auxiliary ventilation

简明释义

1. 辅助通风; 2. 局部通风;

英英释义

例句

1.The laboratory is equipped with auxiliary ventilation 辅助通风 to ensure that hazardous fumes are safely removed.

实验室配备了辅助通风 auxiliary ventilation 以确保有害气体安全排除。

2.In the event of a fire, the building's auxiliary ventilation 辅助通风 system will help to clear smoke from the hallways.

在火灾发生时，建筑物的辅助通风 auxiliary ventilation 系统将有助于清理走廊中的烟雾。

3.The auxiliary ventilation 辅助通风 system activates automatically when CO2 levels rise above safe limits.

当二氧化碳水平超过安全限制时，辅助通风 auxiliary ventilation 系统会自动激活。

4.During the construction process, we installed auxiliary ventilation 辅助通风 to improve air quality for workers.

在施工过程中，我们安装了辅助通风 auxiliary ventilation 以改善工人的空气质量。

5.Hospitals often use auxiliary ventilation 辅助通风 to maintain a sterile environment in operating rooms.

医院通常使用辅助通风 auxiliary ventilation 来维持手术室的无菌环境。

作文

In the field of environmental engineering and building design, the concept of auxiliary ventilation plays a crucial role in maintaining indoor air quality and ensuring the comfort of occupants. Auxiliary ventilation refers to the additional airflow provided to a space, supplementing the primary ventilation system. This is particularly important in scenarios where natural ventilation alone is insufficient to meet the air quality demands or when mechanical systems are not operating optimally. For instance, during peak occupancy times in a building, the existing ventilation may struggle to circulate enough fresh air, leading to discomfort and potential health issues among occupants. In such cases, auxiliary ventilation can be employed to enhance air circulation and improve overall indoor air quality.The implementation of auxiliary ventilation can take various forms, including the use of portable fans, window exhaust systems, or even specialized HVAC units designed to boost airflow. These systems can be activated during high-traffic periods or in response to specific air quality measurements, ensuring that the environment remains conducive to productivity and well-being. Additionally, auxiliary ventilation can help mitigate the buildup of indoor pollutants, such as carbon dioxide, volatile organic compounds (VOCs), and other harmful substances that can accumulate in enclosed spaces.Moreover, auxiliary ventilation is not only beneficial for commercial buildings but also for residential spaces. Homeowners can utilize auxiliary ventilation strategies to improve comfort levels, particularly in areas with limited natural airflow. For example, using exhaust fans in kitchens and bathrooms can effectively remove excess humidity and odors, while strategically placed fans can help distribute fresh air throughout the home. This proactive approach to air management can lead to healthier living environments and increased energy efficiency.In addition to enhancing comfort and air quality, auxiliary ventilation can also contribute to energy savings. By optimizing the use of existing ventilation systems and reducing reliance on heating and cooling units, buildings can achieve better energy performance. This is particularly relevant in the context of sustainable design, where the goal is to minimize energy consumption while maximizing occupant health and comfort. Effective auxiliary ventilation systems can help strike this balance by ensuring that fresh air is introduced without overburdening heating or cooling systems.However, it is essential to consider the design and implementation of auxiliary ventilation carefully. Poorly designed systems can lead to issues such as drafts, noise, or even increased energy costs if not managed properly. Therefore, engaging with professionals who specialize in ventilation design is crucial to ensure that auxiliary ventilation solutions are tailored to the specific needs of a building and its occupants.In conclusion, auxiliary ventilation serves as a vital component in modern building design and environmental management. By providing additional airflow to complement primary ventilation systems, it enhances indoor air quality, promotes occupant comfort, and contributes to energy efficiency. Whether in commercial or residential settings, understanding and effectively implementing auxiliary ventilation strategies can lead to healthier, more comfortable, and sustainable indoor environments.

在环境工程和建筑设计领域，辅助通风的概念在维持室内空气质量和确保居住者舒适方面发挥着至关重要的作用。辅助通风是指为一个空间提供额外的气流，以补充主要通风系统。这在自然通风不足以满足空气质量需求或机械系统未能最佳运行的情况下尤为重要。例如，在建筑物的高峰使用时段，现有的通风可能难以循环足够的新鲜空气，导致居住者感到不适和潜在的健康问题。在这种情况下，可以采用辅助通风来增强空气循环并改善整体室内空气质量。辅助通风的实施可以采取多种形式，包括使用便携式风扇、窗户排气系统，甚至是专门设计用于增强气流的HVAC单元。这些系统可以在高流量期间激活，或根据特定的空气质量测量结果进行响应，确保环境保持适合生产力和福祉。此外，辅助通风可以帮助减轻室内污染物的积聚，例如二氧化碳、挥发性有机化合物（VOCs）和其他可能在封闭空间中积累的有害物质。此外，辅助通风不仅对商业建筑有益，对住宅空间也同样适用。房主可以利用辅助通风策略来提高舒适度，特别是在自然气流有限的区域。例如，在厨房和浴室使用排气扇可以有效去除多余的湿气和气味，而战略性放置的风扇可以帮助将新鲜空气分配到整个家庭。这种主动的空气管理方法可以导致更健康的生活环境和更高的能源效率。除了增强舒适性和空气质量外，辅助通风还可以有助于节能。通过优化现有通风系统的使用并减少对供暖和制冷设备的依赖，建筑物可以实现更好的能源性能。这在可持续设计的背景下尤其相关，目标是最小化能源消耗，同时最大化居住者的健康和舒适。有效的辅助通风系统可以通过确保引入新鲜空气而不会过度负担供暖或制冷系统，从而帮助实现这种平衡。然而，必须仔细考虑辅助通风的设计和实施。不良设计的系统可能会导致诸如气流、噪音，甚至如果管理不当而增加能源成本的问题。因此，与专业通风设计人员合作至关重要，以确保辅助通风解决方案根据建筑及其居住者的具体需求量身定制。总之，辅助通风作为现代建筑设计和环境管理的重要组成部分。通过提供额外的气流以补充主要通风系统，它增强了室内空气质量，促进了居住者的舒适，并有助于节能。无论是在商业还是住宅环境中，理解和有效实施辅助通风策略都可以导致更健康、更舒适和更可持续的室内环境。