Figures index

From

Biodegradation of Phenol by Microbacterium terregenes Isolated from oil field NORM SOIL

A. S. Abdel-Razek, B. M. Refaat, E. H. Abdel-Shakour, R. Zaher, M. K. Mohamed

Journal of Applied & Environmental Microbiology. 2015, 3(3), 63-69 doi:10.12691/jaem-3-3-1
  • Figure 1. spectrum of soil sample; a) samples A & B , b) background
  • Figure 2. Removal% of phenol by M. terregenes at different pH values, T= 30 °C, phenol concentration 0.3 g/l and stirring 120rpm
  • Figure 3. Removal% of phenol by M. terregenes at different incubation temperature values, pH 7.0, phenol concentration 0.3 g/l and stirring 120 rpm
  • Figure 4a. Removal % of phenol by CA immobilized M. terregenes at different phenol concentrations, T=30°C, pH 7.0 and stirring 120 rpm
  • Figure 4b. Phenol degradation capacity in mg/g dry wt. at different phenol concentrations, pH 7.0, T= 30 °C and stirring 120 rpm
  • Figure 5a. Removal % of phenol by CA immobilized M. terregenes at different immobilized weights using phenol concentration 0.3 g/l, T= 30 °C, pH 7.0 and stirring 120 rpm
  • Figure 5b. Phenol degradation capacity in mg/g dry wt. at different immobilized biomass weights, pH 7.0, T= 30°C and stirring 120 rpm
  • Figure 6. Removal % of phenol by CA immobilized M. terregenes in the presence of different Co+2 concentrations using phenol concentration 0.15g/l, pH7.0, T=30°C and stirring 120rpm
  • Figure 7. The uptake % of Co2+ by control CA-beads, CA immobilized M. terregens in absence and presence of phenol 0.15g/l at different Cobalt concentrations after equilibrium (2 h).
  • Figure 8. The uptake % of Cu2+ by control CA-beads, CA immobilized M. terregens in absence and presence of phenol 0.15g/l at different Copper concentrations after equilibrium (2 h)