Plant-Assisted Air-Conditioning Systems for A Better Tomorrow

Author

Newkirk, Dan ; Evans, Jamie S. ; Alraddadi, Osama S. ; Kelemen, Caroline G. ; Mietusch, Reinhard ; Yu Xue ; Rajkhowa, Bhargav

Volume

34

Issue

1

fYear

2015

fDate

Jan.-Feb. 2015

Firstpage

11

Lastpage

17

Abstract

Biofiltration to remove contaminants from the air has a long history, dating to early research about how to safely maintain deep space flight. Recently, several research teams have used this body of work to apply biofiltration to the heating, ventilating, and air conditioning (HVAC) systems of buildings. A plant-based air filtration system called the biowall has been developed as a method to maintain high levels of indoor air quality (IAQ) without losing energy efficiency. In this design, various plants are integrated into the ventilation system. As a byproduct of plant growth, CO₂ and volatile organic compounds (VOCs) are removed from the air and oxygen is added. This system allows conditioned air to remain in the building and avoids energy losses due to thermal mixing in conventional ventilation systems.

Keywords

HVAC; air cleaners; air quality; botany; building management systems; carbon compounds; filtration; organic compounds; CO₂; HVAC systems; IAQ; VOCs; biofiltration; biowall; contaminant removal; deep space flight; energy efficiency; energy losses; heating-ventilating-and air conditioning systems; indoor air quality; plant growth byproduct; plant-assisted air-conditioning systems; plant-based air filtration system; volatile organic compounds; Air conditioning; Atmospheric modeling; Biological system modeling; Buildings; Filtration; Meteorology;

fLanguage

English

Journal_Title

Potentials, IEEE

Publisher

ieee

ISSN

0278-6648

Type

jour

DOI

10.1109/MPOT.2014.2358911

Filename

7001784