turbulator

简明释义

英[ˈtɜːbjʊleɪtə]美[ˈtɜrbjəˌleɪtər]

扰流器

[流][制冷] 紊流器

英英释义

单词用法

同义词

反义词

例句

1.The present invention relates to a turbulator of a soybean milk machine.

本发明涉及一种豆浆机紊流器。

2.The present invention relates to a turbulator of a soybean milk machine.

本发明涉及一种豆浆机紊流器。

3.By adding a turbulator to the pipeline, we can reduce energy consumption significantly.

通过在管道中添加一个扰流器，我们可以显著减少能耗。

4.The new design of the heat exchanger includes a built-in turbulator to enhance fluid mixing.

新设计的热交换器包括一个内置的扰流器以增强流体混合。

5.The turbulator in the water tank helps to keep the water temperature uniform.

水箱中的扰流器有助于保持水温均匀。

6.The turbulator creates turbulence that increases heat transfer efficiency.

该扰流器产生的湍流提高了热传递效率。

7.Engineers recommend using a turbulator to improve the performance of the cooling system.

工程师建议使用扰流器来提高冷却系统的性能。

作文

In the field of engineering, particularly in fluid dynamics, the term Turbulator refers to a device or feature that is designed to induce turbulence in a fluid flow. This is significant because turbulence can enhance mixing and improve the efficiency of heat transfer in various applications. For instance, in heat exchangers, the presence of a Turbulator can facilitate better thermal performance by disrupting laminar flow patterns that would otherwise lead to inefficient heat transfer. By creating a turbulent flow, the Turbulator increases the surface area contact between the fluids, allowing for more effective energy exchange.The application of Turbulators is not limited to industrial machinery. They are also utilized in various consumer products, such as showerheads and faucets, where they help to optimize water flow and pressure. In these cases, the Turbulator works by breaking up the smooth flow of water, creating a more aerated spray that enhances the user experience while conserving water. This dual benefit of efficiency and user satisfaction highlights the importance of incorporating Turbulators into product design.Moreover, in the automotive industry, Turbulators play a crucial role in improving fuel efficiency. By introducing turbulence in the intake manifold, Turbulators can help ensure a more homogeneous air-fuel mixture enters the combustion chamber. This leads to more complete combustion, reducing emissions and improving overall engine performance. Engineers continuously strive to innovate and refine Turbulator designs to maximize their positive effects on vehicle efficiency and environmental impact.The concept of a Turbulator can also be explored in the context of renewable energy. In wind turbines, for example, the design of blades often incorporates features akin to Turbulators to optimize airflow and increase energy capture. By manipulating the flow of air around the blades, these devices enhance lift and reduce drag, ultimately leading to more efficient energy production. This intersection of fluid dynamics and renewable energy technology underscores the versatility and significance of Turbulators in modern engineering.In conclusion, the term Turbulator encapsulates a vital concept within engineering and design, representing a mechanism that enhances fluid flow characteristics for improved efficiency and performance. Whether in industrial applications, consumer products, automotive engineering, or renewable energy systems, Turbulators serve as a testament to the innovative solutions engineers develop to address complex challenges. Understanding the function and benefits of Turbulators not only broadens our knowledge of fluid dynamics but also inspires further advancements in technology aimed at sustainability and efficiency. As we continue to explore the potential of Turbulators, it is clear that their role will only become more critical in our quest for enhanced performance across various fields.

在工程学领域，特别是流体动力学中，术语扰流器指的是一种设备或特征，旨在引发流体流动中的湍流。这一点非常重要，因为湍流可以增强混合并提高各种应用中的热传递效率。例如，在热交换器中，扰流器的存在可以通过干扰本来会导致低效热传递的层流模式来促进更好的热性能。通过创造湍流，扰流器增加了流体之间的接触表面积，从而允许更有效的能量交换。扰流器的应用不仅限于工业机械。它们还被用于各种消费产品中，例如淋浴头和水龙头，在这些产品中，它们有助于优化水流和压力。在这些情况下，扰流器通过打破水的平滑流动，创造出更加充气的喷雾，从而增强用户体验，同时节约用水。这种效率与用户满意度的双重好处突显了将扰流器纳入产品设计的重要性。此外，在汽车工业中，扰流器在提高燃油效率方面发挥着至关重要的作用。通过在进气歧管中引入湍流，扰流器可以帮助确保更均匀的空气-燃料混合物进入燃烧室。这导致更完全的燃烧，减少排放并提高整体发动机性能。工程师们不断努力创新和完善扰流器的设计，以最大化其对车辆效率和环境影响的积极效果。在可再生能源的背景下，也可以探讨扰流器的概念。例如，在风力涡轮机中，叶片的设计通常包含类似于扰流器的特征，以优化气流并增加能量捕获。通过操控空气在叶片周围的流动，这些设备增强了升力并减少了阻力，最终导致更高效的能源生产。流体动力学与可再生能源技术的这种交叉凸显了扰流器在现代工程中的多功能性和重要性。总之，术语扰流器概括了工程和设计中的一个重要概念，代表了一种机制，增强了流体流动特性以提高效率和性能。无论是在工业应用、消费产品、汽车工程还是可再生能源系统中，扰流器都证明了工程师为应对复杂挑战而开发的创新解决方案的重要性。了解扰流器的功能和好处不仅拓宽了我们对流体动力学的知识，还激励了进一步的技术进步，旨在实现可持续性和效率。随着我们继续探索扰流器的潜力，可以清楚地看到，在我们追求各个领域的性能提升的过程中，它们的作用只会变得更加重要。