combustion calculation

简明释义

燃烧计算

英英释义

例句

1.Before starting the project, the team completed a combustion calculation to assess the environmental impact.

在项目开始之前，团队完成了一项燃烧计算以评估环境影响。

2.The software includes features for combustion calculations that help engineers design more efficient systems.

该软件包含用于燃烧计算的功能，帮助工程师设计更高效的系统。

3.The engineer performed a combustion calculation to determine the efficiency of the new engine design.

工程师进行了燃烧计算以确定新发动机设计的效率。

4.In our chemistry class, we learned how to conduct a combustion calculation for various hydrocarbons.

在我们的化学课上，我们学习了如何对各种烃进行燃烧计算。

5.Accurate combustion calculations are crucial for optimizing fuel usage in power plants.

准确的燃烧计算对于优化发电厂的燃料使用至关重要。

作文

Combustion is a fundamental chemical reaction that occurs when a substance reacts with oxygen to produce heat and light. This process is crucial in many applications, ranging from energy production to internal combustion engines. To better understand how effective a fuel is during this reaction, engineers and scientists often rely on combustion calculation, which is the method of quantifying the amount of energy released during combustion. By performing combustion calculation, one can determine the efficiency of various fuels and their emissions, which is essential for environmental considerations.In essence, combustion calculation involves several key parameters, including the composition of the fuel, the amount of oxygen available, and the temperature at which the reaction occurs. For instance, when calculating the energy produced by burning hydrocarbons like gasoline, it is important to consider the carbon and hydrogen content of the fuel. The more carbon and hydrogen present, the more energy can be released during combustion.Moreover, combustion calculation also plays a vital role in designing engines and power plants. Engineers utilize these calculations to optimize fuel usage, enhance performance, and minimize harmful emissions. For example, in an internal combustion engine, accurate combustion calculation helps in tuning the air-fuel mixture to achieve the best possible efficiency. If the mixture is too rich or too lean, it can lead to incomplete combustion, resulting in wasted fuel and increased pollutants.In addition to its applications in engineering, combustion calculation is also significant in environmental science. With the growing concern over climate change and air quality, understanding the emissions produced by different fuels is critical. By using combustion calculation, researchers can estimate the amount of carbon dioxide, nitrogen oxides, and other pollutants generated from various combustion processes. This information is vital for developing cleaner technologies and implementing regulations aimed at reducing greenhouse gas emissions.Furthermore, the importance of combustion calculation extends to safety measures as well. In industries where combustion processes are prevalent, such as manufacturing and energy production, accurate calculations are necessary to prevent accidents. Miscalculations can lead to explosions or fires, making it imperative to have precise data on the combustion characteristics of the materials being used.In conclusion, combustion calculation is an essential aspect of both engineering and environmental science. It allows for the optimization of fuel use, enhances the design of engines and power systems, aids in pollution control, and ensures safety in industrial processes. As we continue to seek more sustainable energy solutions, the role of combustion calculation will only become more prominent. Understanding this concept not only contributes to technological advancements but also plays a part in protecting our environment for future generations.

燃烧是一种基本的化学反应，当一种物质与氧气反应时，会产生热量和光。这一过程在许多应用中至关重要，从能源生产到内燃机。为了更好地理解燃料在这一反应中的有效性，工程师和科学家常常依赖于燃烧计算，即量化燃烧过程中释放的能量的方法。通过进行燃烧计算，可以确定各种燃料的效率及其排放，这对于环境考虑至关重要。本质上，燃烧计算涉及几个关键参数，包括燃料的成分、可用氧气的数量以及反应发生的温度。例如，在计算燃烧烃类如汽油所产生的能量时，考虑燃料中的碳和氢含量非常重要。碳和氢含量越高，燃烧过程中释放的能量就越多。此外，燃烧计算在设计发动机和发电厂中也发挥着至关重要的作用。工程师利用这些计算来优化燃料使用，提高性能，并最小化有害排放。例如，在内燃机中，准确的燃烧计算有助于调节空气与燃料的混合比例，以实现最佳效率。如果混合比例过于丰富或稀薄，可能会导致燃烧不完全，造成燃料浪费和污染物增加。除了在工程中的应用，燃烧计算在环境科学中也具有重要意义。随着对气候变化和空气质量日益关注，了解不同燃料产生的排放至关重要。通过使用燃烧计算，研究人员可以估算各种燃烧过程产生的二氧化碳、氮氧化物和其他污染物的数量。这些信息对于开发更清洁的技术和实施旨在减少温室气体排放的法规至关重要。此外，燃烧计算的重要性还扩展到安全措施。在燃烧过程普遍存在的行业，如制造业和能源生产中，准确的计算是防止事故的必要条件。错误的计算可能导致爆炸或火灾，因此必须对所使用材料的燃烧特性有精确的数据。总之，燃烧计算是工程和环境科学的一个重要方面。它使燃料使用优化，增强发动机和电力系统的设计，帮助控制污染，并确保工业过程的安全。随着我们继续寻求更可持续的能源解决方案，燃烧计算的角色将变得更加突出。理解这一概念不仅有助于技术进步，也有助于保护我们未来几代人的环境。