air stack

简明释义

1. 通风井; 2. 抽风烟囱;

英英释义

例句

1.The engineers designed a new cooling system that utilizes an air stack 空气堆 to improve efficiency.

工程师们设计了一种新的冷却系统，利用一个空气堆 air stack来提高效率。

2.By optimizing the air stack 空气堆, we can significantly reduce energy consumption.

通过优化空气堆 air stack，我们可以显著降低能耗。

3.The air stack 空气堆 in the HVAC system helps distribute air evenly throughout the building.

HVAC系统中的空气堆 air stack有助于在整个建筑中均匀分配空气。

4.During the test, we measured the temperature difference across the air stack 空气堆 to ensure optimal performance.

在测试过程中，我们测量了空气堆 air stack两侧的温度差，以确保最佳性能。

5.The design of the air stack 空气堆 is crucial for maintaining airflow in high-rise buildings.

对于高层建筑来说，空气堆 air stack的设计至关重要，以维持气流。

作文

In the realm of engineering and architecture, the term air stack refers to a structure designed to facilitate the movement of air, often used in ventilation systems. The concept is crucial for maintaining indoor air quality and ensuring efficient temperature regulation in buildings. An air stack can be seen as a vertical channel that allows warm air to rise and escape while drawing in cooler air from outside, thus creating a natural airflow. This principle is not only applicable in residential buildings but also in larger commercial spaces and industrial facilities.The importance of an air stack becomes especially evident in the context of sustainable building practices. With the growing emphasis on energy efficiency and reducing carbon footprints, architects and engineers are increasingly looking for ways to integrate natural ventilation systems into their designs. By utilizing an air stack, buildings can minimize their reliance on mechanical heating and cooling systems, which often consume significant amounts of energy.Moreover, the design of an air stack can vary depending on the specific needs of a building. For instance, in high-rise buildings, the air stack must be carefully calculated to ensure that the upward movement of air is not hindered by surrounding structures or environmental factors. Engineers may incorporate features such as vents or louvers to optimize airflow and enhance the overall performance of the air stack.In addition to its functional benefits, an air stack can also contribute to the aesthetic appeal of a building. Innovative designs can transform what is typically a utilitarian feature into an eye-catching architectural element. For example, a well-designed air stack may be integrated into a building's facade, serving both as a ventilation solution and a visual focal point.The application of air stacks is not limited to just buildings; they can also be found in various industrial processes where air circulation is vital. For instance, in manufacturing plants, air stacks help to manage heat generated by machinery, ensuring a safe and comfortable working environment for employees. Furthermore, the use of air stacks in these settings can lead to improved operational efficiency, as proper ventilation reduces the risk of overheating and equipment failure.Despite their advantages, the implementation of air stacks requires careful consideration of local climate conditions and building regulations. In regions with extreme weather, additional measures may be necessary to ensure that the air stack functions effectively throughout the year. This could involve the integration of passive solar heating techniques or the use of thermal mass materials that help to stabilize indoor temperatures.In conclusion, the concept of the air stack is integral to modern architectural and engineering practices. Its role in enhancing indoor air quality, promoting energy efficiency, and contributing to the aesthetic value of buildings cannot be overstated. As the world continues to prioritize sustainability and environmental responsibility, the importance of innovative solutions like the air stack will only grow. Whether in residential homes, commercial buildings, or industrial facilities, understanding and implementing effective air stacks can lead to healthier living spaces and more efficient operations, ultimately benefiting both occupants and the planet.

在工程和建筑领域，术语air stack指的是一种结构，旨在促进空气的流动，通常用于通风系统。这个概念对于维持室内空气质量和确保建筑物的有效温度调节至关重要。air stack可以被视为一个垂直通道，允许温暖的空气上升并排出，同时从外部吸入较冷的空气，从而创造自然气流。这一原理不仅适用于住宅建筑，也适用于更大的商业空间和工业设施。air stack的重要性在可持续建筑实践的背景下尤为明显。随着对能源效率和减少碳足迹的日益重视，建筑师和工程师越来越多地寻求将自然通风系统整合到他们的设计中。通过利用air stack，建筑物可以减少对机械供暖和制冷系统的依赖，这些系统通常消耗大量能源。此外，air stack的设计可能会根据建筑物的具体需求而有所不同。例如，在高层建筑中，air stack必须经过仔细计算，以确保空气的上升运动不受周围建筑或环境因素的阻碍。工程师可能会结合通风口或百叶窗等特征，以优化气流并增强air stack的整体性能。除了功能性优势，air stack还可以为建筑的美学吸引力做出贡献。创新的设计可以将通常是实用功能的特征转变为引人注目的建筑元素。例如，一个设计良好的air stack可能被整合到建筑的外立面中，既作为通风解决方案，又作为视觉焦点。air stack的应用不仅限于建筑；它们也可以在各种工业过程中找到，其中空气循环至关重要。例如，在制造厂中，air stack帮助管理机器产生的热量，确保员工的安全和舒适的工作环境。此外，在这些环境中使用air stack可以提高操作效率，因为适当的通风减少了过热和设备故障的风险。尽管有其优势，实施air stack仍需仔细考虑当地气候条件和建筑法规。在极端天气的地区，可能需要采取额外措施以确保air stack在全年有效运作。这可能涉及整合被动太阳能加热技术或使用热质量材料来帮助稳定室内温度。总之，air stack的概念对于现代建筑和工程实践至关重要。它在提升室内空气质量、促进能源效率以及为建筑的美学价值做出贡献方面的重要性不容小觑。随着世界继续优先考虑可持续性和环境责任，像air stack这样的创新解决方案的重要性只会增加。无论是在住宅、商业建筑还是工业设施中，理解和实施有效的air stack都可以导致更健康的生活空间和更高效的运营，最终惠及居住者和地球。