air grid

简明释义

通气格栅

英英释义

例句

1.The engineers designed an efficient air grid 空气网格 to optimize the distribution of airflow in the building.

工程师们设计了一个高效的空气网格来优化建筑内的气流分布。

2.In our new HVAC system, the air grid 空气网格 ensures that every room receives adequate ventilation.

在我们新的暖通空调系统中，空气网格确保每个房间都能获得足够的通风。

3.The air grid 空气网格 layout was crucial for maintaining a comfortable indoor climate.

空气网格的布局对于维持舒适的室内气候至关重要。

4.The air grid 空气网格 design minimized dead zones where air circulation was poor.

空气网格的设计最小化了气流不畅的死区。

5.During the simulation, we tested how the air grid 空气网格 would react to changes in temperature.

在模拟过程中，我们测试了空气网格对温度变化的反应。

作文

The concept of an air grid is becoming increasingly relevant in discussions about modern urban planning and transportation systems. An air grid refers to a network of aerial pathways or routes that facilitate the movement of vehicles, particularly drones and air taxis, in urban environments. This innovative approach aims to alleviate ground traffic congestion and improve overall mobility in cities. As urban populations continue to grow, the demand for efficient transportation solutions becomes more critical, making the air grid a potential game-changer in how we navigate our cities.One of the primary advantages of implementing an air grid is its ability to reduce travel times significantly. Traditional roadways are often clogged with vehicles, leading to delays and frustration for commuters. In contrast, an air grid allows for vertical takeoff and landing (VTOL) vehicles to bypass ground traffic entirely. This means that passengers can reach their destinations much faster, which is especially important in emergency situations where time is of the essence.Moreover, the environmental impact of an air grid is worth considering. By encouraging the use of electric drones and air taxis, cities can reduce their carbon footprint. These aerial vehicles can be designed to operate on renewable energy sources, contributing to a more sustainable future. Additionally, the implementation of an air grid can promote the use of shared transportation models, further decreasing the number of vehicles required on the ground.However, the development of an air grid is not without its challenges. Regulatory frameworks will need to be established to ensure the safe operation of aerial vehicles. Air traffic control systems must evolve to manage the increased complexity of urban airspace. Furthermore, public acceptance of flying vehicles is essential; many people may have reservations about safety and noise pollution associated with an air grid. Therefore, education and outreach will play a crucial role in fostering a positive perception of this new mode of transportation.In addition to these challenges, technological advancements are necessary to make an air grid a reality. Innovations in battery technology, navigation systems, and vehicle design will all contribute to the feasibility of aerial transportation networks. Companies and governments must invest in research and development to overcome these hurdles and bring the air grid concept to fruition.As we look to the future, the potential of an air grid is immense. Cities around the world are already experimenting with pilot programs for drone deliveries and air taxis. These initiatives serve as a testing ground for what could eventually become a comprehensive urban air mobility system. The integration of an air grid into existing transportation infrastructure could revolutionize how we think about travel and connectivity in urban spaces.In conclusion, the air grid represents a forward-thinking solution to some of the most pressing issues faced by modern cities. Its ability to enhance mobility, reduce environmental impact, and offer innovative transportation options makes it a compelling concept. While there are challenges to overcome, the ongoing advancements in technology and growing interest in aerial transportation suggest that the air grid may soon become a reality, reshaping our urban landscapes for generations to come.

“空中网格”的概念在现代城市规划和交通系统的讨论中变得越来越重要。“空中网格”指的是一套空中的通道或路线网络，旨在促进城市环境中车辆，特别是无人机和空中出租车的移动。这种创新的方法旨在缓解地面交通拥堵，提高城市的整体流动性。随着城市人口的不断增长，对高效交通解决方案的需求变得更加迫切，使得“空中网格”成为我们如何在城市中导航的潜在游戏规则改变者。实施“空中网格”的主要优点之一是它能够显著减少旅行时间。传统的道路常常被车辆堵塞，导致通勤者延误和沮丧。相比之下，“空中网格”允许垂直起降（VTOL）车辆完全绕过地面交通。这意味着乘客可以更快地到达目的地，这在紧急情况下尤其重要，因为时间至关重要。此外，“空中网格”的环境影响也是值得考虑的。通过鼓励使用电动无人机和空中出租车，城市可以减少其碳足迹。这些空中车辆可以设计为使用可再生能源，从而为可持续的未来做出贡献。此外，实施“空中网格”可以促进共享交通模式的使用，进一步减少地面所需的车辆数量。然而，“空中网格”的发展并非没有挑战。需要建立监管框架，以确保空中车辆的安全运行。空中交通控制系统必须发展以管理城市空域的复杂性。此外，公众对飞行车辆的接受度至关重要；许多人可能对与“空中网格”相关的安全性和噪音污染有所顾虑。因此，教育和宣传将在促进公众对这一新交通模式的积极看法中发挥关键作用。除了这些挑战外，技术进步也是实现“空中网格”所必需的。电池技术、导航系统和车辆设计的创新都将有助于空中交通网络的可行性。公司和政府必须投资于研究与开发，以克服这些障碍，使“空中网格”概念成为现实。展望未来，“空中网格”的潜力巨大。世界各地的城市已经开始试验无人机配送和空中出租车的试点项目。这些举措作为最终可能成为全面城市空中出行系统的测试平台。“空中网格”的整合到现有的交通基础设施中，可能会彻底改变我们对城市空间中旅行和连接的思考。总之，“空中网格”代表了一种前瞻性的解决方案，解决了现代城市面临的一些最紧迫的问题。它增强流动性、减少环境影响以及提供创新交通选项的能力使其成为一个引人注目的概念。尽管存在挑战，但技术的持续进步和对空中交通的日益关注表明，“空中网格”可能很快成为现实，重塑我们的城市景观，造福未来几代人。