airborne radioactive survey

简明释义

航空放射性测量;

英英释义

例句

1.An airborne radioactive survey can provide rapid data collection over large areas.

一项空中放射性调查可以在大范围内快速收集数据。

2.Scientists used an airborne radioactive survey to identify hotspots of radiation in the area.

科学家们使用空中放射性调查来识别该地区的辐射热点。

3.After the nuclear accident, an airborne radioactive survey was essential for understanding the spread of radiation.

在核事故后，进行空中放射性调查对了解辐射扩散至关重要。

4.The government conducted an airborne radioactive survey to assess the contamination levels in the region.

政府进行了空中放射性调查以评估该地区的污染水平。

5.The results from the airborne radioactive survey helped in the cleanup efforts after the disaster.

来自空中放射性调查的结果帮助了灾后清理工作。

作文

In recent years, the need for efficient and accurate methods to assess natural resources and environmental safety has become increasingly important. One of the most effective techniques employed in this regard is the airborne radioactive survey. This method involves the use of aircraft equipped with specialized instruments to detect and measure radiation levels from the ground below. By utilizing this technology, researchers can gather data over large areas quickly and efficiently, making it a vital tool in various fields such as geology, mining, and environmental monitoring.The primary purpose of an airborne radioactive survey is to identify and map the distribution of radioactive materials in the environment. This can be particularly crucial in areas where there is a potential risk of contamination due to mining activities, nuclear power plants, or natural occurrences like radon emissions. The ability to detect these materials from the air allows for a comprehensive overview of the landscape, which can then be used to inform further investigations or remediation efforts.One of the key advantages of using an airborne radioactive survey is its efficiency. Traditional ground-based surveys can be time-consuming and labor-intensive, often requiring teams of workers to traverse difficult terrain. In contrast, an airborne survey can cover vast areas in a fraction of the time, allowing for quicker assessments and more timely decision-making. This is particularly beneficial in emergency situations, such as after a nuclear accident, where rapid data collection is essential for ensuring public safety.Moreover, the data obtained from an airborne radioactive survey can be highly detailed and accurate. Modern aircraft are equipped with advanced sensors that can detect even low levels of radiation, providing a clear picture of the radioactive landscape. This precision is crucial for understanding the extent of contamination and for developing effective strategies to mitigate its impact on human health and the environment.Another important aspect of airborne radioactive surveys is their role in resource exploration. For instance, geologists often use this technology to locate uranium deposits, which are essential for nuclear energy production. By identifying areas with high radiation levels, companies can target their exploration efforts more effectively, saving both time and money.However, it is essential to recognize that while airborne radioactive surveys offer numerous benefits, they also come with challenges. For example, interpreting the data requires a thorough understanding of the geological and environmental context. False positives can occur, leading to unnecessary alarm or misallocation of resources. Therefore, it is crucial for experts to analyze the results carefully and corroborate them with ground-based investigations when necessary.In conclusion, the airborne radioactive survey is a powerful tool that has transformed the way we assess and manage radioactive materials in our environment. Its efficiency, accuracy, and ability to cover large areas make it indispensable in various fields, from environmental monitoring to resource exploration. As technology continues to advance, we can expect even greater improvements in the effectiveness of these surveys, ultimately contributing to safer and more sustainable management of our natural resources. Understanding the implications and applications of airborne radioactive surveys is essential for professionals working in related fields, as well as for policymakers who must make informed decisions regarding public health and safety.

近年来，评估自然资源和环境安全的高效准确的方法需求日益增加。其中一种有效的技术是航空放射性调查。这种方法涉及使用配备专用仪器的飞机来检测和测量地面以下的辐射水平。通过利用这一技术，研究人员可以快速高效地收集大面积的数据，使其成为地质学、采矿和环境监测等多个领域的重要工具。航空放射性调查的主要目的是识别和绘制环境中放射性材料的分布图。这在存在由于采矿活动、核电站或自然现象（如氡排放）而可能造成污染风险的地区尤为重要。从空中检测这些材料的能力使得对景观进行全面概述成为可能，这可以用于告知后续调查或修复工作。使用航空放射性调查的一个关键优势是其效率。传统的基于地面的调查可能耗时且劳动密集，通常需要一组工作人员穿越困难的地形。相比之下，航空调查可以在极短的时间内覆盖广阔的区域，从而允许更快的评估和更及时的决策。这在紧急情况下尤其有利，例如在核事故后，快速数据收集对于确保公众安全至关重要。此外，从航空放射性调查获得的数据可以非常详细和准确。现代飞机配备了先进的传感器，可以检测到低水平的辐射，提供放射性景观的清晰图像。这种精确性对于理解污染的范围以及制定有效的策略以减轻其对人类健康和环境的影响至关重要。航空放射性调查的另一个重要方面是其在资源勘探中的作用。例如，地质学家经常使用这项技术来定位铀矿床，这对于核能生产至关重要。通过识别辐射水平较高的区域，公司可以更有效地针对其勘探工作，从而节省时间和金钱。然而，必须认识到，尽管航空放射性调查提供了众多好处，但也面临挑战。例如，解释数据需要对地质和环境背景有透彻的了解。可能会出现误报，导致不必要的警报或资源的错误分配。因此，专家必须仔细分析结果，并在必要时与基于地面的调查进行核实。总之，航空放射性调查是一种强大的工具，改变了我们评估和管理环境中放射性材料的方式。其效率、准确性和覆盖大面积的能力使其在从环境监测到资源勘探等多个领域不可或缺。随着技术的不断进步，我们可以期待这些调查的有效性进一步提高，最终有助于更安全、更可持续的自然资源管理。理解航空放射性调查的含义和应用对于在相关领域工作的专业人士以及必须就公共健康和安全做出明智决策的政策制定者来说都是至关重要的。