residual gas

简明释义

残留气体

英英释义

例句

1.High levels of residual gas can indicate incomplete combustion.

高水平的残余气体可能表明燃烧不完全。

2.After the combustion process, the engine releases a small amount of residual gas.

在燃烧过程后，发动机释放出少量的残余气体。

3.The residual gas from the reactor needs to be treated before release.

反应器中的残余气体需要在释放前进行处理。

4.The technician measured the residual gas in the chamber to ensure efficiency.

技术员测量了腔室中的残余气体以确保效率。

5.Monitoring residual gas levels is crucial for safety in chemical plants.

监测残余气体水平对化工厂的安全至关重要。

作文

The term residual gas refers to the gas that remains in a system after a process has occurred, often in contexts such as combustion engines or chemical reactions. Understanding residual gas is crucial for various fields, including engineering, environmental science, and chemistry. In combustion engines, for instance, residual gas can affect the efficiency and performance of the engine. When fuel is burned, not all of it is converted into energy; some of it becomes residual gas, which can lead to incomplete combustion and increased emissions. This is why engineers strive to minimize the amount of residual gas left in the combustion chamber to enhance engine performance and reduce pollution.In chemical reactions, residual gas may refer to unreacted gases that remain after a reaction has taken place. For example, in the production of ammonia through the Haber process, nitrogen and hydrogen gases are combined under high pressure and temperature. After the reaction, there may be residual gas that contains unreacted nitrogen or hydrogen. Understanding the amount and composition of this residual gas is essential for optimizing the efficiency of the reaction and improving yield.Moreover, in environmental science, the study of residual gas is significant when addressing air pollution and greenhouse gas emissions. Many industrial processes release gases into the atmosphere, and understanding the residual gas produced can help in developing strategies to mitigate their impact on climate change. For instance, carbon dioxide is a common residual gas from fossil fuel combustion, and its accumulation in the atmosphere is a major contributor to global warming. By analyzing residual gas emissions, scientists can propose more sustainable practices and technologies that reduce harmful outputs.In conclusion, the concept of residual gas plays a vital role in various scientific and engineering disciplines. Whether it be in improving the efficiency of combustion engines, optimizing chemical reactions, or addressing environmental concerns, understanding residual gas is essential. As we move towards a more sustainable future, further research into the management and reduction of residual gas will be critical in minimizing our environmental footprint and enhancing technological efficiency.

“残余气体”一词指的是在某个过程发生后，系统中剩余的气体，通常用于燃烧发动机或化学反应等背景下。理解“残余气体”对工程、环境科学和化学等多个领域至关重要。例如，在燃烧发动机中，“残余气体”会影响发动机的效率和性能。当燃料被燃烧时，并不是所有的燃料都转化为能量；其中一部分变成了“残余气体”，这可能导致不完全燃烧和排放增加。这就是为什么工程师们努力减少燃烧室中剩余的“残余气体”以提高发动机性能和减少污染。在化学反应中，“残余气体”可能指的是反应后仍然存在的未反应气体。例如，在通过哈柏法生产氨气的过程中，氮气和氢气在高压和高温下结合。反应后，可能会有“残余气体”，其中包含未反应的氮气或氢气。了解这种“残余气体”的数量和成分对于优化反应效率和提高产量至关重要。此外，在环境科学中，研究“残余气体”在解决空气污染和温室气体排放方面具有重要意义。许多工业过程将气体释放到大气中，了解所产生的“残余气体”可以帮助制定减轻其对气候变化影响的策略。例如，二氧化碳是化石燃料燃烧的常见“残余气体”，其在大气中的积累是全球变暖的主要原因之一。通过分析“残余气体”排放，科学家们可以提出更可持续的实践和技术，以减少有害排放。总之，“残余气体”的概念在多个科学和工程学科中发挥着重要作用。无论是在提高燃烧发动机效率、优化化学反应，还是在应对环境问题方面，理解“残余气体”都是必不可少的。随着我们朝着更加可持续的未来迈进，对“残余气体”的管理和减少的进一步研究将对缩小我们的环境足迹和提高技术效率至关重要。