discharge in gas

简明释义

气体放电

英英释义

例句

1.The research team studied the effects of discharge in gas 气体排放 on local air quality.

研究小组研究了气体排放对当地空气质量的影响。

2.To comply with regulations, the plant must monitor any discharge in gas 气体排放 into the atmosphere.

为了遵守法规，工厂必须监测向大气中的任何气体排放。

3.The factory had to implement safety measures to prevent any discharge in gas 气体排放 during the production process.

工厂必须实施安全措施，以防止在生产过程中发生任何气体排放。

4.After the experiment, we noticed a significant discharge in gas 气体排放 from the reaction chamber.

实验结束后，我们注意到反应室有明显的气体排放。

5.The technician reported a discharge in gas 气体排放 that could indicate a leak in the system.

技术人员报告说，可能表明系统中存在泄漏的气体排放。

作文

The phenomenon of discharge in gas is an intriguing aspect of physics that has applications in various fields, including environmental science and engineering. When we talk about discharge in gas (气体放电), we refer to the process where electrical energy is released into a gaseous medium. This can occur in several forms, such as in gas discharge lamps, plasma generation, and even in natural occurrences like lightning. Understanding this concept is essential for both theoretical studies and practical applications.In gas discharge lamps, for example, a gas is ionized by applying a high voltage across electrodes placed within the lamp. The result is a brilliant light produced by the recombination of electrons and ions, which emits photons. This is a direct application of discharge in gas (气体放电) that showcases how energy can be transformed into light. Such lamps are widely used in street lighting and in various commercial applications due to their efficiency and longevity.Moreover, discharge in gas (气体放电) plays a critical role in understanding atmospheric phenomena. Lightning is a spectacular display of this process, where the discharge occurs between charged regions in clouds or between clouds and the ground. The rapid movement of electrons creates a bright flash of light and can generate immense heat, leading to the characteristic sound of thunder. Studying these discharges helps meteorologists predict storms and understand weather patterns more accurately.In industrial applications, discharge in gas (气体放电) is utilized in processes such as plasma cutting and surface treatment. Plasma, which is an ionized gas, can conduct electricity and is used to cut through metals with precision. The ability to control the characteristics of the discharge allows for various applications in manufacturing, making it an invaluable tool in modern technology.Environmental scientists also study discharge in gas (气体放电) to understand its implications on air quality and pollution. For instance, the discharge of gases from industrial processes can lead to the formation of harmful compounds in the atmosphere. By analyzing these discharges, researchers can develop strategies to mitigate their impact on human health and the environment.In conclusion, the concept of discharge in gas (气体放电) is multifaceted and significant in various scientific and practical domains. From illuminating our streets with gas discharge lamps to predicting weather patterns through the study of lightning, the applications of this phenomenon are vast. As technology continues to advance, our understanding of discharge in gas (气体放电) will undoubtedly lead to innovative solutions that enhance our daily lives and protect our environment.