wind deflection

简明释义

风致偏转

英英释义

例句

1.Understanding wind deflection is crucial for designing safe outdoor structures.

理解风偏转对设计安全的户外结构至关重要。

2.The engineers calculated the wind deflection to ensure the building could withstand strong storms.

工程师计算了风偏转，以确保建筑能够承受强风暴。

3.Architects often consider wind deflection when creating large public spaces.

建筑师在创建大型公共空间时常常考虑风偏转。

4.The wind deflection of the turbine blades affects their efficiency and performance.

涡轮叶片的风偏转影响其效率和性能。

5.During the test, they measured the wind deflection of the bridge under various wind speeds.

在测试中，他们测量了桥梁在不同风速下的风偏转。

作文

Wind deflection is a crucial concept in the field of engineering, particularly when designing structures such as bridges, skyscrapers, and wind turbines. It refers to the change in direction that wind takes as it interacts with these structures. Understanding wind deflection (风偏转) is essential for ensuring the safety and stability of buildings and other constructions. When strong winds blow against a structure, they can cause it to sway or move, which can lead to potential damage if not properly accounted for in the design phase.To illustrate the importance of wind deflection (风偏转), consider the design of a tall skyscraper. Architects and engineers must calculate how much the building will sway in response to high winds. If a building sways too much, it can create discomfort for occupants and may even compromise the structural integrity of the building. Therefore, engineers use sophisticated modeling techniques to predict wind deflection (风偏转) and design the building to withstand these forces.Another example is found in the design of bridges. When high winds blow across a bridge, they can create a phenomenon known as aeroelastic flutter, which can be dangerous and lead to catastrophic failure. Engineers must take wind deflection (风偏转) into account when designing the bridge's shape and materials to ensure that it remains stable during windy conditions.In addition to structural engineering, wind deflection (风偏转) is also significant in the field of renewable energy, particularly for wind turbines. The positioning and orientation of wind turbines are critical for maximizing their efficiency. Engineers must consider how wind deflection (风偏转) affects the wind flow around the turbine blades. If the wind is deflected away from the turbine due to nearby structures or terrain, the turbine may not generate electricity efficiently. Therefore, understanding and predicting wind deflection (风偏转) is vital for optimizing the placement of wind turbines.Moreover, wind deflection (风偏转) plays a role in environmental studies. For instance, urban planners must consider how buildings and other structures will affect wind patterns in a city. Poorly designed cities can create wind tunnels or areas of stagnant air, which can impact air quality and comfort levels for residents. By studying wind deflection (风偏转), planners can create more livable urban environments that promote better airflow and reduce pollution.In conclusion, wind deflection (风偏转) is a vital concept that spans multiple disciplines, including engineering, architecture, renewable energy, and urban planning. Its implications are far-reaching, affecting the safety, efficiency, and comfort of our built environment. As we continue to face challenges related to climate change and extreme weather, the importance of understanding and managing wind deflection (风偏转) will only grow. Engineers and planners must remain vigilant in their efforts to incorporate this knowledge into their designs to create safer and more sustainable structures for the future.