induced ventilation

简明释义

透导通风

英英释义

例句

1.The induced ventilation system was installed to help mitigate the effects of smoke during fire emergencies.

安装了诱导通风系统，以帮助减轻火灾紧急情况下烟雾的影响。

2.The building's design incorporates induced ventilation, which helps to improve air quality by drawing in fresh air.

该建筑的设计采用了诱导通风，通过引入新鲜空气来改善空气质量。

3.The HVAC system utilizes induced ventilation to enhance airflow and maintain a comfortable indoor climate.

该暖通空调系统利用诱导通风来增强气流并维持舒适的室内气候。

4.During the summer months, buildings equipped with induced ventilation can stay cooler without excessive air conditioning.

在夏季，配备诱导通风的建筑可以在不使用过多空调的情况下保持凉爽。

5.In industrial settings, induced ventilation is often used to control the temperature and remove contaminants from the air.

在工业环境中，通常使用诱导通风来控制温度和去除空气中的污染物。

作文

In modern architecture and engineering, the concept of induced ventilation plays a crucial role in ensuring indoor air quality and thermal comfort. Induced ventilation refers to a system that enhances airflow within a building by utilizing mechanical means to draw fresh air into the space while expelling stale air. This method is particularly beneficial in large commercial buildings, industrial facilities, and even residential homes where natural ventilation may not suffice due to various constraints such as design, location, or environmental conditions.The principle behind induced ventilation is relatively straightforward. It involves the use of fans or blowers to create a pressure difference that effectively 'induces' outside air to enter the building. This process can significantly improve air circulation, reduce humidity levels, and eliminate pollutants, thus contributing to a healthier indoor environment. For instance, in spaces like laboratories or manufacturing plants, where harmful gases or particles might be present, induced ventilation is essential for maintaining safety standards and protecting the health of occupants.Moreover, induced ventilation can be integrated with existing HVAC (Heating, Ventilation, and Air Conditioning) systems to optimize energy efficiency. By carefully controlling the flow of air, it is possible to reduce reliance on heating or cooling systems, ultimately leading to lower energy costs. Advanced technologies such as variable speed fans and automated controls allow for precise management of airflow, adapting to the specific needs of the building and its occupants.Another significant advantage of induced ventilation is its ability to enhance thermal comfort. In climates where outdoor temperatures fluctuate greatly, this system can help maintain a stable indoor environment. For example, during hot summer months, induced ventilation can facilitate the removal of excess heat from the building, while in winter, it can bring in warmer air from outside, reducing the need for additional heating.However, it is important to consider the potential challenges associated with induced ventilation. One concern is the quality of the incoming air. If the outdoor environment is polluted or contains allergens, simply drawing in outside air may not be beneficial. Therefore, incorporating air filtration systems alongside induced ventilation is vital to ensure that the air being circulated is clean and safe for occupants.Additionally, the design and placement of induced ventilation systems require careful planning to avoid issues such as drafts or uneven airflow. Engineers and architects must work collaboratively to create a balanced system that meets the unique needs of each space.In conclusion, induced ventilation is an essential component of contemporary building design, offering numerous benefits including improved air quality, enhanced thermal comfort, and energy efficiency. As we continue to prioritize health and sustainability in our built environments, understanding and implementing induced ventilation will become increasingly important. By addressing the challenges associated with this system and ensuring proper integration with existing technologies, we can create healthier and more comfortable living and working spaces for everyone.

在现代建筑和工程中，诱导通风的概念在确保室内空气质量和热舒适度方面发挥着至关重要的作用。诱导通风是指通过机械手段增强建筑物内部气流的系统，利用这些手段将新鲜空气引入空间，同时排出陈旧空气。这种方法在大型商业建筑、工业设施甚至住宅中尤为有益，因为自然通风可能由于设计、位置或环境条件等各种限制而无法满足需求。诱导通风的原理相对简单。它涉及使用风扇或鼓风机来创建压力差，从而有效地“诱导”外部空气进入建筑物。这一过程可以显著改善空气循环，降低湿度水平，并消除污染物，从而为室内环境的健康做出贡献。例如，在实验室或制造厂等空间中，可能存在有害气体或颗粒，因此< span>诱导通风对于保持安全标准和保护居住者的健康至关重要。此外，诱导通风可以与现有的HVAC（供暖、通风和空调）系统集成，以优化能源效率。通过精确控制空气流动，可以减少对供暖或制冷系统的依赖，从而最终降低能源成本。先进的技术，如变速风扇和自动控制，允许对气流进行精确管理，以适应建筑及其居住者的特定需求。诱导通风的另一个显著优势是增强热舒适度。在户外温度波动较大的气候中，该系统可以帮助保持稳定的室内环境。例如，在炎热的夏季，诱导通风可以促进建筑内部多余热量的排放，而在冬季，它可以从外部引入较温暖的空气，从而减少额外供暖的需要。然而，考虑与诱导通风相关的潜在挑战也很重要。一项担忧是进入空气的质量。如果户外环境受到污染或含有过敏原，仅仅引入外部空气可能没有好处。因此，在诱导通风的同时，结合空气过滤系统对于确保循环空气的清洁和安全至关重要。此外，诱导通风系统的设计和放置需要仔细规划，以避免出现气流不均或穿堂风等问题。工程师和建筑师必须协作工作，创建一个平衡的系统，以满足每个空间的独特需求。总之，诱导通风是当代建筑设计的重要组成部分，提供了许多好处，包括改善空气质量、增强热舒适度和提高能源效率。随着我们继续优先考虑建筑环境中的健康和可持续性，理解和实施诱导通风将变得愈发重要。通过解决与该系统相关的挑战并确保与现有技术的正确集成，我们可以为每个人创造更健康、更舒适的生活和工作空间。