thermal image
简明释义
热象
英英释义
A thermal image is a visual representation of the distribution of temperature across a surface or area, created using infrared radiation detection. | 热成像是通过红外辐射检测创建的表面或区域温度分布的可视化表示。 |
例句
1.In medical diagnostics, thermal images can help identify areas of inflammation in the body.
在医学诊断中,热成像可以帮助识别身体内的炎症区域。
2.A thermal image can reveal heat loss in a home, helping homeowners improve energy efficiency.
一幅热成像可以揭示家庭中的热量损失,帮助房主提高能效。
3.Wildlife researchers often rely on thermal images to study nocturnal animals without disturbing them.
野生动物研究人员经常依赖热成像来研究夜行性动物,而不打扰它们。
4.The firefighter used a thermal image to locate people trapped in the burning building.
消防员使用热成像来定位被困在燃烧建筑中的人。
5.The security team monitored the area using thermal images to detect any unauthorized intrusions at night.
安全团队使用热成像监控该地区,以检测夜间任何未经授权的入侵。
作文
In recent years, the use of technology in various fields has become increasingly prevalent. One such technological advancement that has garnered attention is the use of thermal image (热成像). This innovative technique allows us to visualize heat patterns emitted by objects, providing valuable insights across multiple industries, including building inspection, medical diagnostics, and even wildlife conservation.The concept of thermal image (热成像) relies on infrared radiation, which is emitted by all objects based on their temperature. By capturing this radiation with specialized cameras, we can create a visual representation of the heat emitted from surfaces. This process not only aids in identifying temperature variations but also helps in diagnosing issues that may not be visible to the naked eye.In the construction industry, thermal image (热成像) technology is essential for identifying heat loss in buildings. Insufficient insulation, air leaks, and moisture intrusion can lead to significant energy losses and increased utility bills. By utilizing thermal image (热成像) assessments, contractors can pinpoint problem areas and implement effective solutions, ultimately leading to more energy-efficient structures. This method is not only cost-effective but also promotes sustainability by reducing energy consumption.Moreover, in the medical field, thermal image (热成像) plays a crucial role in diagnostics. Medical professionals can use this technology to detect abnormalities in body temperature, which may indicate underlying health issues. For instance, inflammation or poor circulation can often be identified through thermal image (热成像), allowing for early intervention and treatment. This non-invasive technique is a valuable tool in modern medicine, providing insights that traditional methods may overlook.Wildlife conservationists have also embraced thermal image (热成像) technology to monitor animal populations and their habitats. By using thermal image (热成像) cameras, researchers can track nocturnal animals without disturbing their natural behaviors. This capability is particularly beneficial for studying endangered species, as it allows scientists to gather data on their habits and movements while minimizing human impact. Furthermore, thermal image (热成像) can assist in detecting poaching activities, as it can reveal the presence of warm bodies in protected areas during the night.Despite its numerous advantages, the use of thermal image (热成像) technology is not without challenges. The interpretation of thermal image (热成像) data requires expertise, as various factors such as environmental conditions and surface materials can influence the readings. Additionally, the initial investment in thermal image (热成像) equipment can be substantial, which may deter some organizations from adopting this technology.In conclusion, the application of thermal image (热成像) technology is transforming various industries by providing critical insights into heat patterns and temperature variations. Its significance in building inspections, medical diagnostics, and wildlife conservation highlights its versatility and importance in today’s world. As technology continues to advance, the potential for thermal image (热成像) applications will undoubtedly expand, leading to improved efficiency, sustainability, and understanding of our environment. Embracing such innovations is essential for progress in addressing the challenges we face in various sectors.
近年来,各个领域中技术的使用变得越来越普遍。其中一个引起关注的技术进步是使用热成像(thermal image)。这种创新技术使我们能够可视化物体发出的热模式,为建筑检查、医学诊断甚至野生动物保护等多个行业提供了宝贵的见解。热成像(thermal image)的概念依赖于红外辐射,所有物体根据其温度都会发出这种辐射。通过使用专门的相机捕捉这种辐射,我们可以创建物体发出的热量的可视化表示。这一过程不仅有助于识别温度变化,还可以帮助诊断那些肉眼无法看到的问题。在建筑行业中,热成像(thermal image)技术对于识别建筑物的热损失至关重要。不足的绝缘、空气泄漏和潮湿入侵可能导致显著的能源损失和增加的公用事业费用。通过利用热成像(thermal image)评估,承包商可以找出问题区域并实施有效的解决方案,最终导致更节能的建筑。这种方法不仅具有成本效益,而且通过减少能源消耗促进可持续性。此外,在医学领域,热成像(thermal image)在诊断中发挥着关键作用。医疗专业人员可以使用这项技术检测体温异常,这可能表明潜在的健康问题。例如,炎症或血液循环不良通常可以通过热成像(thermal image)来识别,从而允许早期干预和治疗。这种非侵入性技术是现代医学中的一项宝贵工具,提供了传统方法可能忽视的见解。野生动物保护者也采用了热成像(thermal image)技术来监测动物种群及其栖息地。通过使用热成像(thermal image)相机,研究人员可以在不干扰动物自然行为的情况下跟踪夜行性动物。这种能力对于研究濒危物种尤其有益,因为它允许科学家在最小化人类影响的同时收集有关其习性和运动的数据。此外,热成像(thermal image)可以帮助检测偷猎活动,因为它可以揭示在夜间保护区内的温暖身体的存在。尽管有许多优点,但使用热成像(thermal image)技术也面临挑战。对热成像(thermal image)数据的解释需要专业知识,因为环境条件和表面材料等各种因素可能会影响读数。此外,初始投资热成像(thermal image)设备可能相当可观,这可能会阻止一些组织采用这项技术。总之,热成像(thermal image)技术的应用正在通过提供对热模式和温度变化的关键见解来改变各个行业。它在建筑检查、医学诊断和野生动物保护中的重要性突显了它在当今世界的多功能性和重要性。随着技术的不断进步,热成像(thermal image)应用的潜力无疑将扩大,从而提高效率、可持续性以及对我们环境的理解。接受这样的创新对于解决我们在各个领域面临的挑战至关重要。
相关单词
