在实际应用和理论研究中都扮演着重要角色。通过理解其特性和影响,相关领域的专业人士可以更好地设计利用这一现象的系统,确保其安全有效。不论是在装饰照明、科学探索还是高压工程领域,nonselfmaintained discharge的研究仍然是一个重要的关注领域,为电气系统的技术进步和安全性做出贡献。
