combustion temperature

简明释义

燃烧温度

英英释义

例句

1.The combustion temperature (燃烧温度) of natural gas is lower than that of coal.

天然气的燃烧温度低于煤炭。

2.A higher combustion temperature (燃烧温度) can improve fuel efficiency in vehicles.

较高的燃烧温度可以提高车辆的燃油效率。

3.Monitoring the combustion temperature (燃烧温度) is crucial for safety in industrial furnaces.

监测工业炉的燃烧温度对安全至关重要。

4.The engine's efficiency can be improved by optimizing the combustion temperature (燃烧温度).

通过优化燃烧温度，可以提高发动机的效率。

5.Higher combustion temperature (燃烧温度) usually leads to increased NOx emissions.

较高的燃烧温度通常会导致NOx排放增加。

作文

The concept of combustion temperature refers to the temperature at which a substance ignites and begins to burn. This temperature is crucial in various fields such as chemistry, engineering, and environmental science. Understanding combustion temperature not only helps in the design of efficient engines and furnaces but also plays a significant role in fire safety and prevention. For instance, different materials have unique combustion temperatures, which determine how easily they can catch fire. Wood, for example, has a lower combustion temperature compared to metals like steel or aluminum, making it more susceptible to burning in a fire. In industrial applications, knowing the combustion temperature of fuels is vital for optimizing energy production and reducing emissions. When fuels are burned at their ideal combustion temperatures, they produce maximum energy with minimal waste. This is particularly important in power plants where fossil fuels are used to generate electricity. Engineers must carefully calculate the combustion temperature to ensure that the fuel burns efficiently, producing as little pollution as possible.Moreover, the study of combustion temperature extends to the field of environmental science. Combustion processes release greenhouse gases that contribute to climate change. By understanding combustion temperature and its effects, scientists can develop better strategies to reduce carbon footprints. For example, alternative fuels with higher combustion temperatures can be explored to minimize emissions while still providing adequate energy output.In addition to industrial applications, combustion temperature is also relevant in everyday life. Cooking is a common activity that involves combustion, whether through gas stoves or charcoal grills. Knowing the combustion temperature of various cooking fuels can help individuals cook food more effectively and safely. For instance, a gas stove operates at a higher combustion temperature than a charcoal grill, which affects the cooking time and flavor of the food.Furthermore, fire safety regulations often take combustion temperature into account. Buildings are designed with materials that have specific combustion temperatures to prevent rapid spread of fire. Firefighters are trained to understand these temperatures to effectively combat fires and protect lives.In conclusion, the term combustion temperature encompasses a wide range of applications and implications. From industrial processes to cooking and fire safety, understanding this concept is essential for optimizing performance and ensuring safety. As we continue to face challenges related to energy consumption and environmental impact, knowledge of combustion temperature will remain a key factor in developing sustainable solutions. By studying and applying the principles of combustion temperature, we can work towards a future that balances energy needs with environmental responsibility.

“燃烧温度”这一概念是指物质点燃并开始燃烧的温度。这个温度在化学、工程和环境科学等多个领域中至关重要。理解“燃烧温度”不仅有助于高效引擎和炉子的设计，还在火灾安全和预防中发挥着重要作用。例如，不同材料具有独特的“燃烧温度”，这决定了它们多容易着火。例如，木材的“燃烧温度”低于钢或铝等金属，使其在火灾中更易燃。在工业应用中，了解燃料的“燃烧温度”对于优化能源生产和减少排放至关重要。当燃料在其理想的“燃烧温度”下燃烧时，它们会产生最大能量且浪费最少。这在使用化石燃料发电的电厂中尤为重要。工程师必须仔细计算“燃烧温度”，以确保燃料有效燃烧，尽量减少污染。此外，“燃烧温度”的研究还扩展到环境科学领域。燃烧过程释放的温室气体会导致气候变化。通过理解“燃烧温度”及其影响，科学家可以制定更好的策略来减少碳足迹。例如，可以探索具有更高“燃烧温度”的替代燃料，以在提供足够能量输出的同时最小化排放。除了工业应用外，“燃烧温度”在日常生活中也很相关。烹饪是一项涉及燃烧的常见活动，无论是通过燃气灶还是木炭烧烤。了解各种烹饪燃料的“燃烧温度”可以帮助人们更有效和安全地烹饪食物。例如，燃气灶的“燃烧温度”高于木炭烧烤，这会影响食物的烹饪时间和风味。此外，消防安全法规通常考虑“燃烧温度”。建筑物的设计采用具有特定“燃烧温度”的材料，以防止火灾迅速蔓延。消防员接受培训以理解这些温度，从而有效扑灭火灾，保护生命。总之，“燃烧温度”这一术语涵盖了广泛的应用和影响。从工业过程到烹饪和火灾安全，理解这一概念对于优化性能和确保安全至关重要。随着我们继续面临与能源消耗和环境影响相关的挑战，了解“燃烧温度”将仍然是开发可持续解决方案的关键因素。通过研究和应用“燃烧温度”的原理，我们可以朝着平衡能源需求与环境责任的未来努力。