perfect combustion

简明释义

完全燃烧

英英释义

例句

1.To achieve perfect combustion 完全燃烧, the air-to-fuel ratio must be carefully monitored.

要实现perfect combustion完全燃烧，必须仔细监控空气与燃料的比例。

2.For a vehicle to run smoothly, it needs to ensure perfect combustion 完全燃烧 of fuel in the engine.

为了让车辆平稳运行，必须确保发动机中燃料的perfect combustion完全燃烧。

3.In order to reduce emissions, the furnace must be adjusted for perfect combustion 完全燃烧 of natural gas.

为了减少排放，炉子必须调整以实现天然气的perfect combustion完全燃烧。

4.The engineer explained that achieving perfect combustion 完全燃烧 is crucial for maximizing energy efficiency in power plants.

工程师解释说，实现perfect combustion完全燃烧对最大化发电厂的能量效率至关重要。

5.The new technology promises perfect combustion 完全燃烧 with minimal waste and pollution.

新技术承诺在最小浪费和污染的情况下实现perfect combustion完全燃烧。

作文

Perfect combustion is a term often used in the field of chemistry and engineering to describe an ideal reaction where a fuel burns completely, producing only carbon dioxide and water as products. This process is essential for maximizing energy efficiency and minimizing harmful emissions. In practical terms, achieving perfect combustion (完全燃烧) means that all the fuel is consumed, and no unburned hydrocarbons or other pollutants are released into the atmosphere. To understand the significance of perfect combustion (完全燃烧), we must first explore the combustion process itself. Combustion is a chemical reaction that occurs when a fuel reacts with an oxidant, typically oxygen, to produce heat and light. It is a fundamental reaction that powers engines, generates electricity, and provides heat in our homes. However, not all combustion reactions are created equal. In real-world applications, achieving perfect combustion (完全燃烧) is challenging due to various factors such as fuel composition, temperature, pressure, and the presence of impurities. For instance, in an internal combustion engine, the air-fuel mixture must be precisely controlled to ensure complete burning of the fuel. If the mixture is too rich in fuel, it leads to incomplete combustion, resulting in the emission of carbon monoxide, soot, and other pollutants. Conversely, if the mixture is too lean, it can cause engine knocking and reduced power output. The environmental implications of perfect combustion (完全燃烧) cannot be overstated. Incomplete combustion contributes significantly to air pollution and respiratory diseases. By striving for perfect combustion (完全燃烧), industries can reduce their carbon footprint and comply with increasingly stringent environmental regulations. Technologies such as catalytic converters and advanced combustion control systems are designed to enhance combustion efficiency and promote perfect combustion (完全燃烧). Moreover, the concept of perfect combustion (完全燃烧) extends beyond just environmental concerns; it also has economic benefits. Efficient fuel use translates to lower operational costs for businesses and individuals alike. For example, power plants that achieve perfect combustion (完全燃烧) can generate more electricity from the same amount of fuel, ultimately leading to lower energy prices for consumers. In conclusion, perfect combustion (完全燃烧) is a critical goal in both environmental sustainability and economic efficiency. While it may be difficult to achieve in practice, advancements in technology and a better understanding of combustion processes can bring us closer to this ideal. As we continue to face global challenges such as climate change and air quality degradation, the pursuit of perfect combustion (完全燃烧) will play a vital role in creating a cleaner, more sustainable future.

完全燃烧是一个常用于化学和工程领域的术语，描述一种理想反应，其中燃料完全燃烧，仅产生二氧化碳和水作为产物。这个过程对于最大化能源效率和最小化有害排放至关重要。在实际操作中，实现完全燃烧意味着所有燃料都被消耗，没有未燃烧的烃或其他污染物释放到大气中。要理解完全燃烧的重要性，我们首先必须探讨燃烧过程本身。燃烧是一种化学反应，当燃料与氧化剂（通常是氧气）反应时，会产生热量和光。这是一种基本反应，为发动机提供动力，发电并在我们的家庭中提供热量。然而，并不是所有的燃烧反应都是相同的。在现实应用中，达到完全燃烧是具有挑战性的，因为各种因素如燃料成分、温度、压力和杂质的存在都会影响燃烧效果。例如，在内燃机中，空气-燃料混合物必须精确控制，以确保燃料的完全燃烧。如果混合物燃料过多，就会导致不完全燃烧，从而排放一氧化碳、烟尘和其他污染物。相反，如果混合物燃料过少，则可能导致发动机敲击和功率输出降低。完全燃烧的环境影响不可低估。不完全燃烧显著贡献了空气污染和呼吸系统疾病。通过追求完全燃烧，工业可以减少其碳足迹，并遵守日益严格的环境法规。催化转化器和先进的燃烧控制系统等技术旨在提高燃烧效率，促进完全燃烧。此外，完全燃烧的概念不仅限于环境问题；它还有经济效益。高效的燃料使用意味着企业和个人的运营成本降低。例如，实现完全燃烧的发电厂可以从相同数量的燃料中生成更多的电力，从而最终导致消费者的能源价格降低。总之，完全燃烧是环境可持续性和经济效率的关键目标。尽管在实践中可能难以实现，但技术的进步和对燃烧过程的更好理解可以使我们更接近这一理想。随着我们继续面临气候变化和空气质量恶化等全球挑战，追求完全燃烧将在创造一个更清洁、更可持续的未来中发挥重要作用。