supply ventilation

简明释义

进气通风

英英释义

例句

1.In residential homes, supply ventilation can help reduce indoor pollutants and improve air quality.

在住宅中，供气通风可以帮助减少室内污染物并改善空气质量。

2.The new office building is equipped with a system that provides supply ventilation to ensure fresh air circulation.

新办公大楼配备了一个系统，提供供气通风以确保新鲜空气的循环。

3.Proper supply ventilation is crucial in laboratories to maintain a safe working environment.

适当的供气通风在实验室中至关重要，以维持安全的工作环境。

4.The HVAC system uses supply ventilation to bring in outdoor air and maintain temperature balance.

HVAC系统使用供气通风将户外空气引入并保持温度平衡。

5.During the winter months, supply ventilation systems can help prevent moisture buildup inside the home.

在冬季，供气通风系统可以帮助防止家中湿气积聚。

作文

In modern building design, ensuring a healthy and comfortable indoor environment is paramount. One crucial aspect of this is the concept of supply ventilation, which refers to the process of introducing fresh outdoor air into a building. This mechanism not only helps to dilute indoor pollutants but also regulates temperature and humidity levels, contributing to overall occupant comfort. supply ventilation (供气通风) can be achieved through various systems, including mechanical ventilation, natural ventilation, or a combination of both. Mechanical ventilation systems are commonly used in commercial buildings where precise control of air quality is required. These systems utilize fans and ducts to deliver conditioned air to different areas of the building. One significant advantage of mechanical supply ventilation (供气通风) is the ability to filter and treat the incoming air, removing allergens, dust, and other harmful particles before they enter the indoor space. This is particularly beneficial in urban environments where outdoor air quality may be compromised.On the other hand, natural ventilation relies on the architectural design of the building to facilitate airflow. This method takes advantage of natural forces such as wind and thermal buoyancy to promote air exchange. While natural supply ventilation (供气通风) can be energy-efficient and cost-effective, it may not always provide adequate control over indoor air quality, especially in densely populated areas.The effectiveness of supply ventilation (供气通风) systems is often measured by the amount of fresh air they deliver to occupants. The recommended ventilation rates vary depending on the type of building and its occupancy. For example, residential buildings typically require about 0.35 air changes per hour, while commercial spaces may need higher rates to accommodate larger numbers of people. In addition to improving air quality, supply ventilation (供气通风) plays a crucial role in energy efficiency. By carefully balancing the amount of fresh air introduced and the energy required to condition that air, buildings can reduce their overall energy consumption. Advanced systems now incorporate energy recovery ventilators (ERVs) that transfer heat and moisture between incoming and outgoing air streams, minimizing the energy needed for heating or cooling.Moreover, the integration of smart technology in supply ventilation (供气通风) systems allows for real-time monitoring and adjustments based on occupancy levels and indoor air quality measurements. This not only enhances comfort but also promotes sustainability by optimizing energy use. As concerns about climate change and energy conservation continue to grow, the importance of efficient supply ventilation (供气通风) systems will only increase.In conclusion, supply ventilation (供气通风) is a fundamental component of modern building design that significantly impacts indoor air quality, occupant comfort, and energy efficiency. Whether through mechanical or natural means, effectively managing the introduction of fresh air into buildings is essential for creating healthy living and working environments. As technology advances and our understanding of indoor air quality improves, the methods and systems used for supply ventilation (供气通风) will undoubtedly evolve, paving the way for even more effective solutions in the future.

在现代建筑设计中，确保健康和舒适的室内环境至关重要。其中一个关键方面是supply ventilation，即将新鲜的户外空气引入建筑物的过程。这一机制不仅有助于稀释室内污染物，还调节温度和湿度水平，从而提高整体居住者的舒适度。supply ventilation（供气通风）可以通过多种系统实现，包括机械通风、自然通风或两者的结合。机械通风系统通常用于商业建筑，因为这些建筑需要精确控制空气质量。这些系统利用风扇和管道将调节过的空气输送到建筑物的不同区域。机械supply ventilation（供气通风）的一个显著优点是能够过滤和处理进入的空气，在它们进入室内空间之前去除过敏原、灰尘和其他有害颗粒。这在城市环境中尤其有益，因为户外空气质量可能受到影响。另一方面，自然通风依赖于建筑的建筑设计来促进气流。这种方法利用风和热浮力等自然力量来促进空气交换。虽然自然supply ventilation（供气通风）可能具有能源效率高和成本效益高的优势，但在人员密集的地区，它可能无法始终提供足够的室内空气质量控制。supply ventilation（供气通风）系统的有效性通常通过它们向居住者提供的新鲜空气量来衡量。推荐的通风率因建筑类型和占用情况而异。例如，住宅建筑通常需要每小时约0.35次空气更换，而商业空间可能需要更高的通风率以容纳更多的人。除了改善空气质量，supply ventilation（供气通风）在能源效率方面也发挥着关键作用。通过仔细平衡引入的新鲜空气量和调节该空气所需的能量，建筑物可以降低其整体能耗。先进的系统现在结合了能量回收通风机（ERV），在进出气流之间转移热量和湿气，最小化加热或冷却所需的能量。此外，智能技术在supply ventilation（供气通风）系统中的整合允许根据占用水平和室内空气质量测量实时监控和调整。这不仅提高了舒适度，还通过优化能源使用促进了可持续性。随着对气候变化和能源节约的关注持续增加，高效的supply ventilation（供气通风）系统的重要性只会增加。总之，supply ventilation（供气通风）是现代建筑设计的基本组成部分，对室内空气质量、居住者的舒适度和能源效率产生重大影响。无论是通过机械方式还是自然方式，有效管理新鲜空气引入建筑物对于创造健康的生活和工作环境至关重要。随着技术的进步和我们对室内空气质量的理解不断提高，未来用于supply ventilation（供气通风）的方法和系统无疑会发展，为更有效的解决方案铺平道路。