complete combustion

简明释义

完全燃烧

英英释义

例句

1.In order to reduce emissions, we need to achieve complete combustion 完全燃烧 in our heating systems.

为了减少排放，我们需要在供暖系统中实现完全燃烧 complete combustion。

2.The engine is designed for complete combustion 完全燃烧 to maximize efficiency.

这款发动机的设计旨在实现完全燃烧 complete combustion，以最大化效率。

3.The laboratory experiment showed that complete combustion 完全燃烧 produces less soot than incomplete combustion.

实验室的实验表明，完全燃烧 complete combustion 产生的烟灰比不完全燃烧少。

4.To ensure complete combustion 完全燃烧, the fuel-air mixture must be balanced properly.

为了确保完全燃烧 complete combustion，燃料与空气的混合必须适当平衡。

5.The technician adjusted the burner to achieve complete combustion 完全燃烧 of the gas.

技术员调整了燃烧器，以实现气体的完全燃烧 complete combustion。

作文

Complete combustion is a crucial concept in the field of chemistry and environmental science. It refers to the process in which a fuel reacts with oxygen to produce carbon dioxide and water as the only products, releasing the maximum amount of energy. This reaction is essential for various applications, including powering engines, heating homes, and generating electricity. Understanding complete combustion (完全燃烧) is vital for improving energy efficiency and reducing harmful emissions. When fuels undergo complete combustion (完全燃烧), they burn cleanly and efficiently. For example, when methane, a common natural gas, combusts completely, it produces carbon dioxide and water vapor: CH₄ + 2O₂ → CO₂ + 2H₂OThis equation illustrates that all the carbon in methane is converted into carbon dioxide, and all the hydrogen is converted into water. This reaction is highly desirable because it maximizes energy output while minimizing the production of pollutants such as carbon monoxide, soot, and unburned hydrocarbons. In contrast, incomplete combustion occurs when there is insufficient oxygen available for the fuel to react completely. This can lead to the formation of harmful byproducts, including carbon monoxide (a toxic gas) and particulate matter. Incomplete combustion not only wastes fuel but also contributes to air pollution and health risks. Therefore, achieving complete combustion (完全燃烧) is critical for both environmental protection and energy conservation. To enhance complete combustion (完全燃烧) in practical applications, several strategies can be employed. First, ensuring an adequate supply of oxygen is essential. In internal combustion engines, for instance, optimizing the air-fuel mixture can promote more efficient burning of fuel. Additionally, using advanced technologies such as catalytic converters can help facilitate the oxidation of unburned hydrocarbons and carbon monoxide, further promoting complete combustion (完全燃烧). Moreover, the choice of fuel plays a significant role in achieving complete combustion (完全燃烧). Fuels with higher hydrogen content, such as natural gas, tend to combust more completely than those with higher carbon content, like coal. This is why transitioning to cleaner energy sources is a key focus in efforts to reduce greenhouse gas emissions and combat climate change. In conclusion, understanding complete combustion (完全燃烧) is vital for maximizing energy efficiency and minimizing environmental impact. By promoting conditions that favor this process, we can harness the full potential of fuels while mitigating their negative effects on air quality and public health. As we continue to seek sustainable energy solutions, the principles of complete combustion (完全燃烧) will remain at the forefront of our efforts to create a cleaner and more efficient future.

完全燃烧是化学和环境科学领域中的一个关键概念。它指的是一种燃料与氧气反应，产生二氧化碳和水作为唯一产物的过程，从而释放出最大量的能量。这种反应对于各种应用至关重要，包括驱动发动机、供暖和发电。理解完全燃烧（complete combustion）对提高能源效率和减少有害排放至关重要。当燃料经历完全燃烧（complete combustion）时，它们会清洁高效地燃烧。例如，当甲烷（一种常见的天然气）完全燃烧时，它会产生二氧化碳和水蒸气：CH₄ + 2O₂ → CO₂ + 2H₂O这个方程式说明了甲烷中的所有碳都转化为二氧化碳，所有氢都转化为水。这种反应是高度可取的，因为它最大限度地提高了能量输出，同时最小化了污染物的产生，如一氧化碳、烟尘和未燃烧的烃。相反，不完全燃烧发生在氧气不足以使燃料完全反应时。这可能导致有害副产品的形成，包括一氧化碳（有毒气体）和颗粒物。不完全燃烧不仅浪费燃料，还会导致空气污染和健康风险。因此，实现完全燃烧（complete combustion）对环境保护和能源节约至关重要。为了在实际应用中增强完全燃烧（complete combustion），可以采用几种策略。首先，确保足够的氧气供应是必不可少的。在内燃机中，例如，优化空气-燃料混合比可以促进燃料的更高效燃烧。此外，使用催化转换器等先进技术可以帮助促进未燃烃和一氧化碳的氧化，进一步促进完全燃烧（complete combustion）。此外，燃料的选择在实现完全燃烧（complete combustion）中也扮演着重要角色。氢含量较高的燃料，如天然气，往往比碳含量较高的燃料，如煤，更容易完全燃烧。这就是为什么过渡到更清洁的能源来源是减少温室气体排放和应对气候变化努力的重点。总之，理解完全燃烧（complete combustion）对于最大化能源效率和最小化环境影响至关重要。通过促进有利于这一过程的条件，我们可以充分利用燃料的潜力，同时减轻其对空气质量和公众健康的负面影响。随着我们继续寻求可持续能源解决方案，完全燃烧（complete combustion）的原理将始终处于我们创造更清洁、更高效未来努力的前沿。