combustible mixture

简明释义

可燃混合物

英英释义

例句

1.The explosion was caused by a combustible mixture of chemicals improperly stored together.

爆炸是由于化学品不当储存而导致的可燃混合物。

2.Firefighters were trained to identify and handle a combustible mixture in hazardous situations.

消防员接受了识别和处理危险情况下的可燃混合物的培训。

3.The factory was evacuated due to a leak of a combustible mixture that could ignite easily.

由于泄漏了可能容易点燃的可燃混合物，工厂被疏散。

4.Safety protocols require monitoring for any signs of a combustible mixture in the storage area.

安全协议要求监测储存区是否有任何可燃混合物的迹象。

5.During the experiment, we accidentally created a combustible mixture that produced harmful gases.

在实验过程中，我们不小心制造了一个产生有害气体的可燃混合物。

作文

In the realm of chemistry and engineering, understanding the properties of various substances is crucial for safety and innovation. One such concept that plays a significant role in both fields is the combustible mixture. A combustible mixture refers to a combination of materials that can ignite and burn when exposed to a sufficient heat source. This phenomenon is not only relevant in industrial applications but also in everyday life, where we often encounter various forms of combustible mixtures without even realizing it.For instance, consider the common household scenario of cooking on a gas stove. The gas used in many stoves is a combustible mixture of hydrocarbons. When the gas is ignited, it reacts with oxygen in the air, leading to combustion, which produces heat and light. This process is essential for cooking food efficiently. However, it also highlights the need for caution; if the gas leaks and mixes with air in an uncontrolled manner, it can create a highly flammable environment that poses serious safety risks.Moreover, in the field of automotive engineering, fuels such as gasoline are also a type of combustible mixture. Gasoline consists of various hydrocarbons mixed together to create a fuel that can combust in an engine's combustion chamber. The efficiency of this combustible mixture greatly impacts vehicle performance and emissions. Engineers continuously work to improve these mixtures to enhance fuel efficiency while reducing harmful emissions, showcasing the importance of understanding the chemical properties of combustible mixtures.In industrial settings, the management of combustible mixtures is critical for safety. Factories that handle chemicals must adhere to strict regulations to prevent accidents related to fire or explosions. For example, the dust produced in many manufacturing processes can form a combustible mixture with air. If this mixture is not properly controlled, it can lead to devastating dust explosions. Therefore, industries implement various safety measures, including proper ventilation, dust collection systems, and regular maintenance checks to minimize the risks associated with combustible mixtures.Furthermore, the study of combustible mixtures extends into environmental science, particularly in the context of wildfires. In nature, dry leaves, twigs, and other organic materials can create a combustible mixture that can easily ignite under the right conditions. Understanding the factors that contribute to the formation of such mixtures helps scientists and firefighters develop strategies to prevent and control wildfires. By managing vegetation and monitoring weather conditions, they can mitigate the risks posed by these natural combustible mixtures.In conclusion, the concept of a combustible mixture is integral to various fields, from cooking and automotive engineering to industrial safety and environmental science. Recognizing the potential hazards and applications of these mixtures is vital for safety and innovation. As we continue to explore new technologies and methods, a deeper understanding of combustible mixtures will undoubtedly play a key role in shaping a safer and more efficient future. By being aware of how these mixtures work and the conditions that affect them, we can harness their power responsibly while minimizing risks associated with their use.

在化学和工程领域，了解各种物质的性质对于安全和创新至关重要。一个在这两个领域中发挥重要作用的概念是可燃混合物。可燃混合物指的是一种材料的组合，当暴露于足够的热源时可以点燃和燃烧。这种现象不仅与工业应用相关，也与日常生活密切相关，我们经常在不知不觉中遇到各种形式的可燃混合物。例如，考虑在煤气灶上烹饪的常见家庭场景。许多炉子使用的煤气是一种可燃混合物，由烃类组成。当煤气被点燃时，它与空气中的氧气反应，导致燃烧，产生热量和光。这一过程对于高效烹饪食物至关重要。然而，这也突显了谨慎的必要性；如果煤气泄漏并以不受控制的方式与空气混合，就可能形成高度易燃的环境，带来严重的安全风险。此外，在汽车工程领域，汽油等燃料也是一种可燃混合物。汽油由各种烃类混合而成，以创造出一种可以在发动机的燃烧室中燃烧的燃料。这种可燃混合物的效率对车辆性能和排放有着重大影响。工程师们不断努力改善这些混合物，以提高燃油效率，同时减少有害排放，展示了理解可燃混合物化学特性的必要性。在工业环境中，管理可燃混合物对安全至关重要。处理化学品的工厂必须遵守严格的法规，以防止与火灾或爆炸相关的事故。例如，许多制造过程中产生的灰尘可以与空气形成可燃混合物。如果这种混合物没有得到妥善控制，就可能导致毁灭性的灰尘爆炸。因此，工业界实施各种安全措施，包括适当的通风、除尘系统和定期维护检查，以最小化与可燃混合物相关的风险。此外，对可燃混合物的研究还扩展到环境科学，特别是在野火的背景下。在自然界中，干燥的树叶、树枝和其他有机材料可以形成一种可燃混合物，在适当条件下容易点燃。了解促成这种混合物形成的因素有助于科学家和消防员制定防止和控制野火的策略。通过管理植被和监测天气条件，他们可以减轻这些自然可燃混合物带来的风险。总之，可燃混合物的概念在各个领域中都是不可或缺的，从烹饪和汽车工程到工业安全和环境科学。认识到这些混合物的潜在危害和应用对安全和创新至关重要。随着我们继续探索新技术和方法，对可燃混合物的更深入理解无疑将在塑造一个更安全、更高效的未来中发挥关键作用。通过意识到这些混合物的工作原理及其影响因素，我们可以负责任地利用它们的力量，同时最小化与其使用相关的风险。