| Literature DB >> 25725340 |
Jun Young Yoo1, Chan Jung Park2, Ki Yeong Kim3, Youn-Suk Son4, Choong-Min Kang5, Jack M Wolfson5, In-Ha Jung6, Sung-Joo Lee6, Petros Koutrakis5.
Abstract
To obtain the optimum removal efficiency of NO2 and HONO by coated activated carbon (ACs), the influencing factors, including the loading rate, metal and non-metal precursors, and mixture ratios, were investigated. The NOx removal efficiency (RE) for K, with the same loading (1.0 wt.%), was generally higher than for those loaded with Cu or Mn. The RE of NO2 was also higher when KOH was used as the K precursor, compared to other K precursors (KI, KNO3, and KMnO4). In addition, the REs by the ACs loaded with K were approximately 38-55% higher than those by uncoated ACs. Overall, the REs (above 95%) of HONO and NOx with 3% KOH were the highest of the coated AC filters that were tested. Additionally, the REs of NOx and HONO using a mixing ratio of 6 (2.5% PABA (p-aminobenzoic acid)+6% H3PO4):4 (3% KOH) were the highest of all the coatings tested (both metal and non-metal). The results of this study show that AC loaded with various coatings has the potential to effectively reduce NO2 and HONO levels in indoor air.Entities:
Keywords: Activated carbon filter; Air cleaner; HONO; IAQ; Indoor air; NO(2)
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Year: 2015 PMID: 25725340 DOI: 10.1016/j.jhazmat.2015.02.038
Source DB: PubMed Journal: J Hazard Mater ISSN: 0304-3894 Impact factor: 10.588