anemograph

简明释义

英[əˈneməɡrɑːf]美[əˈneməɡræf]

n. 自动记风仪；风力记录计

英英释义

单词用法

同义词

反义词

例句

1.The blade type anemograph is used to measure and simulate the turbulence speed.

使用叶片式风速仪测量模拟气缸内的涡流转速。

2.When the blade type anemograph is used to measure and simulate the turbulence speed, the effect involved possibly by the blade shape and installation position is tested.

在使用叶片式风速仪测量模拟气缸内的涡流转速时，分析叶片形状、安置位置可能带来的影响；

3.When the blade type anemograph is used to measure and simulate the turbulence speed, the effect involved possibly by the blade shape and installation position is tested.

在使用叶片式风速仪测量模拟气缸内的涡流转速时，分析叶片形状、安置位置可能带来的影响；

4.The meteorologist used an anemograph to measure wind speed during the storm.

气象学家使用风速计在暴风雨中测量风速。

5.In aviation, an anemograph is used to monitor wind conditions at airports.

在航空领域，风速计用于监测机场的风况。

6.The research team installed an anemograph on the mountain to study high-altitude winds.

研究小组在山上安装了一个风速计来研究高海拔风。

7.An anemograph is essential for understanding weather patterns in coastal regions.

在沿海地区，风速计对理解天气模式至关重要。

8.The data collected by the anemograph helped improve the accuracy of the weather forecast.

由风速计收集的数据帮助提高了天气预报的准确性。

作文

The study of weather and atmospheric conditions is a fascinating field that has evolved significantly over the centuries. One of the essential instruments used in meteorology is the anemograph, which is a device that measures wind speed and direction. Understanding how an anemograph works can provide insights into weather patterns and help us prepare for various climatic conditions.An anemograph typically consists of a rotating vane that aligns itself with the wind direction, along with a series of mechanical or electronic sensors that measure the wind's speed. The data collected by an anemograph are crucial for meteorologists as they analyze atmospheric conditions to predict weather changes. For instance, during storms, the wind speed can increase dramatically, and having accurate measurements from an anemograph allows forecasters to issue timely warnings to the public.In addition to its practical applications in weather forecasting, the anemograph also plays a significant role in scientific research. Researchers use the data gathered from these devices to study climate change and its effects on local ecosystems. By monitoring wind patterns over time, scientists can identify trends that may indicate shifts in climate, helping us understand the broader implications of our changing environment.Furthermore, the anemograph has applications beyond meteorology. For example, in aviation, accurate wind speed and direction measurements are vital for safe takeoffs and landings. Pilots rely on this information to adjust their flight paths accordingly, ensuring a smooth and safe journey. Similarly, in the field of renewable energy, particularly wind energy, anemographs are used to assess the viability of wind farms. By measuring wind patterns at potential sites, energy companies can determine the best locations for turbines, maximizing efficiency and production.Despite the technological advancements in meteorological instruments, the basic principle of the anemograph remains unchanged. The simplicity of its design allows it to be both effective and reliable. Modern anemographs often come equipped with digital displays and wireless connectivity, enabling real-time data transmission to meteorological stations and researchers worldwide.In conclusion, the anemograph is more than just a tool for measuring wind; it is a vital instrument that contributes to our understanding of weather, climate change, and various industries. As we continue to face challenges related to climate variability, the importance of accurate meteorological data cannot be overstated. The anemograph serves as a reminder of how far we have come in our quest to understand the atmosphere and the forces that shape our world. Through continued research and technological innovation, we can enhance our ability to predict weather patterns and mitigate the impacts of climate change, ensuring a safer and more sustainable future for all.

天气和大气条件的研究是一个迷人的领域，随着世纪的发展而显著演变。气象学中使用的基本仪器之一是风速计，它是一种测量风速和风向的设备。了解风速计的工作原理可以提供对天气模式的洞察，并帮助我们为各种气候条件做好准备。风速计通常由一个旋转的风向标组成，它与风的方向对齐，以及一系列机械或电子传感器，用于测量风速。气象学家分析大气条件以预测天气变化时，风速计收集的数据至关重要。例如，在暴风雨期间，风速可能会急剧增加，拥有来自风速计的准确测量使预报员能够及时向公众发出警告。除了在天气预报中的实际应用外，风速计在科学研究中也发挥着重要作用。研究人员利用这些设备收集的数据来研究气候变化及其对当地生态系统的影响。通过监测风模式的变化，科学家可以识别可能表明气候变化的趋势，帮助我们理解不断变化的环境的更广泛影响。此外，风速计在气象学之外也有应用。例如，在航空领域，准确的风速和风向测量对于安全起飞和着陆至关重要。飞行员依赖这些信息来相应调整他们的航线，确保顺利和安全的旅行。同样，在可再生能源领域，特别是风能方面，风速计用于评估风电场的可行性。通过在潜在地点测量风模式，能源公司可以确定最佳的涡轮机位置，以最大化效率和产量。尽管气象仪器的技术进步，风速计的基本原理仍然没有改变。其设计的简洁性使其既有效又可靠。现代的风速计通常配备数字显示屏和无线连接，能够实时将数据传输到气象站和全球的研究人员。总之，风速计不仅仅是测量风的工具；它是一个重要的仪器，为我们理解天气、气候变化和各个行业做出了贡献。随着我们继续面临与气候变化相关的挑战，准确的气象数据的重要性不容低估。风速计提醒我们在理解大气及塑造我们世界的力量的追求中取得了多大的进步。通过持续的研究和技术创新，我们可以增强预测天气模式的能力，并减轻气候变化的影响，为所有人确保一个更安全、更可持续的未来。