airborne thermal survey

简明释义

航空热辐射测量;

英英释义

例句

1.The airborne thermal survey revealed areas of excessive heat in the power lines.

这次空中热成像调查揭示了电力线过热的区域。

2.The team conducted an airborne thermal survey to identify heat loss in the building's insulation.

团队进行了空中热成像调查以识别建筑物绝缘材料的热损失。

3.Using an airborne thermal survey, we were able to locate potential water leaks in the pipeline.

通过使用空中热成像调查，我们能够定位管道中的潜在水泄漏。

4.After the airborne thermal survey, the engineers proposed solutions to improve energy efficiency.

在空中热成像调查之后，工程师提出了提高能源效率的解决方案。

5.An airborne thermal survey can help in assessing the thermal performance of solar panels.

一项空中热成像调查可以帮助评估太阳能电池板的热性能。

作文

In recent years, the advancement of technology has allowed for more efficient and effective methods of surveying various landscapes and environments. One such method that has gained significant attention is the airborne thermal survey. This technique involves the use of aircraft equipped with thermal imaging sensors to capture data about the Earth's surface temperature. The airborne thermal survey provides valuable insights into a wide range of applications, including environmental monitoring, urban planning, and even disaster management.The primary advantage of an airborne thermal survey is its ability to cover large areas quickly and efficiently. Traditional ground-based surveys can be time-consuming and labor-intensive, often requiring teams of workers to manually collect data. In contrast, an airborne thermal survey can be conducted from the air, allowing researchers to gather comprehensive data in a fraction of the time. This efficiency is particularly beneficial in remote or difficult-to-access areas where ground surveys may be impractical.One of the most important applications of airborne thermal survey technology is in environmental monitoring. By analyzing thermal images, scientists can identify heat patterns that indicate changes in land use, vegetation health, and water bodies. For example, during a drought, an airborne thermal survey can help detect areas of stress in crops by highlighting temperature variations. This information is crucial for farmers and agricultural planners to make informed decisions about irrigation and crop management.Furthermore, airborne thermal surveys are increasingly used in urban planning. City planners can utilize thermal data to assess heat islands—areas that experience significantly higher temperatures than their surroundings due to human activities and infrastructure. By identifying these hotspots, planners can develop strategies to mitigate heat effects, such as increasing green spaces or implementing reflective materials in construction.Disaster management is another critical area where airborne thermal surveys prove invaluable. During wildfires, for instance, thermal imaging can be employed to map the extent of the fire and identify hotspots that may reignite. This real-time data allows emergency responders to allocate resources more effectively and prioritize areas for evacuation or containment efforts. Similarly, in flood situations, thermal surveys can help assess the impact on infrastructure and identify vulnerable areas that require immediate attention.Despite its numerous advantages, there are challenges associated with conducting airborne thermal surveys. Weather conditions can significantly affect the quality of thermal images. For instance, cloud cover and rain can obscure the thermal signals, leading to inaccurate data collection. Additionally, the cost of equipping aircraft with advanced thermal sensors can be prohibitive for some organizations.In conclusion, the airborne thermal survey represents a revolutionary approach to data collection and analysis across various fields. Its ability to provide rapid, comprehensive insights makes it an essential tool for environmental monitoring, urban planning, and disaster response. As technology continues to evolve, we can expect the applications of airborne thermal surveys to expand, offering even more innovative solutions to pressing global challenges. Understanding and utilizing this technology effectively will be crucial for future advancements in research and practical applications.

近年来，技术的进步使得对各种景观和环境进行更高效、更有效的勘测成为可能。其中一种备受关注的方法是空中热成像调查。该技术涉及使用配备热成像传感器的飞机来捕获地球表面温度的数据。空中热成像调查为环境监测、城市规划甚至灾难管理等广泛应用提供了宝贵的见解。空中热成像调查的主要优势在于其快速高效地覆盖大面积区域的能力。传统的基于地面的调查可能耗时且劳动密集，通常需要团队人员手动收集数据。相比之下，空中热成像调查可以从空中进行，使研究人员能够在极短的时间内收集全面的数据。这种效率在偏远或难以到达的地区尤其有利，因为在这些地方，地面调查可能不切实际。空中热成像调查技术的一个重要应用是环境监测。通过分析热成像图像，科学家可以识别出表明土地利用、植被健康和水体变化的热模式。例如，在干旱期间，空中热成像调查可以帮助检测作物中的压力区域，通过突显温度变化。这些信息对于农民和农业规划者做出有关灌溉和作物管理的明智决策至关重要。此外，空中热成像调查在城市规划中也越来越多地被使用。城市规划者可以利用热数据评估热岛——由于人类活动和基础设施而经历显著高于周围地区的温度的区域。通过识别这些热点，规划者可以制定减轻热影响的策略，例如增加绿地或在建筑中实施反射材料。灾难管理是空中热成像调查另一个关键领域，其价值不可估量。例如，在野火期间，可以利用热成像绘制火灾范围并识别可能重新点燃的热点。这种实时数据使应急响应人员能够更有效地分配资源，并优先考虑撤离或遏制工作的区域。类似地，在洪水情况下，热成像调查可以帮助评估对基础设施的影响，并识别需要立即关注的脆弱区域。尽管有众多优势，但进行空中热成像调查面临一些挑战。天气条件会显著影响热成像图像的质量。例如，云层和降雨可能会遮蔽热信号，导致数据收集不准确。此外，为飞机配备先进的热传感器的成本对于一些组织来说可能是负担。总之，空中热成像调查代表了一种革命性的数据收集和分析方法，适用于各个领域。其提供快速、全面见解的能力使其成为环境监测、城市规划和灾难响应的重要工具。随着技术的不断发展，我们可以期待空中热成像调查的应用不断扩展，为解决紧迫的全球挑战提供更多创新解决方案。有效理解和利用这一技术将对未来研究和实际应用的进步至关重要。