Table 5.
Application of transition metal-based SS catalyst in VOCs emission control
| Catalyst | Contaminant | Concentration /(ppm) | Atmosphere | GHSV /(h−1) | Flow rate /(mL·min−1) | T90 /(℃) | Ref |
|---|---|---|---|---|---|---|---|
| MnOx/SS | Ethyl acetate | 1000 | Air | 3,000 | 300 | 380 | Duran et al.(2011) |
| FeCe-WO3/WM | Propylene + butene | 2500 + 2500 | 10% O2 + N2 | 40,000 | - | 300 | Porsin et al. (2016) |
| MnOx-FeCrAl | Ethyl acetate | 1000 | - | 3000 | - | 192 | Santos et al. (2020) |
| Co3O4@SSM | Formaldehyde | 400 | Air | 100 | 120 | Li et al. (2021) | |
|
V2O5/TiO2 /Al2O3/WMH |
1,2—dichlorobenzene | 500 | Air | 2000 | 240 | Yang et al.(2003) | |
| 10%Cu-LTA/PSSF | Acetone | 1500 | Air | 300 | Zhou et al. (2017) | ||
| Co3O4@SSGM | Propylene | 10,000 | 5% O2 + Ar | 45,000* | 15 | 380 | Kouotou et al.(2016) |
| n-butene | 400 | ||||||
| Mn-GAC/PSSF | MEK | 2000 | Air | - | 200 | 280 | Luo et al. (2019) |
| Co-Mn@SS | Ethanol | 770 | Air | 20,000* | 244 | Topka et al. (2022) | |
| Co3O4/SSM | Ethanol | 760 ± 10 | Air | 21,000 ± 1000* | 250 | Dvorakova et al. (2019) | |
| Co3O4/PSSF | Isopropanol | 1000 | Air | 15,000 | 281 | Yan et al. (2022) | |
| Cr/ZSM-5/ PSSF | trichloroethylene | 125 | Air | 19,863 | 495 | Zhang et al. (2020) |
*Weight hourly space velocity, ml·gcat−1·h.−1