1 / 43

FIGURE 9-1

FIGURE 9-1. Packed tower air stripper. FIGURE 9-2 Two- film theory. FIGURE 9-3 Differential section. FIGURE 9-4 An air stripping unit. FIGURE 9-5. Generalized pressure drop. correlations. FIGURE 9-6. Schematic of carbon contactor. FIGURE 9-7 Carbon contactors. FIGURE 9-8

rudolf
Download Presentation

FIGURE 9-1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. FIGURE 9-1 Packed tower air stripper.

  2. FIGURE 9-2 Two- film theory.

  3. FIGURE 9-3 Differential section.

  4. FIGURE 9-4 An air stripping unit.

  5. FIGURE 9-5 Generalized pressure drop correlations.

  6. FIGURE 9-6 Schematic of carbon contactor.

  7. FIGURE 9-7 Carbon contactors.

  8. FIGURE 9-8 Schematic of activated carbon adsorption systems.

  9. FIGURE 9-9 Transport processes.

  10. FIGURE 9-10 Carbon adsorption breakthrough Curve showing movement of an adsorption zone.

  11. FIGURE 9-11 Laboratory breakthrough curves.

  12. FIGURE 9-12 Bed-depth service time curves corresponding to Table 9-4.

  13. FIGURE 9-13 Atmospheric pressure steam stripping column.

  14. FIGURE 9-14 Vacuum steam stripper.

  15. FIGURE 9-15 Mass transfer across trays.

  16. FIGURE 9-16 Construction of McCabe- Thiele diagram.

  17. FIGURE 9-17 Completed McCabe-Thiele diagram.

  18. FIGURE 9-18 Design curve—constant bottoms concentration.

  19. FIGURE 9-19 Plate types.

  20. FIGURE 9-20 Equipment arrangement for a typical UV/H2O2 system.

  21. FIGURE 9-21 Destruction of chlorinated organics by ozone with and without UV radiation.

  22. FIGURE 9-22 Reaction of ozone in aqueous solution.

  23. FIGURE 9-23 Degradation of phenol by ozone.

  24. FIGURE 9-24 Control of H2O2 dosage by ORP.

  25. FIGURE 9-25 Decomposition of trichlorethylene with H2O2, UV and H2O2 UV.

  26. FIGURE 9-26 Destruction of halogenated aliphatics by H2O2 +UV at 20C.

  27. FIGURE 9-27 Control of cyanide destruction by ORP.

  28. FIGURE 9-28 Schematic diagram of an SCF process for extracting organic compounds from water using CO2.

  29. FIGURE 9-29 Process schematic diagram for SCF oxidation of an aqueous waste.

  30. FIGURE 9-30 Pressure temperature phase diagram for water.

  31. FIGURE 9-31 Variation in reduced density (ρR ) near the critical point for a pure compound.

  32. FIGURE 9-32 Generalized reduced viscosities.

  33. FIGURE 9-33 Properties of water at 250 atm.

  34. FIGURE 9-34 Operation of electrodialysis systems.

  35. FIGURE 9-35 Schematic of electrodialysis system.

  36. FIGURE 9-36 Three-compartment electrodialysis cell.

  37. FIGURE 9-37 Pickle liquor recovery process.

  38. FIGURE 9-38 Pictorial explanation of reverse osmosis.

  39. FIGURE 9-39 Flow diagram for a reverse osmosis system treating plating rinsewater.

  40. FIGURE 9-40 Reverse osmosis unit.

  41. FIGURE 9-41 Batch and continuous ultrafiltration operations.

  42. FIGURE 9-42 Verification of the solute permeation model for Tomhannock natural organic matter (NOM).

  43. FIGURE 9-43 The effect of operation protocol on aggregate permeate concentration and mass throughput (molecular weight separation).

More Related