pressure contour

简明释义

等压线

英英释义

例句

1.Using computational fluid dynamics, we generated a detailed pressure contour 压力轮廓 map for the wind tunnel test.

通过计算流体动力学，我们为风洞测试生成了详细的压力轮廓 pressure contour图。

2.The design team used the pressure contour 压力轮廓 to determine the optimal placement of sensors.

设计团队使用压力轮廓 pressure contour来确定传感器的最佳放置位置。

3.The pressure contour 压力轮廓 indicates areas of high and low pressure around the turbine.

该压力轮廓 pressure contour指示了涡轮周围的高低压区域。

4.The engineer analyzed the pressure contour 压力轮廓 to optimize the design of the aircraft wing.

工程师分析了压力轮廓 pressure contour以优化飞机机翼的设计。

5.In meteorology, a pressure contour 压力轮廓 map helps predict weather patterns.

在气象学中，压力轮廓 pressure contour图有助于预测天气模式。

作文

Understanding the concept of pressure contour is essential for various fields, especially in meteorology and engineering. A pressure contour refers to a line on a map that connects points of equal atmospheric pressure. These contours are crucial for analyzing weather patterns and predicting changes in the environment. For instance, meteorologists use pressure contours to identify high and low-pressure systems, which can indicate areas of potential storms or clear weather. In meteorological maps, pressure contours are often represented in hPa (hectopascals), and they help visualize how pressure varies across different regions. When the pressure contour lines are close together, it indicates a steep pressure gradient, which can lead to strong winds. Conversely, when the lines are spaced out, it suggests a gentle pressure change, resulting in calmer weather conditions.The significance of pressure contours extends beyond weather forecasting. In engineering, particularly in fluid dynamics, understanding pressure distribution is vital for designing efficient systems. Engineers often analyze pressure contours to optimize the performance of various structures, like bridges and buildings, ensuring they can withstand different environmental pressures.To illustrate the importance of pressure contours, consider the case of hurricane forecasting. Meteorologists rely heavily on these contours to predict the path and intensity of hurricanes. By studying the pressure contours associated with a storm, they can determine where the storm is likely to strengthen or weaken. This information is crucial for issuing timely warnings to affected areas, potentially saving lives and minimizing damage.Furthermore, pressure contours are not limited to atmospheric studies. They are also used in oceanography, where ocean currents and temperature variations create pressure differences. Understanding these contours helps scientists study climate change and its effects on marine ecosystems. For example, shifts in pressure contours can affect fish migration patterns, impacting fisheries and local economies.In summary, the concept of pressure contour is fundamental in both meteorology and engineering. It provides valuable insights into weather patterns and helps engineers design safer structures. The ability to read and interpret pressure contours is a skill that professionals in these fields must develop to enhance their understanding of the natural world and improve human-made systems. As we continue to face challenges related to climate change and extreme weather events, the role of pressure contours will only become more critical in our efforts to adapt and respond effectively. Therefore, investing time in learning about pressure contours can yield significant benefits, not just for professionals but for anyone interested in understanding the forces that shape our environment.

理解压力轮廓的概念对于多个领域至关重要，尤其是在气象学和工程学中。压力轮廓是指在地图上连接等气压点的线。这些轮廓对于分析天气模式和预测环境变化至关重要。例如，气象学家使用压力轮廓来识别高压和低压系统，这可以指示潜在风暴或晴朗天气的区域。在气象图中，压力轮廓通常以hPa（百帕）表示，帮助可视化不同地区的压力变化。当压力轮廓线相距较近时，表明压力梯度陡峭，这可能导致强风。相反，当线条间隔较大时，则表明压力变化温和，导致天气条件较为平静。压力轮廓的重要性不仅限于天气预报。在工程学中，特别是在流体动力学中，理解压力分布对于设计高效系统至关重要。工程师经常分析压力轮廓以优化各种结构的性能，比如桥梁和建筑物，确保它们能够承受不同的环境压力。为了说明压力轮廓的重要性，可以考虑飓风预报的案例。气象学家在很大程度上依赖这些轮廓来预测飓风的路径和强度。通过研究与风暴相关的压力轮廓，他们可以确定风暴可能在哪里增强或减弱。这一信息对于向受影响地区发出及时警报至关重要，有可能拯救生命并减少损失。此外，压力轮廓并不限于大气研究。它们也用于海洋学，在那里，海洋洋流和温度变化产生压力差异。理解这些轮廓有助于科学家研究气候变化及其对海洋生态系统的影响。例如，压力轮廓的变化可能会影响鱼类迁徙模式，从而影响渔业和地方经济。总之，压力轮廓的概念在气象学和工程学中是基础。它提供了对天气模式的宝贵见解，并帮助工程师设计更安全的结构。阅读和解释压力轮廓的能力是这些领域专业人员必须培养的技能，以增强他们对自然世界的理解并改善人造系统。随着我们继续面临与气候变化和极端天气事件相关的挑战，压力轮廓的角色在我们适应和有效应对的努力中将变得更加关键。因此，投入时间学习压力轮廓的知识可以带来显著的好处，不仅对专业人士而言，对于任何对理解塑造我们环境的力量感兴趣的人来说也是如此。