Research Article
Kinetic Study of the Bioadsorption of Methylene Blue on the Surface of the Biomass Obtained from the Algae D. antarctica
Table 5
Comparison of the adsorption capacity of MB on the surface of the biomass obtained from the algae D. antarctica and other compounds.
| | Compound | qe (mg/g) | T (°C) | Concentration range (mg/L) | Time (min) | Reference |
| | Mesoporous activated carbon | 200.0 | 30 | 25–250 | 1440 | [49] | | GO/silicates | 230 | 20 | 40–120 | 100 | [50] | | Nonionic surfactant modified montmorillonite | 740.7 | 25 | 100 | 180 | [51] | | Fe3O4@SiO2@CS-TETA-GO | 529.1 | 30 | 1000 | 20 | [11] | | Cellulose nanocrystal | 217.4 | 30 | 50–400 | 300 | [52] | | TDAW | 285.7 | 25 | 40–1000 | 120 | [53] | | κ-carrageenan/graphene oxide gel beads | 658.4 | 25 | 100–800 | 1440 | [54] | | Chitosan flakes | 143.5 | 50 | 25–400 | 420 | [4] | | Algae Gelidium | 171 | | 40–800 | 160 | [55] | | Defatted algal biomass | 7.8 | 25 | 1–5 | 60 | [56] | | Defatted Laminaria japonica biomass modified by sulfuric acid | 549.45 | 35 | 20–250 | 60 | [57] | | Durvillaea antarctica | 702.9 | 25 | 25–1400 | 540 | This work |
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