anemometry

简明释义

[ˌænɪˈmɒmɪtri][ˌænɪˈmɑːmɪtri;ˌænəˈmɑːmətri]

n. 风速和风力测定法

英英释义

Anemometry is the science of measuring wind speed and direction.

风速计法是测量风速和风向的科学。

单词用法

wind speed measurement

风速测量

anemometry instruments

风速计仪器

anemometry data

风速测量数据

conduct anemometry

进行风速测量

apply anemometry techniques

应用风速测量技术

anemometry research

风速测量研究

同义词

wind measurement

风速测量

Anemometry is essential for meteorological studies and weather forecasting.

风速测量对于气象研究和天气预报至关重要。

aerometry

气体测量

Aerometry can also include the study of air density and temperature.

气体测量还可以包括对空气密度和温度的研究。

anemometric measurement

风速计测量

Anemometric measurements are commonly used in wind tunnel experiments.

风速计测量通常用于风洞实验。

反义词

calmness

平静

The calmness of the sea was a stark contrast to the stormy weather forecast.

海洋的平静与天气预报中的暴风雨形成了鲜明的对比。

stillness

静止

In the stillness of the night, one could hear the faintest sounds.

在夜晚的静止中,人们可以听到最微弱的声音。

例句

1.Laser Doppler Anemometry (LDA) is a non-contact optical method for measuring flow velocity.

激光多普勒测速技术(LDA),是一种流体速度的无接触式光学测量方法。

2.The light scattering characteristics of particles in phase Doppler sizing anemometry is calculated with a theoretical model based on geometrical optics approach.

应用几何光学近似理论模型计算了激光相位多普勒系统中微粒的光散射特性。

3.Laser phase Doppler anemometry (PDA) technology can be used to measure moving particle's velocity, size and relative refractive index simultaneously.

激光相位多普勒(PDA)能够同时测量粒子的速度、大小和相对折射率。

4.The in cylinder turbulence is measured under the condition of a motored engine by using a hot wire anemometry.

缸内紊流测量是用热线风速仪在倒拖发动机试验台上进行的。

5.Exterior flow field measurement above smooth and different riblet surfaces was carried out in a low speed wind tunnel by means of hot-wire anemometry.

利用热线风速仪,对光滑表面和多个脊状表面在低速风洞中进行了表面流场测试。

6.The light scattering characteristics of particles in phase Doppler sizing anemometry is calculated with a theoretical model based on geometrical optics approach.

应用几何光学近似理论模型计算了激光相位多普勒系统中微粒的光散射特性。

7.The flow field in the swirl chamber of a motored diesel engine was measured by Laser Doppler Anemometry (LDA).

本文报导了采用激光技术对柴油机涡流室内流场进行实测的结果。

8.This system focused on the anemometry at low velocity range.

该系统主要作用是针对低流速环境中的流速测定。

9.The engineers conducted anemometry tests to optimize the design of the wind turbine.

工程师们进行了风速测量测试,以优化风力发电机的设计。

10.The data collected from anemometry helped improve local weather forecasts.

风速测量收集的数据有助于改善当地天气预报。

11.Using anemometry, researchers studied the effects of wind on coastal erosion.

研究人员使用风速测量研究风对海岸侵蚀的影响。

12.The meteorologist used anemometry to measure the wind speed during the storm.

气象学家使用风速测量来测量暴风雨期间的风速。

13.In aviation, anemometry is crucial for ensuring safe flight operations.

在航空领域,风速测量对确保安全飞行操作至关重要。

作文

Anemometry is the science of measuring wind speed and direction. This field plays a crucial role in various applications, from meteorology to aviation, and even renewable energy. Understanding the principles of anemometry (风速测量) is essential for predicting weather patterns, optimizing flight paths, and harnessing wind energy effectively. In meteorology, accurate wind measurements are vital for forecasting weather conditions. Meteorologists rely on data collected through anemometry (风速测量) to analyze atmospheric phenomena. For instance, during storm events, knowing the wind speed can help predict the severity of the storm and its potential impact on the environment and communities. Weather stations equipped with anemometers provide real-time data that contributes to public safety and disaster preparedness. In aviation, anemometry (风速测量) is equally important. Pilots must understand wind conditions to ensure safe takeoffs and landings. Wind shear, which refers to sudden changes in wind speed or direction, can pose significant risks during flight. By utilizing anemometry (风速测量) tools, pilots can receive critical information about wind patterns around airports, allowing them to adjust their approach accordingly. Furthermore, air traffic control relies on wind data to manage flight schedules and maintain safe distances between aircraft. The renewable energy sector also benefits immensely from anemometry (风速测量). Wind turbines require precise measurements of wind speed and direction to operate efficiently. Engineers conduct extensive anemometry (风速测量) studies at potential wind farm sites to assess the viability of harnessing wind energy. By analyzing this data, they can determine the optimal placement of turbines to maximize energy production. Accurate wind measurements are fundamental in calculating the expected energy output and ensuring that investments in wind energy infrastructure are sound. Moreover, advancements in technology have significantly improved the methods used in anemometry (风速测量). Traditional mechanical anemometers have evolved into sophisticated digital devices that provide real-time data with high precision. Modern instruments, such as sonic anemometers, use ultrasonic sound waves to measure wind speed and direction without any moving parts. This innovation has increased the reliability and accuracy of wind measurements, making anemometry (风速测量) an indispensable tool in various fields. In conclusion, the importance of anemometry (风速测量) cannot be overstated. Its applications span across meteorology, aviation, and renewable energy, highlighting the need for accurate wind measurements in our daily lives. As technology continues to advance, the field of anemometry (风速测量) will likely see further improvements, enhancing our understanding of wind dynamics and contributing to safer and more efficient practices in various industries. Whether it’s predicting the weather, ensuring flight safety, or optimizing wind energy production, anemometry (风速测量) remains a vital component in our quest for knowledge and progress.