airboune profile recorder

简明释义

1. 航空剖面记录仪; 2. 机载剖面记录仪;

英英释义

例句

1.The meteorologist used an airborne profile recorder to gather data on atmospheric conditions during the flight.

气象学家使用空中剖面记录仪在飞行期间收集大气条件的数据。

2.During the expedition, the team relied on the airborne profile recorder for accurate altitude readings.

在探险过程中，团队依靠空中剖面记录仪进行准确的高度测量。

3.The airborne profile recorder helped in tracking weather patterns over the ocean.

这个空中剖面记录仪帮助跟踪海洋上的天气模式。

4.The data collected by the airborne profile recorder was crucial for climate change research.

由空中剖面记录仪收集的数据对气候变化研究至关重要。

5.Researchers deployed an airborne profile recorder to study pollution levels in urban areas.

研究人员部署了一个空中剖面记录仪来研究城市地区的污染水平。

作文

In the realm of modern technology, the term airborne profile recorder refers to a sophisticated device used primarily in aviation and meteorology. This instrument is designed to capture and record various atmospheric data while flying at different altitudes. The significance of an airborne profile recorder lies in its ability to provide real-time information that can be crucial for both scientific research and practical applications. For instance, meteorologists utilize this data to understand weather patterns and predict climatic changes more accurately. Furthermore, aviation engineers rely on the insights gained from these recordings to enhance aircraft performance and safety.The functionality of an airborne profile recorder is quite remarkable. It typically comprises sensors that measure temperature, humidity, pressure, and wind speed. These sensors collect data as the aircraft ascends or descends, allowing researchers to create detailed profiles of the atmosphere at various heights. This information is invaluable for understanding how different layers of the atmosphere interact and affect weather systems. Moreover, the data gathered by an airborne profile recorder can also aid in the study of pollution dispersion, helping environmental scientists assess the impact of human activities on air quality.One of the key advantages of using an airborne profile recorder is its mobility. Unlike ground-based weather stations, which are limited to specific locations, an airborne device can cover vast areas in a relatively short amount of time. This capability makes it an essential tool for comprehensive atmospheric studies, especially in regions where ground access is challenging or impossible. Additionally, the ability to gather data from various altitudes allows for a more nuanced understanding of atmospheric phenomena, leading to better predictive models.However, operating an airborne profile recorder is not without its challenges. The data collected must be meticulously analyzed to ensure accuracy and reliability. Moreover, the cost of deploying such technology can be significant, which may limit its use in certain research projects. Despite these challenges, advancements in technology continue to improve the efficiency and effectiveness of these devices, making them more accessible for various applications.In conclusion, the airborne profile recorder represents a vital tool in the fields of meteorology and aviation. Its ability to capture atmospheric data during flight provides researchers with invaluable insights into weather patterns and climate dynamics. As technology continues to evolve, the role of the airborne profile recorder will undoubtedly expand, paving the way for enhanced understanding and management of our planet's atmosphere. This device not only exemplifies the intersection of technology and science but also highlights the importance of innovation in addressing the challenges posed by climate change and environmental degradation.

在现代科技领域，术语空中剖面记录仪指的是一种主要用于航空和气象学的复杂设备。该仪器旨在飞行时捕捉和记录各种大气数据，能够在不同高度进行测量。空中剖面记录仪的重要性在于它能够提供实时信息，这对于科学研究和实际应用至关重要。例如，气象学家利用这些数据更准确地理解天气模式和预测气候变化。此外，航空工程师依赖这些记录所获得的见解来增强飞机的性能和安全性。空中剖面记录仪的功能相当显著。它通常由传感器组成，用于测量温度、湿度、压力和风速。这些传感器在飞机升降时收集数据，使研究人员能够创建不同高度大气的详细剖面。这些信息对于理解大气不同层次如何相互作用并影响天气系统是极其宝贵的。此外，空中剖面记录仪收集的数据也有助于研究污染扩散，帮助环境科学家评估人类活动对空气质量的影响。使用空中剖面记录仪的一个主要优势是其机动性。与仅限于特定地点的地面气象站不同，空中设备可以在相对较短的时间内覆盖广阔的区域。这种能力使其成为全面大气研究的必要工具，尤其是在地面访问困难或不可能的地区。此外，从不同高度收集数据的能力使我们能够更深入地理解大气现象，从而导致更好的预测模型。然而，操作空中剖面记录仪并非没有挑战。收集的数据必须经过仔细分析以确保准确性和可靠性。此外，部署此类技术的成本可能很高，这可能限制其在某些研究项目中的使用。尽管面临这些挑战，技术的进步仍在不断提高这些设备的效率和有效性，使其在各类应用中变得更加可及。总之，空中剖面记录仪代表了气象学和航空领域的重要工具。它在飞行中捕获大气数据的能力为研究人员提供了对天气模式和气候动态的宝贵见解。随着技术的不断发展，空中剖面记录仪的角色无疑将扩大，为更好地理解和管理我们星球的大气铺平道路。该设备不仅体现了技术与科学的交汇点，还突显了在应对气候变化和环境退化挑战中创新的重要性。