SRB Biofilm Growth Simulation: Effect of Sulfate Concentration and Fluid Flow Velocity

1. SRB Biofilm Growth Simulation: Effect of Sulfate Concentration and Fluid Flow Velocity

2. Model Description Simulation Strategy

3. Model Description Simulation Domain

4. Model Description Simulation Parameters 0.8 mm 3.2 mm

5. Model Description Simulation Parameters

6. SRB Biofilm Heterogeneity Effect of Sulfate Concentration (Low Re) Sulfate Concentration Increases

7. SRB Biofilm Heterogeneity Effect of Sulfate Concentration (High Re) Sulfate Concentration Increases

8. SRB Biofilm Heterogeneity Effect of Flow Velocity

9. SRB Biofilm Heterogeneity Effect of Flow Velocity

10. Heterogeneity Parameters Effect of Sulfate Concentration

11. Heterogeneity Parameters Effect of Sulfate Concentration

12. Heterogeneity Parameters Effect of Flow Velocity

13. Heterogeneity Parameters Effect of Flow Velocity

14. Mass Transfer Parameters Local Sherwood Number Sh

15. Mass Transfer Parameters Effect of Sulfate Concentration on Sh

16. Mass Transfer Parameters Effect of Flow Velocity on Sh

17. Mass Transfer Parameters Convection Flux vs. Diffusion Flux

18. Mass Transfer Parameters Convection Flux vs. Diffusion Flux Flow Velocity Increases

19. Mass Transfer Parameters Convection Flux vs. Diffusion Flux Sulfate Concentration Increases

20. Mass Transfer Parameters Mass Transfer Within Biofilm

21. Mass Transfer Parameters Mass Transfer Within Biofilm Flow Velocity Increases

22. Mass Transfer Parameters Mass Transfer Within Biofilm

23. Further Research 1 The function of Channels within SRB Biofilm Cavity Vortex Mass Transfer Sulfate/Substrate Pathway for Mass Transfer Should mass transfer and biofilm growth be coupled? Sulfide Inhibition Sulfide/Other Production Precipitation

24. Further Research 1 Total Sulfide Concentration Profile Re = 0.08 Re = 8 Re = 32

25. Reaction Parameters

26. Reaction Parameters

27. Further Research 2 The Effect of Re on and

28. Further Research 3 Strategy For High Sulfate Concentration Simulation Sensibility to Sulfate Concentration Limitation

29. Further Research 3 Strategy For High Sulfate Concentration Simulation The Cause of Concentration sensibility - Limited Penetration Depth

30. Further Research 3 Strategy For High Sulfate Concentration Simulation Limited Penetration Depth – Is it reasonable?

31. Further Research 3 Strategy For High Sulfate Concentration Simulation Limited Penetration Depth – Microbial Reaction Intensity √ √ √ √

32. Further Research 3 Strategy For High Sulfate Concentration Simulation Limited Penetration Depth – Microbial Reaction Intensity

33. Further Research 3 Strategy For High Sulfate Concentration Simulation Limited Penetration Depth – Maintenance Within The Bottom of Biofilm Sulfate/Substrate Deficiency Maintenance Decay Hydrolysis Void Inert Biomass EPS Precipitation Maintenance Product

34. Further Research 3 Strategy For High Sulfate Concentration Simulation Limited Penetration Depth – Maintenance Within The Bottom of Biofilm Multi-species CA Decay Hydrolysis Inert Biomass Void EPS Precipitation Maintenance Product

35. Further Research n • Sulfide Inhibition • Does sulfide influence heterogeneity structure ? • Could SRB be inhibited by the sulfide produced by themselves? • What factor influences the profile of different sulfide species in biofilm? • Precipitation • CA or iBM: Should precipitation be modeled as individual particles or just a percentage of a controlled volume? • Is there any interactive effect between sulfide, metal iron and SRB biofilm heterogeneity?