inlet vane

简明释义

进口叶片

英英释义

例句

1.The design of the inlet vane is crucial for optimizing airflow in jet engines.

设计进气导叶对于优化喷气发动机的气流至关重要。

2.During maintenance, we need to inspect the inlet vane for any signs of wear or damage.

在维护过程中，我们需要检查进气导叶是否有磨损或损坏的迹象。

3.The failure of the inlet vane can lead to a decrease in performance.

进气导叶的故障可能导致性能下降。

4.Adjusting the inlet vane can significantly improve engine efficiency.

调整进气导叶可以显著提高发动机效率。

5.The inlet vane helps control the angle of airflow entering the compressor.

进气导叶有助于控制进入压缩机的气流角度。

作文

The performance and efficiency of various types of machinery can often be significantly influenced by their design features. One such component that plays a crucial role in the functioning of certain machines, particularly in the field of aerodynamics and fluid dynamics, is the inlet vane. An inlet vane is a device used to control the flow of air or fluid into a machine, such as a turbine or an engine. By adjusting the angle of the inlet vane, engineers can optimize the aerodynamic properties of the machine, which can lead to improved performance and efficiency.In the context of aircraft engines, for instance, the inlet vane helps to manage the airflow entering the engine. This is especially important during different phases of flight, such as takeoff, cruising, and landing. During takeoff, the demand for thrust is high, and the inlet vane can be positioned to maximize airflow, thereby enhancing engine performance. Conversely, during cruising, the angle can be adjusted to ensure a smooth and steady flow of air, preventing turbulence and maintaining efficiency.Moreover, the use of inlet vanes is not limited to aviation; they are also prevalent in various industrial applications. For example, in gas turbines, inlet vanes are essential for regulating the amount of air entering the combustion chamber. This regulation is vital for achieving optimal combustion conditions, which directly impacts the overall efficiency of the turbine. By fine-tuning the settings of the inlet vane, operators can ensure that the turbine operates at its peak performance, reducing fuel consumption and minimizing emissions.The technology behind inlet vanes has advanced significantly over the years. Modern systems often incorporate sophisticated sensors and control mechanisms that allow for real-time adjustments based on varying operational conditions. This level of automation ensures that the inlet vane can respond dynamically to changes in airflow requirements, further enhancing the efficiency and reliability of the machine.In conclusion, the inlet vane is a critical component in many engineering applications, playing a significant role in optimizing airflow and improving machine performance. Its ability to adjust the direction and volume of incoming air or fluid makes it indispensable in both aviation and industrial sectors. As technology continues to evolve, the design and functionality of inlet vanes are likely to become even more sophisticated, paving the way for more efficient and environmentally friendly machines in the future.

各种类型机械的性能和效率通常会受到其设计特征的显著影响。一个在某些机器的运行中发挥关键作用的组件，特别是在空气动力学和流体动力学领域，是进气叶片。进气叶片是一种用于控制空气或流体进入机器（如涡轮或发动机）流动的装置。通过调整进气叶片的角度，工程师可以优化机器的空气动力学特性，从而提高性能和效率。以飞机发动机为例，进气叶片有助于管理进入发动机的气流。这在飞行的不同阶段（如起飞、巡航和着陆）尤为重要。在起飞期间，对推力的需求很高，进气叶片可以调整到最大化气流，从而增强发动机性能。相反，在巡航期间，可以调整角度，以确保气流平稳稳定，防止湍流并保持效率。此外，进气叶片的使用并不限于航空；它们在各种工业应用中也很常见。例如，在燃气涡轮中，进气叶片对于调节进入燃烧室的空气量至关重要。这种调节对于实现最佳燃烧条件至关重要，直接影响涡轮的整体效率。通过微调进气叶片的设置，操作人员可以确保涡轮在最佳性能下运行，减少燃料消耗并最小化排放。近年来，进气叶片背后的技术有了显著进步。现代系统通常结合了复杂的传感器和控制机制，允许根据变化的操作条件进行实时调整。这种自动化水平确保了进气叶片能够动态响应气流需求的变化，进一步提高机器的效率和可靠性。总之，进气叶片是许多工程应用中的关键组件，在优化气流和提高机器性能方面发挥着重要作用。它能够调整进入空气或流体的方向和体积，使其在航空和工业部门不可或缺。随着技术的不断发展，进气叶片的设计和功能可能会变得更加复杂，为未来更高效和环保的机器铺平道路。