ascensional ventilation
简明释义
上升通风
英英释义
例句
1.The greenhouse utilizes ascensional ventilation to maintain optimal growing conditions for plants.
温室利用上升通风来维持植物的最佳生长条件。
2.Engineers studied the effects of ascensional ventilation in high-rise buildings.
工程师研究了高层建筑中上升通风的效果。
3.The design of the building incorporates ascensional ventilation to improve air circulation.
这座建筑的设计结合了上升通风以改善空气流通。
4.Using ascensional ventilation can significantly reduce energy costs for heating and cooling.
使用上升通风可以显著降低供暖和制冷的能源成本。
5.During the summer months, ascensional ventilation helps to keep indoor spaces cool.
在夏季,上升通风有助于保持室内空间凉爽。
作文
In the realm of architecture and environmental design, the concept of ascensional ventilation plays a pivotal role in ensuring optimal indoor air quality and thermal comfort. Ascensional ventilation refers to the natural process by which warm air rises and creates a flow of cooler air from lower levels, effectively promoting air circulation within a space. This phenomenon is crucial in both residential and commercial buildings, as it not only enhances comfort but also contributes to energy efficiency. The science behind ascensional ventilation is rooted in the principles of thermodynamics. When air is heated, it becomes less dense and rises, leading to a reduction in pressure at lower levels. This pressure difference draws in cooler air from outside or from adjacent spaces, creating a continuous cycle of air movement. Architects and builders have long recognized the benefits of harnessing this natural process, often incorporating design elements such as high ceilings, strategically placed windows, and vents that facilitate ascensional ventilation. One of the most notable advantages of ascensional ventilation is its ability to improve indoor air quality. In many urban environments, indoor air can become stale and filled with pollutants due to inadequate ventilation systems. By allowing warm air to escape and replacing it with fresh, cool air, ascensional ventilation helps to dilute indoor contaminants and maintain a healthier atmosphere. This is especially important in spaces where people gather, such as classrooms, offices, and public venues. Moreover, ascensional ventilation can significantly reduce the reliance on mechanical cooling systems. As energy costs continue to rise and concerns about climate change grow, finding sustainable ways to regulate indoor temperatures has become essential. Buildings designed with ascensional ventilation in mind can remain comfortable even during hot weather, minimizing the need for air conditioning and thereby lowering energy consumption. This not only benefits the environment but also reduces operational costs for building owners. In addition to its practical applications, ascensional ventilation has aesthetic implications as well. High ceilings and open layouts not only allow for effective air circulation but also create a sense of spaciousness and light within a room. Natural light can penetrate deeper into spaces, enhancing the overall ambiance and making interiors more inviting. This synergy between functionality and aesthetics is a hallmark of modern architectural design that prioritizes both comfort and visual appeal. Despite its advantages, ascensional ventilation must be carefully considered in the design phase. Factors such as local climate, building orientation, and the presence of obstructions can influence its effectiveness. For instance, in colder climates, excessive heat loss through open windows or vents may counteract the benefits of ascensional ventilation. Therefore, architects must strike a balance between maximizing airflow and maintaining thermal efficiency. In conclusion, ascensional ventilation represents a harmonious blend of science, sustainability, and design that addresses the challenges of modern living. By leveraging the natural behavior of warm air, we can create healthier, more comfortable indoor environments while reducing our ecological footprint. As we move towards a future that values sustainability and well-being, understanding and implementing ascensional ventilation will be crucial in shaping the buildings of tomorrow.
在建筑和环境设计领域,ascensional ventilation(上升通风)的概念在确保最佳室内空气质量和热舒适度方面发挥着关键作用。Ascensional ventilation指的是温暖的空气上升并从下层产生冷空气流动的自然过程,有效促进了空间内的空气循环。这一现象在住宅和商业建筑中都至关重要,因为它不仅增强了舒适性,还促进了能源效率。Ascensional ventilation背后的科学根植于热力学原理。当空气被加热时,它变得密度较小并上升,从而导致下层的压力降低。这种压力差吸引外部或相邻空间的冷空气,从而形成持续的空气流动循环。建筑师和施工者早已认识到利用这一自然过程的好处,通常会在设计元素中融入高天花板、战略性布置的窗户和促进ascensional ventilation的通风口。Ascensional ventilation最显著的优势之一是其改善室内空气质量的能力。在许多城市环境中,由于通风系统不足,室内空气可能会变得陈旧且充满污染物。通过允许温暖的空气逸出并用新鲜的冷空气替代,ascensional ventilation有助于稀释室内污染物,保持更健康的氛围。这在人员聚集的空间中尤为重要,例如教室、办公室和公共场所。此外,ascensional ventilation可以显著减少对机械制冷系统的依赖。随着能源成本的不断上升以及气候变化的担忧日益加剧,寻找可持续的室内温度调节方式变得至关重要。设计时考虑到ascensional ventilation的建筑,即使在炎热的天气中也能保持舒适,最大限度地减少空调的需求,从而降低能源消耗。这不仅有利于环境,也减少了建筑业主的运营成本。除了实用应用外,ascensional ventilation还具有美学意义。高天花板和开放式布局不仅允许有效的空气流通,还在房间内营造出宽敞和明亮的感觉。自然光可以更深入地渗透到空间中,增强整体氛围,使室内更具吸引力。这种功能性与美学之间的协同作用是现代建筑设计的一个标志,优先考虑舒适性和视觉吸引力。尽管有其优势,设计阶段必须仔细考虑ascensional ventilation。当地气候、建筑朝向和障碍物的存在等因素可能会影响其有效性。例如,在寒冷气候中,通过开放的窗户或通风口过度的热量损失可能会抵消ascensional ventilation的好处。因此,建筑师必须在最大化气流和保持热效率之间取得平衡。总之,ascensional ventilation代表了科学、可持续性和设计的和谐结合,解决了现代生活的挑战。通过利用温暖空气的自然行为,我们可以创造更健康、更舒适的室内环境,同时减少生态足迹。随着我们迈向重视可持续性和福祉的未来,理解和实施ascensional ventilation将在塑造未来建筑中至关重要。
