ascensional ventilation

简明释义

上向通风

英英释义

例句

1.In hot climates, ascensional ventilation can significantly reduce indoor temperatures.

在炎热的气候中，上升通风可以显著降低室内温度。

2.The greenhouse utilizes ascensional ventilation to regulate humidity levels.

温室利用上升通风来调节湿度水平。

3.During the summer months, ascensional ventilation helps to keep the building cool.

在夏季，上升通风有助于保持建筑凉爽。

4.The architect suggested using ascensional ventilation to enhance energy efficiency.

建筑师建议使用上升通风来提高能源效率。

5.The design of the building incorporates ascensional ventilation to improve air circulation.

这栋建筑的设计采用了上升通风以改善空气流通。

作文

In the realm of architecture and environmental design, the concept of ascensional ventilation plays a pivotal role in enhancing indoor air quality and promoting energy efficiency. Ascensional ventilation refers to a natural ventilation method that utilizes the principles of buoyancy and thermal dynamics to circulate air within a space. By leveraging the natural tendency of warm air to rise, this technique allows for effective cooling and ventilation without relying heavily on mechanical systems.The importance of ascensional ventilation can be observed in various building designs, particularly in regions with warm climates. In such areas, buildings are often designed with high ceilings and strategically placed openings to facilitate the upward movement of warm air. This design not only helps to maintain a comfortable indoor temperature but also reduces the reliance on air conditioning systems, thereby lowering energy consumption.Moreover, ascensional ventilation contributes to improved indoor air quality by promoting the exchange of stale air with fresh outdoor air. As warm air rises and exits through openings at higher elevations, cooler air is drawn in from lower openings, creating a continuous flow of air throughout the space. This process helps to dilute indoor pollutants, reduce humidity levels, and enhance overall occupant comfort.One of the most significant advantages of ascensional ventilation is its sustainability. By utilizing natural forces rather than mechanical systems, buildings can significantly decrease their carbon footprint. This is particularly crucial in today's context, where climate change and environmental degradation are pressing issues. Architects and builders are increasingly recognizing the value of incorporating ascensional ventilation into their designs as a means of promoting sustainable living.Additionally, the implementation of ascensional ventilation can lead to cost savings for both builders and occupants. While the initial design and construction may require careful planning and consideration of airflow patterns, the long-term benefits include reduced energy bills and lower maintenance costs associated with mechanical ventilation systems. Furthermore, occupants benefit from a healthier living environment, which can enhance productivity and well-being.Despite its many advantages, ascensional ventilation is not without challenges. For instance, its effectiveness can be influenced by external weather conditions, such as wind speed and direction. In some cases, buildings may require supplementary mechanical ventilation to ensure adequate air circulation during periods of stagnant air. Therefore, it is essential for architects and designers to conduct thorough analyses and simulations to optimize the performance of ascensional ventilation systems.In conclusion, ascensional ventilation represents a forward-thinking approach to building design that harmonizes human needs with environmental sustainability. By harnessing the natural properties of air movement, this technique offers a viable solution for improving indoor air quality, reducing energy consumption, and promoting a healthier living environment. As society continues to grapple with the challenges posed by climate change, the adoption of ascensional ventilation in architectural practices will undoubtedly play a crucial role in shaping the future of sustainable building design.

在建筑和环境设计领域，上升通风的概念在提高室内空气质量和促进能源效率方面起着关键作用。上升通风是指一种自然通风方法，利用浮力和热动力学的原理在空间内循环空气。通过利用温暖空气上升的自然倾向，这种技术可以有效地冷却和通风，而无需过度依赖机械系统。上升通风的重要性可以在各种建筑设计中观察到，特别是在温暖气候的地区。在这些地区，建筑物通常设计有高天花板和战略性放置的开口，以促进温暖空气的上升运动。这种设计不仅有助于维持舒适的室内温度，还减少了对空调系统的依赖，从而降低了能源消耗。此外，上升通风通过促进陈旧空气与新鲜户外空气的交换，有助于改善室内空气质量。随着温暖空气上升并通过较高的开口排出，较凉爽的空气从较低的开口被吸入，形成空间内空气的持续流动。这个过程有助于稀释室内污染物，降低湿度水平，并增强整体居住者的舒适度。上升通风最显著的优点之一是其可持续性。通过利用自然力量而非机械系统，建筑物可以显著减少其碳足迹。这在当今气候变化和环境恶化问题日益严重的背景下尤为重要。建筑师和施工者越来越认识到将上升通风纳入其设计中的价值，以促进可持续生活。此外，实施上升通风还可以为建筑商和居住者带来成本节约。尽管初期设计和施工可能需要仔细规划和考虑气流模式，但长期收益包括降低的能源账单和与机械通风系统相关的较低维护成本。此外，居住者受益于更健康的生活环境，这可以增强生产力和福祉。尽管有许多优点，上升通风也并非没有挑战。例如，其有效性可能受到外部天气条件的影响，如风速和风向。在某些情况下，建筑物可能需要补充机械通风，以确保在空气静止的时期内有足够的空气流通。因此，建筑师和设计师进行全面分析和模拟以优化上升通风系统的性能至关重要。总之，上升通风代表了一种前瞻性的建筑设计方法，协调了人类需求与环境可持续性。通过利用空气运动的自然特性，这种技术为改善室内空气质量、降低能源消耗和促进更健康的生活环境提供了可行的解决方案。随着社会继续应对气候变化带来的挑战，采用上升通风的建筑实践无疑将在塑造可持续建筑设计的未来中发挥关键作用。