An Active Absorbent for Cleanup of High-Concentration Strong Acid and Base Solutions

Authors
Han, NaraPark, SolKaang, Byung KwonJang, WooreeKoo, Hye YoungChoi, Won San
Issue Date
2019-10
Publisher
MDPI
Citation
MATERIALS, v.12, no.20
Abstract
There is significant interest in developing novel absorbents for hazardous material cleanup. Iron oxide-coated melamine formaldehyde sponge (MFS/IO) absorbents with various IO layer thicknesses were synthesized. Various other absorbents were also synthesized and compared to evaluate the absorption capability of the MFS/IO absorbents for strong acid (15%, v/v) and base (50%, m/m) solutions. Specifically, absorbent and solution drop tests, dust tests, and droplet fragment tests were performed. Among the various absorbents, MFS/IO absorbents possessing a needlelike surface morphology showed several unique characteristics not observed in other absorbents. The MFS/IO absorbents naturally absorbed a strong base solution (absorption time: 0.71-0.5 s, absorption capacity: 10,000-34,000%) without an additional external force and immediately absorbed a strong acid solution (0.31-0.43 s, 9830-10,810%) without absorption delay/overflow during absorbent and solution drop tests, respectively. The MFS/IO absorbents were also demonstrated to be ideal absorbents that generated fewer dust particles (semiclass 1 (ISO 3) level of 280 piece/L) than the level of a clean room (class 100). Furthermore, the MFS/IO absorbents were able to prevent the formation of droplet fragments and solution overflow during the solution drop test due to their unique surface morphology and extremely high absorption speed/capacity, respectively.
Keywords
CONDUCTIVE CARBON AEROGELS; OIL/WATER SEPARATION; COPPER-MESH; WATER; MEMBRANES; CATALYSTS; CONDUCTIVE CARBON AEROGELS; OIL/WATER SEPARATION; COPPER-MESH; WATER; MEMBRANES; CATALYSTS; chemical absorbents; iron oxide; strong acid and base; drop test; dust test
ISSN
1996-1944
URI
https://pubs.kist.re.kr/handle/201004/119547
DOI
10.3390/ma12203389
Appears in Collections:
KIST Article > 2019
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