turbulent burner

简明释义

湍良烧器

英英释义

例句

1.Using a turbulent burner can significantly improve the performance of gas turbines.

使用湍流燃烧器可以显著提高燃气涡轮的性能。

2.The engineer explained that the turbulent burner is designed to enhance combustion efficiency.

工程师解释说，湍流燃烧器旨在提高燃烧效率。

3.In the laboratory, we tested the turbulent burner for its ability to reduce emissions.

在实验室中，我们测试了该湍流燃烧器的减排能力。

4.The turbulent burner creates a more uniform flame, which is crucial for industrial applications.

该湍流燃烧器产生更均匀的火焰，这对于工业应用至关重要。

5.The research focused on optimizing the design of the turbulent burner for better heat transfer.

研究集中于优化湍流燃烧器的设计，以实现更好的热传递。

作文

In the field of combustion technology, the term turbulent burner refers to a type of burner that promotes a high degree of mixing between fuel and air, resulting in enhanced combustion efficiency and reduced emissions. The design of a turbulent burner is crucial for various industrial applications, including power generation, heating, and manufacturing processes. Understanding how a turbulent burner operates can provide insights into its advantages and challenges. The primary characteristic of a turbulent burner is its ability to create turbulence within the combustion chamber. This turbulence is generated by the rapid movement of gases, which facilitates better mixing of the fuel and oxidizer. When fuel and air are mixed thoroughly, it leads to a more complete combustion process, which is essential for maximizing energy output while minimizing pollutants. In contrast to laminar burners, which rely on smooth and orderly flow, turbulent burners harness chaotic fluid dynamics to enhance performance.One of the key benefits of using a turbulent burner is its capability to operate efficiently across a wide range of conditions. For instance, in industrial settings where fuel quality may vary, a turbulent burner can adapt to different fuel types without significant loss of efficiency. This adaptability is particularly important in industries that utilize multiple fuel sources or face fluctuating fuel prices. Additionally, the robust design of turbulent burners allows them to handle higher heat loads, making them suitable for demanding applications.Moreover, the environmental impact of combustion processes has become a critical concern in recent years. Turbulent burners play a significant role in reducing harmful emissions such as nitrogen oxides (NOx) and carbon monoxide (CO). By promoting thorough mixing and ensuring complete combustion, these burners help to lower the concentration of unburned hydrocarbons and other pollutants in the exhaust gases. As regulations around emissions become stricter, the adoption of turbulent burners is likely to increase.However, despite their advantages, turbulent burners also present certain challenges. The complexity of their design can lead to higher manufacturing costs compared to simpler burner types. Additionally, the increased turbulence may result in greater wear and tear on components, necessitating more frequent maintenance and replacement. Engineers must carefully balance the benefits of turbulence with the potential drawbacks to optimize the performance of a turbulent burner.In conclusion, the turbulent burner is an essential component in modern combustion systems, offering numerous advantages in terms of efficiency and emissions reduction. Its ability to create a highly turbulent flow enhances the mixing of fuel and air, leading to improved combustion outcomes. While there are challenges associated with their design and operation, the overall benefits of turbulent burners make them a valuable choice in many industrial applications. As technology continues to advance, we can expect further innovations in burner design that will enhance the capabilities of turbulent burners even more.

在燃烧技术领域，短语turbulent burner指的是一种促进燃料与空气高度混合的燃烧器，从而提高燃烧效率并减少排放。turbulent burner的设计对于包括发电、供暖和制造过程在内的各种工业应用至关重要。了解turbulent burner的工作原理可以为我们提供有关其优点和挑战的见解。turbulent burner的主要特征是其在燃烧室内产生湍流的能力。这种湍流是通过气体的快速运动产生的，有助于燃料和氧化剂的更好混合。当燃料和空气充分混合时，便会导致更完全的燃烧过程，这对于最大限度地提高能量输出和减少污染物至关重要。与依赖平稳有序流动的层流燃烧器相比，turbulent burner利用混沌流体动力学来增强性能。使用turbulent burner的一个主要好处是其能够在广泛条件下高效运行。例如，在燃料质量可能变化的工业环境中，turbulent burner可以适应不同类型的燃料，而不会显著降低效率。这种适应性在利用多种燃料来源或面临波动燃料价格的行业中尤为重要。此外，turbulent burner的坚固设计使其能够处理更高的热负荷，适用于要求苛刻的应用。此外，近年来燃烧过程对环境的影响已成为一个关键问题。turbulent burner在减少氮氧化物（NOx）和一氧化碳（CO）等有害排放方面发挥了重要作用。通过促进充分混合并确保完全燃烧，这些燃烧器有助于降低废气中未燃烃和其他污染物的浓度。随着排放法规变得更加严格，预计对turbulent burner的采用将会增加。然而，尽管有其优势，turbulent burner也存在某些挑战。其设计的复杂性可能导致与简单燃烧器相比更高的制造成本。此外，湍流的增加可能导致组件的磨损加剧，需要更频繁的维护和更换。工程师必须仔细平衡湍流的好处与潜在缺点，以优化turbulent burner的性能。总之，turbulent burner是现代燃烧系统中的一个重要组成部分，在效率和减排方面提供了众多优势。其创造高度湍流流动的能力增强了燃料和空气的混合，导致改善的燃烧效果。尽管其设计和操作存在挑战，但turbulent burner的整体优势使其成为许多工业应用中的宝贵选择。随着技术的不断进步，我们可以期待燃烧器设计的进一步创新，这将进一步增强turbulent burner的能力。