window scattering

简明释义

窗散射

英英释义

例句

1.The researchers found that the light intensity was affected by window scattering 窗户散射 when measuring solar gain.

研究人员发现，在测量太阳能增益时，光强度受到窗户散射 窗户散射的影响。

2.Architects must consider window scattering 窗户散射 when selecting glass materials for their projects.

建筑师在选择项目的玻璃材料时必须考虑窗户散射 窗户散射。

3.To improve energy efficiency, we need to minimize window scattering 窗户散射 in our building designs.

为了提高能源效率，我们需要在建筑设计中尽量减少窗户散射 窗户散射。

4.During the experiment, the team observed significant window scattering 窗户散射 effects on the laser beams.

在实验过程中，团队观察到激光束上有显著的窗户散射 窗户散射效应。

5.The window scattering 窗户散射 phenomenon can lead to unexpected glare in office spaces.

窗户散射 窗户散射现象可能导致办公室空间出现意想不到的眩光。

作文

In the field of optics, the term window scattering refers to the phenomenon where light is scattered when it passes through a transparent medium, such as glass. This effect is particularly significant in windows, which are designed to allow light into buildings while also providing insulation and protection from the elements. Understanding window scattering is essential for architects and engineers as they design structures that require natural light without compromising on energy efficiency.When sunlight enters through a window, it interacts with the molecules in the glass. Some of the light is transmitted directly, while other wavelengths are scattered in different directions due to the irregularities in the glass surface and its composition. This scattering can lead to a reduction in the intensity of light that penetrates the interior of a building, which can affect the overall lighting conditions.Moreover, window scattering is not only a concern for natural light but also for artificial lighting. The way light scatters through windows can create unwanted glare or shadows, which can impact the comfort and productivity of occupants. For instance, in office environments, excessive glare can lead to eye strain and discomfort, making it crucial for designers to consider this aspect when selecting window materials and placements.In addition, window scattering plays a role in the aesthetic qualities of a space. The diffusion of light can soften the harshness of direct sunlight, creating a more pleasant atmosphere indoors. This is particularly important in residential settings where homeowners seek to create a warm and inviting environment. By understanding how window scattering works, designers can strategically position windows to maximize natural light while minimizing negative effects.Another important factor related to window scattering is energy efficiency. Modern building codes often require windows to meet specific standards for thermal performance. However, the scattering of light can also influence heating and cooling loads in a building. For example, windows that scatter light effectively can help reduce the reliance on artificial lighting, thereby lowering energy consumption. On the other hand, poorly designed windows that do not account for scattering may lead to increased energy costs.In conclusion, window scattering is a crucial concept in the design and construction of buildings. It affects not only the amount of natural light that enters a space but also the comfort, aesthetics, and energy efficiency of the environment. By taking into consideration the principles of window scattering, architects and engineers can create spaces that are not only functional but also enhance the quality of life for their occupants. As we continue to innovate in building materials and design techniques, a deeper understanding of window scattering will be essential for creating sustainable and livable spaces in the future.

在光学领域，术语window scattering指的是光线通过透明介质（如玻璃）时发生的散射现象。这种效应在窗户中尤为显著，窗户旨在让光线进入建筑物，同时提供绝缘和保护免受天气影响。理解window scattering对建筑师和工程师至关重要，因为他们在设计需要自然光而不妨碍能源效率的结构时，需要考虑这一现象。当阳光透过窗户进入时，它与玻璃中的分子相互作用。一部分光线被直接传输，而其他波长则因玻璃表面和成分的不规则性而向不同方向散射。这种散射可能导致穿透建筑内部的光强度降低，从而影响整体照明条件。此外，window scattering不仅是自然光的一个问题，也影响人造照明。光线通过窗户的散射可能会产生不必要的眩光或阴影，这会影响居住者的舒适度和生产力。例如，在办公室环境中，过度的眩光可能导致眼睛疲劳和不适，因此设计师在选择窗户材料和位置时必须考虑这一因素。另外，window scattering还影响空间的美学特质。光的扩散可以软化直射阳光的刺眼感，创造出更宜人的室内氛围。这在住宅环境中特别重要，房主希望营造温暖和舒适的环境。通过理解window scattering的工作原理，设计师可以战略性地布置窗户，以最大限度地利用自然光，同时减少负面影响。与window scattering相关的另一个重要因素是能源效率。现代建筑规范通常要求窗户满足特定的热性能标准。然而，光的散射也会影响建筑的供暖和制冷负荷。例如，有效散射光线的窗户可以帮助减少对人造照明的依赖，从而降低能源消耗。另一方面，设计不佳的窗户如果未考虑散射，可能会导致能源成本上升。总之，window scattering是建筑设计和施工中的一个关键概念。它不仅影响自然光进入空间的数量，还影响环境的舒适度、美学和能源效率。通过考虑window scattering的原理，建筑师和工程师可以创造出既功能性又提升居住者生活质量的空间。随着我们在建筑材料和设计技术方面的不断创新，深入理解window scattering将对未来创造可持续和宜居的空间至关重要。