enclosed self-ventilation
简明释义
封闭式自通风
英英释义
例句
1.Our office has implemented enclosed self-ventilation to reduce energy costs while keeping the space fresh.
我们的办公室实施了封闭自通风,以降低能源成本,同时保持空间的新鲜感。
2.The residential complex features enclosed self-ventilation to enhance living conditions and reduce noise pollution.
该住宅区设有封闭自通风系统,以改善居住条件并减少噪音污染。
3.In the greenhouse, enclosed self-ventilation helps maintain optimal temperature and humidity for plant growth.
在温室中,封闭自通风有助于维持植物生长所需的最佳温度和湿度。
4.The new building design incorporates enclosed self-ventilation to improve air quality without relying on external systems.
新建筑设计采用了封闭自通风的方式,以改善空气质量,而无需依赖外部系统。
5.The car's interior uses enclosed self-ventilation to ensure passengers remain comfortable during long journeys.
汽车内部使用封闭自通风系统,以确保乘客在长途旅行中保持舒适。
作文
In modern architecture, the concept of energy efficiency has become increasingly important. One innovative approach to achieving this is through the use of enclosed self-ventilation (封闭式自通风). This technique not only enhances air quality but also contributes to the overall sustainability of buildings. The idea behind enclosed self-ventilation is to create a controlled environment that utilizes natural airflow to regulate temperature and humidity levels within a space. By strategically designing the layout of a building, architects can harness the power of wind and thermal dynamics to facilitate ventilation without relying heavily on mechanical systems.The implementation of enclosed self-ventilation involves several key components. Firstly, the design must incorporate appropriate openings, such as windows and vents, that allow for the passage of air. These openings should be placed in a manner that encourages cross-ventilation, enabling fresh air to enter while stale air is expelled. Additionally, the materials used in construction play a significant role in the effectiveness of enclosed self-ventilation. For instance, using materials with good thermal mass can help maintain stable indoor temperatures, reducing the need for artificial heating and cooling.One of the primary benefits of enclosed self-ventilation is its positive impact on indoor air quality. In many urban environments, air pollution is a significant concern. By promoting natural ventilation, buildings can reduce the concentration of indoor pollutants, leading to healthier living and working conditions. Furthermore, enclosed self-ventilation can help mitigate issues related to moisture buildup, which can lead to mold growth and structural damage over time.Another advantage of this method is its potential for energy savings. Traditional HVAC systems consume a considerable amount of energy, contributing to higher utility bills and increased carbon footprints. In contrast, enclosed self-ventilation minimizes reliance on these systems, allowing buildings to operate more efficiently. This is particularly beneficial in regions with mild climates, where natural ventilation can be sufficient for most of the year.Despite its numerous advantages, the success of enclosed self-ventilation largely depends on careful planning and design. Factors such as local climate, building orientation, and surrounding landscape must be taken into account to maximize the effectiveness of this approach. Additionally, occupants must be educated about how to utilize the system properly, ensuring that windows and vents are opened at the right times to facilitate optimal airflow.In conclusion, enclosed self-ventilation (封闭式自通风) represents a forward-thinking solution to the challenges of modern building design. By leveraging natural ventilation techniques, architects can create healthier, more sustainable environments that not only benefit occupants but also contribute to the overall reduction of energy consumption. As we continue to face pressing environmental issues, embracing innovative strategies like enclosed self-ventilation will be crucial in shaping the future of architecture and urban planning.
在现代建筑中,能源效率的概念变得越来越重要。一种实现这一目标的创新方法是使用封闭式自通风。这种技术不仅增强了空气质量,还为建筑的整体可持续性做出了贡献。封闭式自通风的背后理念是创造一个受控环境,利用自然气流调节空间内的温度和湿度水平。通过战略性地设计建筑的布局,建筑师可以利用风力和热动力学的力量,促进通风,而不需要过多依赖机械系统。实施封闭式自通风涉及几个关键组成部分。首先,设计必须包含适当的开口,如窗户和通风口,以便空气的流动。这些开口应以鼓励交叉通风的方式放置,使新鲜空气进入,同时排出污浊空气。此外,建筑中使用的材料在封闭式自通风的有效性中也起着重要作用。例如,使用具有良好热质量的材料可以帮助保持室内温度稳定,从而减少对人工采暖和制冷的需求。封闭式自通风的主要好处之一是其对室内空气质量的积极影响。在许多城市环境中,空气污染是一个显著的问题。通过促进自然通风,建筑物可以降低室内污染物的浓度,从而改善居住和工作条件。此外,封闭式自通风还可以帮助减轻与湿气积聚相关的问题,这可能导致霉菌生长和结构损坏。这种方法的另一个优点是其节能潜力。传统的HVAC系统消耗大量能源,导致高昂的公用事业费用和增加的碳足迹。相比之下,封闭式自通风最小化了对这些系统的依赖,使建筑物能够更高效地运行。这在气候温和的地区尤其有利,在这些地区,自然通风在大多数时间内就足够了。尽管有众多优点,封闭式自通风的成功在很大程度上依赖于仔细的规划和设计。当地气候、建筑方向和周围景观等因素必须考虑在内,以最大限度地提高这种方法的有效性。此外,必须对居住者进行教育,以了解如何正确使用该系统,确保在适当的时间打开窗户和通风口,以促进最佳气流。总之,封闭式自通风代表了一种前瞻性的解决方案,旨在应对现代建筑设计面临的挑战。通过利用自然通风技术,建筑师可以创造出更健康、更可持续的环境,这不仅使居住者受益,还为整体减少能源消耗做出贡献。随着我们继续面临紧迫的环境问题,采用像封闭式自通风这样的创新策略将在塑造建筑和城市规划的未来中发挥至关重要的作用。
