height variation factor of wind pressure

简明释义

风压高度变化系数

英英释义

例句

1.The research focused on the height variation factor of wind pressure 风压高度变化系数 in relation to climate change effects.

研究集中在气候变化影响下的风压高度变化系数 height variation factor of wind pressure。

2.In designing tall structures, the height variation factor of wind pressure 风压高度变化系数 is crucial for safety assessments.

在设计高层建筑时，风压高度变化系数 height variation factor of wind pressure 对安全评估至关重要。

3.The engineer calculated the height variation factor of wind pressure 风压高度变化系数 to ensure the building could withstand strong winds.

工程师计算了风压高度变化系数 height variation factor of wind pressure，以确保建筑能够承受强风。

4.The height variation factor of wind pressure 风压高度变化系数 was a key parameter in the wind tunnel tests conducted for the skyscraper.

在对摩天大楼进行的风洞测试中，风压高度变化系数 height variation factor of wind pressure 是一个关键参数。

5.Understanding the height variation factor of wind pressure 风压高度变化系数 helps architects design more resilient buildings.

理解风压高度变化系数 height variation factor of wind pressure 有助于建筑师设计更具抗风能力的建筑。

作文

Understanding the impact of wind pressure on structures is crucial for ensuring their safety and longevity. One of the key concepts in this area is the height variation factor of wind pressure, which refers to how wind pressure changes with elevation. This factor is particularly important in architectural design and engineering, as buildings and other structures must be able to withstand varying wind forces at different heights. When considering the height variation factor of wind pressure, it is essential to recognize that wind velocity increases with altitude due to reduced friction from the ground. As a result, the pressure exerted by the wind on a structure also varies with height. For instance, a tall skyscraper will experience significantly different wind pressures at its base compared to its uppermost floors. Engineers must account for this variation when designing the building's framework, materials, and overall stability. The height variation factor of wind pressure can be quantified using various models and equations that take into account local wind patterns, geographical features, and the height of the structure itself. By understanding these factors, engineers can predict how much force the wind will exert on different parts of the building, allowing them to reinforce areas that may be more vulnerable to wind damage. Moreover, the height variation factor of wind pressure plays a significant role in the construction of bridges, towers, and other tall structures. For example, the design of a bridge must consider the wind forces acting on it at various heights above the water. Failure to adequately address these factors can lead to catastrophic structural failures, as seen in historical incidents where bridges collapsed under high winds. In addition to structural integrity, the height variation factor of wind pressure also influences the comfort and safety of occupants within a building. High winds can create uncomfortable living conditions, particularly in high-rise apartments or offices. Therefore, architects must not only focus on the aesthetic aspects of design but also incorporate strategies to mitigate the effects of wind pressure on the building's inhabitants. In conclusion, the height variation factor of wind pressure is a vital consideration in the fields of architecture and engineering. By understanding how wind pressure changes with height, professionals can design safer, more resilient structures that stand the test of time. This knowledge not only protects the physical integrity of buildings but also ensures the safety and comfort of those who occupy them. As our cities continue to grow taller and more complex, the importance of factoring in the height variation factor of wind pressure will only increase, making it an essential element of modern engineering practices.

理解风压对结构的影响对于确保其安全性和耐久性至关重要。一个关键概念是风压高度变化因子，它指的是风压随高度变化的情况。这个因素在建筑设计和工程中尤为重要，因为建筑物和其他结构必须能够承受不同高度下的风力变化。 考虑到风压高度变化因子时，有必要认识到，由于地面摩擦减少，风速随着高度的增加而增加。因此，风对结构施加的压力也会随着高度变化。例如，一座高耸的摩天大楼在其基础与最高楼层所经历的风压将有显著不同。工程师必须在设计建筑的框架、材料和整体稳定性时考虑到这种变化。 风压高度变化因子可以通过各种模型和方程进行量化，这些模型和方程考虑了当地的风模式、地理特征以及结构本身的高度。通过理解这些因素，工程师可以预测风对建筑不同部分施加的力量，从而加强可能更易受到风损害的区域。 此外，风压高度变化因子在桥梁、塔楼和其他高大结构的建造中也起着重要作用。例如，桥梁的设计必须考虑到在水面上方不同高度的风力。未能充分解决这些因素可能导致灾难性的结构失败，正如历史上发生的一些事件，桥梁在强风中倒塌。 除了结构完整性，风压高度变化因子还影响建筑内居住者的舒适性和安全性。强风可能会造成不舒适的生活条件，特别是在高层公寓或办公楼中。因此，建筑师不仅必须关注设计的美学方面，还必须采用策略来减轻风压对建筑居民的影响。 总之，风压高度变化因子是建筑和工程领域的重要考虑因素。通过理解风压如何随着高度变化，专业人士可以设计出更安全、更具韧性的结构，经得起时间的考验。这一知识不仅保护了建筑物的物理完整性，还确保了居住者的安全和舒适。随着我们的城市不断变得更高、更复杂，考虑到风压高度变化因子的重要性只会增加，使其成为现代工程实践中的一个基本要素。