air channel

简明释义

气道

英英释义

例句

1.In this model, the air channel is designed to minimize turbulence.

在这个模型中，空气通道的设计旨在最小化湍流。

2.The air channel in the drone allows for better aerodynamics during flight.

无人机中的空气通道使飞行时的气动性能更佳。

3.To improve efficiency, we need to clean the air channel regularly.

为了提高效率，我们需要定期清洁空气通道。

4.The new design features a wider air channel for enhanced airflow.

新设计采用了更宽的空气通道以增强气流。

5.The HVAC system uses an air channel to distribute cool air throughout the building.

暖通空调系统使用一个空气通道将冷空气分配到整个建筑中。

作文

In recent years, the concept of an air channel has gained significant attention in various fields, particularly in engineering and environmental science. An air channel refers to a designated pathway or conduit through which air can flow, often designed to optimize airflow for various applications. Understanding the dynamics of an air channel is crucial for improving ventilation systems, enhancing aerodynamics in vehicles, and even in designing more efficient heating and cooling systems in buildings.One of the most common applications of an air channel is in the field of HVAC (heating, ventilation, and air conditioning). In a typical HVAC system, the air channel plays a vital role in distributing conditioned air throughout a building. By effectively managing the air channel, engineers can ensure that every room receives the appropriate amount of air, thus maintaining a comfortable indoor environment. This is particularly important in large commercial buildings where uneven airflow can lead to hot or cold spots, resulting in discomfort for occupants.Another area where air channels are critical is in automotive design. Engineers must consider how air flows around and through a vehicle to minimize drag and maximize fuel efficiency. The design of an air channel in a car's body can significantly impact its performance. For example, sports cars often have specially designed air channels that direct airflow to enhance downforce, allowing for better handling at high speeds. Understanding the principles of fluid dynamics helps engineers create shapes that optimize these air channels for better performance.Moreover, the environmental implications of air channels cannot be overlooked. Urban planners and architects are increasingly focusing on how air channels can be integrated into building designs to promote natural ventilation. By strategically placing windows, vents, and other openings, buildings can harness the natural flow of air to reduce reliance on mechanical cooling systems. This not only lowers energy consumption but also contributes to a healthier indoor environment by improving air quality.The study of air channels also extends to outdoor environments. For instance, understanding how air moves through urban landscapes can help mitigate the heat island effect, a phenomenon where urban areas become significantly warmer than their rural surroundings. By analyzing air channels within cities, planners can develop strategies to enhance airflow, such as increasing green spaces or optimizing building layouts to allow for better wind circulation.In conclusion, the significance of air channels spans multiple disciplines, from engineering and architecture to environmental science. As we continue to address challenges related to energy efficiency and climate change, the effective management and design of air channels will play a pivotal role in creating sustainable solutions. By understanding how air flows through various systems, we can innovate and improve our built environments, ultimately leading to a better quality of life for all. The exploration of air channels is not just a technical endeavor; it is a vital component in our quest for sustainability and efficiency in an ever-evolving world.

近年来，‘空气通道’的概念在各个领域，特别是工程和环境科学中引起了广泛关注。‘空气通道’是指空气可以流动的指定路径或导管，通常设计用于优化各种应用中的气流。理解‘空气通道’的动态对于改善通风系统、增强车辆的空气动力学以及在建筑中设计更高效的供暖和制冷系统至关重要。‘空气通道’最常见的应用之一是在HVAC（供暖、通风和空调）领域。在典型的HVAC系统中，‘空气通道’在将调节过的空气分配到整个建筑中发挥着至关重要的作用。通过有效管理‘空气通道’，工程师可以确保每个房间获得适量的空气，从而维持舒适的室内环境。这在大型商业建筑中特别重要，因为不均匀的气流可能导致热或冷点，从而使居住者感到不适。另外一个‘空气通道’至关重要的领域是汽车设计。工程师必须考虑空气如何在车辆周围和内部流动，以最小化阻力并最大化燃油效率。汽车车身的‘空气通道’设计会显著影响其性能。例如，跑车通常具有专门设计的‘空气通道’，以引导气流增强下压力，从而在高速行驶时提供更好的操控性。理解流体动力学的原理帮助工程师创造优化这些‘空气通道’的形状，以提高性能。此外，‘空气通道’的环境影响也不容忽视。城市规划者和建筑师越来越关注如何将‘空气通道’整合到建筑设计中，以促进自然通风。通过战略性地放置窗户、通风口和其他开口，建筑可以利用自然的气流，减少对机械冷却系统的依赖。这不仅降低了能耗，还通过改善空气质量为室内环境的健康做出贡献。‘空气通道’的研究还扩展到户外环境。例如，了解空气如何在城市景观中移动可以帮助减轻热岛效应，这是一种城市地区的温度显著高于周围农村地区的现象。通过分析城市中的‘空气通道’，规划者可以制定增强气流的策略，例如增加绿地或优化建筑布局，以允许更好的风循环。总之，‘空气通道’的重要性跨越多个学科，从工程和建筑到环境科学。随着我们继续应对与能源效率和气候变化相关的挑战，有效管理和设计‘空气通道’将在创造可持续解决方案中发挥关键作用。通过理解空气如何在各种系统中流动，我们可以创新并改善我们的建筑环境，最终提高所有人的生活质量。对‘空气通道’的探索不仅仅是技术上的努力；它是我们在不断发展的世界中追求可持续性和效率的重要组成部分。