air calculation through

简明释义

空气循环率

英英释义

例句

1.Before finalizing the design, they needed to complete an air calculation through to assess airflow efficiency.

在最终确定设计之前，他们需要完成一个空气计算以评估气流效率。

2.The architect included an air calculation through in the project to improve ventilation.

建筑师在项目中加入了空气计算以改善通风。

3.The engineer performed an air calculation through the system to ensure optimal performance.

工程师对系统进行了空气计算以确保最佳性能。

4.During the simulation, the software conducted an air calculation through to analyze pressure drops.

在模拟过程中，软件进行了空气计算以分析压降。

5.To validate the results, a detailed air calculation through was necessary.

为了验证结果，进行详细的空气计算是必要的。

作文

In the world of aviation, precise measurements and calculations are crucial for ensuring safety and efficiency. One of the key aspects of flight planning involves understanding how to perform air calculation through various parameters such as altitude, speed, and weather conditions. This process is essential for pilots and air traffic controllers alike, as it allows them to make informed decisions that can affect the outcome of a flight.When we talk about air calculation through, we refer to the methodical approach to determining the necessary adjustments needed in flight operations. For instance, when a pilot is preparing for takeoff, they must calculate the required thrust based on the aircraft’s weight, the length of the runway, and current weather conditions. These calculations ensure that the aircraft can achieve the necessary speed for safe takeoff.Moreover, air calculation through is not limited to takeoff procedures. During the flight, pilots continuously monitor their altitude and speed, making real-time adjustments based on the performance of the aircraft and external factors. For example, if the aircraft encounters turbulence, the pilot may need to alter their altitude or speed to maintain comfort and safety for passengers. This ability to adapt quickly relies heavily on accurate calculations and a deep understanding of the aircraft's capabilities.Another important aspect of air calculation through is fuel management. Pilots must calculate the amount of fuel needed for each leg of the journey, taking into account weight changes due to passenger boarding and cargo loading. They also consider the distance to be traveled and the expected weather conditions en route. Efficient fuel management not only saves costs for airlines but also minimizes environmental impact, making it a critical component of modern aviation practices.Furthermore, air calculation through extends beyond individual flights. Air traffic control systems rely on complex algorithms and data analytics to manage the flow of air traffic. Controllers use these calculations to determine safe distances between aircraft, optimal flight paths, and arrival times. By analyzing data in real time, they can prevent congestion in busy airspaces and ensure that flights arrive at their destinations safely and on time.In conclusion, the concept of air calculation through encompasses a wide range of activities that are vital for the successful operation of flights. From takeoff to landing, pilots and air traffic controllers utilize precise calculations to navigate the complexities of aviation. As technology continues to advance, the tools and methods used for these calculations will undoubtedly evolve, leading to even greater efficiencies and safety in air travel. Understanding and mastering air calculation through is essential for anyone involved in the aviation industry, as it forms the backbone of safe and effective flight operations.

在航空领域，精确的测量和计算对于确保安全和效率至关重要。飞行计划的关键方面之一涉及了解如何通过各种参数进行空气计算，例如高度、速度和天气条件。这个过程对飞行员和空中交通管制员来说都是必不可少的，因为它使他们能够做出可能影响飞行结果的明智决策。当我们谈论空气计算时，我们指的是一种系统的方法，用于确定飞行操作中所需的必要调整。例如，当飞行员准备起飞时，他们必须根据飞机的重量、跑道的长度和当前的天气条件来计算所需的推力。这些计算确保飞机能够达到安全起飞所需的速度。此外，空气计算并不限于起飞程序。在飞行过程中，飞行员不断监测自己的高度和速度，根据飞机的性能和外部因素进行实时调整。例如，如果飞机遇到颠簸，飞行员可能需要改变高度或速度，以保持乘客的舒适和安全。这种快速适应的能力在很大程度上依赖于准确的计算和对飞机能力的深刻理解。空气计算的另一个重要方面是燃料管理。飞行员必须计算每段旅程所需的燃料量，同时考虑到由于乘客登机和货物装载而导致的重量变化。他们还会考虑到要飞行的距离和预期的天气条件。有效的燃料管理不仅为航空公司节省了成本，还最小化了对环境的影响，使其成为现代航空实践中的关键组成部分。此外，空气计算不仅限于单个航班。空中交通控制系统依靠复杂的算法和数据分析来管理空中交通流量。控制人员使用这些计算来确定飞机之间的安全距离、最佳飞行路径和到达时间。通过实时分析数据，他们可以防止繁忙空域的拥堵，并确保航班安全准时到达目的地。总之，空气计算的概念涵盖了对飞行成功运营至关重要的广泛活动。从起飞到着陆，飞行员和空中交通管制员利用精确的计算来应对航空的复杂性。随着技术的不断进步，用于这些计算的工具和方法无疑会发展，从而在航空旅行中带来更大的效率和安全性。理解和掌握空气计算对任何参与航空行业的人来说都是必不可少的，因为它构成了安全和有效飞行操作的基础。