eddy wind

简明释义

小旋风

英英释义

例句

1.As the hot air balloon ascended, it encountered an eddy wind 涡流风 that caused it to drift sideways.

当热气球升空时，它遇到了一个涡流风涡流风，导致它横向漂移。

2.During the storm, we noticed an eddy wind 涡流风 forming that made it difficult to maintain our course.

暴风雨中，我们注意到形成了一个涡流风涡流风，这使得我们很难保持航向。

3.Sailing through an eddy wind 涡流风 can be tricky; you need to adjust your sails accordingly.

在涡流风涡流风中航行可能很棘手；你需要相应地调整帆。

4.The boat struggled against the strong currents and the unpredictable eddy wind 涡流风 in the river.

小船在河中与强大的水流和不可预测的涡流风涡流风作斗争。

5.The eddy wind 涡流风 created by the mountains can be both a challenge and an advantage for paragliders.

山脉产生的涡流风涡流风对于滑翔伞运动员来说既是挑战也是优势。

作文

The phenomenon of wind is a common occurrence in our daily lives, yet its complexities are often overlooked. One fascinating aspect of wind behavior is the presence of an eddy wind, which refers to a small whirl or circular motion of air that deviates from the main flow. Understanding eddy wind can provide insights into various environmental and meteorological phenomena. In this essay, I will explore the characteristics, causes, and implications of eddy wind in both natural and urban settings.Firstly, eddy wind is formed when air encounters an obstacle, such as a building, tree, or mountain. As the wind flows around these structures, it creates a disturbance in the airflow, leading to the formation of swirling patterns. This is particularly evident in urban areas where tall buildings disrupt the smooth flow of wind. The resulting eddy wind can create unpredictable gusts and changes in temperature, affecting local weather conditions.In nature, eddy wind plays a crucial role in various ecological processes. For instance, in forests, eddy wind can help disperse seeds and pollen, facilitating plant reproduction. Additionally, it aids in the mixing of air layers, which is essential for maintaining the health of ecosystems. By understanding how eddy wind operates, scientists can better predict weather patterns and their impact on different habitats.Moreover, eddy wind has significant implications for aviation and meteorology. Pilots must be aware of eddy wind when landing or taking off, as these swirling winds can cause sudden changes in altitude and speed. Meteorologists study eddy wind patterns to improve weather forecasting models, allowing for more accurate predictions of storms and other severe weather events.In addition to its natural occurrences, eddy wind can also be observed in artificial environments. Wind tunnels, used for testing aircraft and other vehicles, intentionally create eddy wind to simulate real-world conditions. Engineers analyze these patterns to enhance the design and performance of various products, ensuring safety and efficiency.Furthermore, the effects of eddy wind can be felt in our everyday lives. For example, while walking down a busy street, one might notice sudden gusts of wind that seem to appear out of nowhere. These are often caused by eddy wind created by the surrounding buildings and structures. Understanding this phenomenon can help individuals anticipate changes in weather and dress appropriately for the conditions.In conclusion, eddy wind is a remarkable aspect of wind behavior that influences both natural and human-made environments. Its formation, characteristics, and implications are essential for understanding weather patterns, ecological processes, and engineering applications. By gaining a deeper appreciation of eddy wind, we can better navigate our surroundings and respond to the ever-changing dynamics of the atmosphere. As we continue to study and learn about the complexities of wind, we unlock new possibilities for innovation and adaptation in an increasingly variable world.

风的现象在我们的日常生活中是常见的，但它的复杂性常常被忽视。风行为的一个迷人方面是存在着涡流风，它指的是一种小型的气流漩涡或循环运动，偏离了主要的气流。理解涡流风可以为各种环境和气象现象提供见解。在这篇文章中，我将探讨涡流风在自然和城市环境中的特征、成因和影响。首先，涡流风是在空气遇到障碍物时形成的，例如建筑物、树木或山脉。当风流绕过这些结构时，会在气流中造成干扰，从而形成旋转模式。这在城市地区尤为明显，因为高楼大厦会破坏风的平稳流动。由此产生的涡流风会造成不可预测的阵风和温度变化，影响当地的天气条件。在自然界中，涡流风在各种生态过程中发挥着重要作用。例如，在森林中，涡流风可以帮助传播种子和花粉，促进植物繁殖。此外，它有助于空气层的混合，这对于维持生态系统的健康至关重要。通过理解涡流风的运作方式，科学家们可以更好地预测天气模式及其对不同栖息地的影响。此外，涡流风对航空和气象也有重要影响。飞行员在降落或起飞时必须注意涡流风，因为这些旋转的风可能会导致高度和速度的突然变化。气象学家研究涡流风模式，以改善天气预报模型，从而允许更准确地预测风暴和其他严重天气事件。除了自然发生的情况，涡流风在人工环境中也可以观察到。风洞用于测试飞机和其他车辆，故意创造涡流风以模拟现实世界的条件。工程师分析这些模式，以增强各种产品的设计和性能，确保安全和效率。此外，涡流风的影响可以在我们的日常生活中感受到。例如，当走在繁忙的街道上时，人们可能会注意到似乎凭空出现的突如其来的阵风。这些通常是由周围建筑物和结构产生的涡流风造成的。理解这一现象可以帮助人们预测天气变化，并适当穿着以应对条件。总之，涡流风是风行为的一个显著方面，影响着自然和人造环境。它的形成、特征和影响对于理解天气模式、生态过程和工程应用至关重要。通过更深入地欣赏涡流风，我们可以更好地驾驭周围环境，并应对大气变化的动态。随着我们继续研究和学习风的复杂性，我们为在一个日益变化的世界中创新和适应打开了新的可能性。