Technologies for control of indoor air quality are very important to ensure that health and comfort conditions are attained in closed environments. The indoor air quality market is fertile ground for adsorption technologies, both at larger industrial scale and for residential uses. The common strategy to design adsorption technologies considers constant inlet conditions, while for most indoor air control applications, the inlet conditions will change because of the partial removal of the contaminant. This work presents a generic modelling approach, where the adsorption technology is coupled with the indoor environment to be controlled. This approach enables a tailored and more accurate process design and additionally, it can also assist in the physical location of the removal unit and sensors to control its operation. Two different examples of application of this methodology are provided: control of CO₂ in tightly closed environments and "peak shaving" of water vapor in bathrooms.

室内空气质量控制技术对于确保在封闭环境中获得健康和舒适条件非常重要。室内空气质量市场是吸附技术的沃土，无论是在更大的工业规模还是住宅用途。设计吸附技术的常用策略考虑恒定的入口条件，而对于大多数室内空气控制应用，入口条件会因为污染物的部分去除而改变。这项工作提出了一种通用的建模方法，其中吸附技术与要控制的室内环境相结合。这种方法可以实现量身定制和更准确的工艺设计，此外，它还可以帮助确定移除单元和传感器的物理位置以控制其操作。₂在紧密封闭的环境中和浴室中的水蒸气“调峰”。