turbulence measurement

简明释义

湍流度测量

英英释义

例句

1.In wind tunnel experiments, turbulence measurement 湍流测量 is crucial for understanding airflow around models.

在风洞实验中，湍流测量对于理解气流绕过模型至关重要。

2.The engineers conducted a thorough turbulence measurement 湍流测量 to ensure the aircraft's stability during flight.

工程师们进行了彻底的湍流测量以确保飞机在飞行中的稳定性。

3.The turbulence measurement 湍流测量 data was used to optimize the design of the new bridge.

该湍流测量数据被用于优化新桥的设计。

4.Accurate turbulence measurement 湍流测量 can help improve weather forecasting models.

准确的湍流测量可以帮助改善天气预报模型。

5.The research team developed new sensors for turbulence measurement 湍流测量 in ocean currents.

研究小组开发了用于海洋洋流中湍流测量的新传感器。

作文

Turbulence is a common phenomenon that occurs in various fluid flows, from the atmosphere to oceans and even within industrial processes. Understanding and quantifying turbulence is crucial in many fields, such as meteorology, aviation, and engineering. One of the key aspects of studying turbulence is the concept of turbulence measurement, which refers to the methods and techniques used to quantify the chaotic changes in pressure and flow velocity in a fluid. Accurate turbulence measurement can lead to improved designs of aircraft, better weather predictions, and enhanced performance of various systems. In aviation, for instance, turbulence can significantly affect flight safety and passenger comfort. Pilots rely on accurate turbulence measurement to anticipate and navigate through turbulent air. Modern aircraft are equipped with advanced sensors that can detect changes in airflow and provide real-time data to pilots. This information is vital for making informed decisions during flights, especially when encountering unexpected turbulence. Furthermore, understanding the patterns of turbulence can help engineers design more aerodynamically efficient aircraft, reducing fuel consumption and enhancing overall performance.In the field of meteorology, turbulence measurement plays a critical role in weather forecasting. Meteorologists use various instruments, such as anemometers and lidar systems, to measure wind speed and direction, which are essential for understanding atmospheric turbulence. By analyzing these measurements, they can predict severe weather events, such as thunderstorms or hurricanes, with greater accuracy. This information is invaluable for public safety and disaster preparedness, as it allows communities to take necessary precautions before extreme weather conditions occur.Moreover, turbulence measurement is also important in industrial applications. Many manufacturing processes involve fluid flows, and understanding turbulence can lead to increased efficiency and product quality. For example, in chemical engineering, accurate turbulence measurement can help optimize mixing processes, ensuring that reactants are evenly distributed and enhancing the overall reaction rates. Similarly, in the oil and gas industry, understanding turbulence in pipelines can prevent blockages and improve the transportation of fluids.In conclusion, turbulence measurement is a vital aspect of understanding fluid dynamics across various disciplines. Whether in aviation, meteorology, or industrial processes, accurate measurements of turbulence can lead to significant advancements in safety, efficiency, and performance. As technology continues to evolve, the methods for turbulence measurement will likely become even more sophisticated, providing deeper insights into this complex phenomenon. The importance of turbulence measurement cannot be overstated, as it not only enhances our understanding of the natural world but also drives innovation and improvement in numerous fields.

湍流是一种常见现象，发生在大气、海洋甚至工业过程中的各种流体流动中。理解和量化湍流在许多领域至关重要，例如气象学、航空和工程。研究湍流的一个关键方面是湍流测量的概念，它指的是用于量化流体中压力和流速变化混乱的各种方法和技术。准确的湍流测量可以改善飞机设计、提高天气预测的准确性以及增强各种系统的性能。例如，在航空领域，湍流会显著影响飞行安全和乘客舒适度。飞行员依靠准确的湍流测量来预测和穿越湍流空气。现代飞机配备了先进的传感器，可以检测气流变化，并向飞行员提供实时数据。这些信息对于在飞行过程中做出明智决策至关重要，尤其是在遇到意外湍流时。此外，理解湍流的模式可以帮助工程师设计更具空气动力学效率的飞机，从而减少燃料消耗并提高整体性能。在气象学领域，湍流测量在天气预报中发挥着关键作用。气象学家使用各种仪器，如风速计和激光雷达系统，来测量风速和风向，这对于理解大气湍流至关重要。通过分析这些测量结果，他们可以更准确地预测严重天气事件，如雷暴或飓风。这些信息对公共安全和灾难准备至关重要，因为它使社区能够在极端天气条件发生之前采取必要的预防措施。此外，湍流测量在工业应用中也很重要。许多制造过程涉及流体流动，理解湍流可以提高效率和产品质量。例如，在化学工程中，准确的湍流测量可以帮助优化混合过程，确保反应物均匀分布并提高总体反应速率。同样，在石油和天然气行业，了解管道中的湍流可以防止堵塞并改善流体运输。总之，湍流测量是理解各学科流体动力学的重要方面。无论是在航空、气象还是工业过程中，湍流的准确测量都可以带来安全性、效率和性能的重大进步。随着技术的不断发展，湍流测量的方法可能会变得更加复杂，为我们提供更深入的见解。湍流测量的重要性不容小觑，因为它不仅增强了我们对自然界的理解，还推动了多个领域的创新和改进。