built in varible guide vane

简明释义

内装式可变导叶

英英释义

例句

1.The new turbine design features a built in variable guide vane that improves efficiency.

新型涡轮设计采用了内置可变导向叶片，提高了效率。

2.Engineers are testing the built in variable guide vane for better performance under varying loads.

工程师正在测试内置可变导向叶片以在不同负荷下获得更好的性能。

3.By utilizing a built in variable guide vane, the fan operates more quietly.

通过使用内置可变导向叶片，风扇运行得更加安静。

4.With the built in variable guide vane, the system can adjust airflow dynamically.

通过内置可变导向叶片，系统能够动态调整气流。

5.The HVAC unit is equipped with a built in variable guide vane to optimize temperature control.

该暖通空调设备配备了内置可变导向叶片以优化温度控制。

作文

In the world of modern engineering, the efficiency and performance of machines are paramount. One remarkable innovation that has significantly contributed to this field is the concept of the built in variable guide vane. This technology is particularly prevalent in turbines and compressors, where it plays a crucial role in controlling the flow of fluids and optimizing performance. Understanding the functionality and advantages of a built in variable guide vane can provide insights into its importance in various applications.The built in variable guide vane is designed to adjust the angle of the vanes according to the operational requirements of the machine. This capability allows for precise control over the flow direction and velocity of the fluid passing through the system. By varying the angle of the guide vanes, engineers can enhance the overall efficiency of the machine, leading to improved energy consumption and reduced operational costs.One of the key benefits of a built in variable guide vane is its ability to adapt to changing conditions. For instance, in a gas turbine, the demand for power can fluctuate based on the time of day or seasonal variations. With a built in variable guide vane, the turbine can automatically adjust to these changes, ensuring optimal performance without manual intervention. This adaptability not only enhances efficiency but also extends the lifespan of the equipment by reducing wear and tear.Moreover, the implementation of a built in variable guide vane contributes to better aerodynamic performance. In wind turbines, for example, the guide vanes help direct the wind flow more effectively across the blades, maximizing energy capture. This is particularly important in regions with variable wind patterns, where a flexible approach to harnessing wind energy can make a significant difference in overall output.In addition to energy efficiency, the use of a built in variable guide vane can lead to reductions in noise and emissions. By optimizing the flow of fluids, these guide vanes help minimize turbulence, which is often a source of noise in machinery. Furthermore, by improving combustion efficiency in engines, they can also contribute to lower emissions, making them an environmentally friendly option in modern engineering designs.The integration of a built in variable guide vane into existing systems can also be seen as a step towards smarter technology. With advancements in automation and control systems, these guide vanes can be monitored and adjusted in real-time, allowing for continuous optimization of performance. This level of intelligence in machinery is becoming increasingly important as industries strive for greater efficiency and sustainability.In conclusion, the built in variable guide vane represents a significant advancement in engineering technology. Its ability to adapt to varying operational conditions, improve aerodynamic performance, reduce noise and emissions, and integrate with smart technologies makes it an invaluable component in modern machinery. As industries continue to evolve, the importance of innovations like the built in variable guide vane will only grow, paving the way for more efficient and sustainable engineering solutions in the future.

在现代工程的世界中，机器的效率和性能至关重要。一项显著的创新是内置可变导向叶片的概念。这项技术在涡轮机和压缩机中尤为普遍，它在控制流体流动和优化性能方面发挥着关键作用。理解内置可变导向叶片的功能和优势，可以深入了解它在各种应用中的重要性。内置可变导向叶片旨在根据机器的操作要求调整叶片的角度。这一能力允许对流经系统的流体的流向和速度进行精确控制。通过改变导向叶片的角度，工程师可以提高机器的整体效率，从而改善能源消耗并降低运营成本。内置可变导向叶片的一个关键好处是其适应变化条件的能力。例如，在燃气涡轮中，电力需求可能会根据一天中的时间或季节变化而波动。通过使用内置可变导向叶片，涡轮可以自动适应这些变化，确保最佳性能，而无需人工干预。这种适应性不仅提高了效率，还通过减少磨损来延长设备的使用寿命。此外，实施内置可变导向叶片有助于改善空气动力性能。在风力涡轮机中，例如，导向叶片有助于更有效地引导风流过叶片，从而最大化能量捕获。这在风速变化多端的地区尤其重要，因为灵活的获取风能的方法可以显著影响整体输出。除了能效外，使用内置可变导向叶片还可以降低噪音和排放。通过优化流体流动，这些导向叶片有助于减少湍流，而湍流往往是机器噪音的来源。此外，通过提高发动机的燃烧效率，它们也可以有助于降低排放，使其成为现代工程设计中的环保选择。将内置可变导向叶片集成到现有系统中，也可以视为迈向更智能技术的一步。随着自动化和控制系统的进步，这些导向叶片可以实时监测和调整，从而实现性能的持续优化。这种机器的智能水平在各行业努力追求更高效率和可持续性时，变得越来越重要。总之，内置可变导向叶片代表了工程技术的重要进步。它适应变化操作条件、改善空气动力性能、降低噪音和排放以及与智能技术集成的能力，使其成为现代机器中不可或缺的组成部分。随着各行业的不断发展，像内置可变导向叶片这样的创新的重要性只会增加，为未来更高效和可持续的工程解决方案铺平道路。