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MASS TRANSFER IN MULTIPHASE SYSTEMS: VOLATILE ORGANIC COMPOUND REMOVAL IN THREE-PHASE SYSTEMS References Anderson, J.D. Computational Fluid Dynamics. McGraw-Hill, 1995. Ashworth, S.C. Lopez, D.A. Design for VOC Control for the TSF-09/18 V-Tank Remedial Action, EDF- 4956 Rev. 1. EDF, Idaho Falls,ID: Idaho National Laboratory, 2004. Bird, R.B., Stewart, W.E., Lightfoot, E.N. Transport Phenomena. John Wiley & Sons, 1960. Braida, W., Ong, S.K. "Influence of Porous Media and Airflow Rate on the Fate of NAPLs Under Air Sparging." Transport in Porous Media 38, 2000: 29-42. Chrysikopoulos, C.V., Hsuan, P., Fyrillas, M.M., Lee, K.Y. "Mass Transfer Coefficient and Concentration Boundary Layer Thickness for a Dissolving NAPL Pool in Porous Media." Journal of Hazardous Materials B97, 2003: 245-255. Chrysikopoulos, C.V., Kim, T.J. "Local Mass Transfer Correlations for Nonaqueous." Transport in Porous Media 38, 2000: 167-187. EPA, U.S. "APPENDIX K, Soil Organic Carbon (Koc) / Water (Kow) Partition." http://www.epa.gov/superfund/health/conmedia/soil/pdfs/appd_k.pdf. Fishwick, R. P., Winterbottom, J. M., Stitt, E. H. "Effect of Gassing Rate on Solid–Liquid Mass Transfer Coefficients and Particle Slip Velocities in Stirred Tank Reactors." Chemical Engineering Science 58, 2003: 1087-1093. Harnby, N., Edwards, M.F., Nienow, A.W. Mixing in the Process Industries, 2nd ed. Butterworth- Heinemann, 1992. Hemond, H.F., Fechner, E. J. Chemical Fate and Transport in the Environment. Academic Press, 1994. Höcker, H., G. Langer, U. Werner. "Mass Transfer in Aerated Newtonion and Non-Newtonion Liquids in Stirred Reactors." Ger. Chem. Eng. 4, 1981: 51-62. Idaho National Laboratory. Air Stripping Radioactive Solids. Internal, confidential, Idaho Falls: INL, 2005. Levenspiel, O. Chemical Reaction Engineering, 2nd ed. Wiley, 1972. Montgomery, J.H., Welkom, L.M. Groundwater Chemicals Desk Reference. Chelsea Michigan: Lewis Publishers, Inc., 1991. Muroyama, K., Nakade, T., Goto, Y., Kato, T. "Wall-to-Liquid Mass Transfer in a Gas–Slurry Transport Bed." Chemical Engineering Science 56, 2001: 6099–6106. Oldshue, J.Y. Fluid Mixing Technology, Chemical Engineering. McGraw-Hil, 1983. Perry, R.H., Green, D.W. Perry’s Chemical Engineers’ Handbook, 7th ed. McGraw-Hill, 1997. 39
MASS TRANSFER IN MULTIPHASE SYSTEMS: VOLATILE ORGANIC COMPOUND REMOVAL IN THREE-PHASE SYSTEMS Poe, S.H., Valsaraj, K.T., Thibodeaux L.J. and Springer, C. "Equilibrium Vapor Phase Adsorption of Volatile Organic Chemicals on Dry Soils." Journal of Hazardous Materials, 19, 1988: 17-32. RCRA. 42 USC 6901 et seq. (United States Congress, 1976). Sander, Rolf. "Compilation of Henry’s Law Constants for Inorganic and." http://www.mpchmainz.mpg.de/~sander/res/henry.html. April 8, 1999. Sherwood, T.K. "AIChE Meeting." 1939. SKC. MiniRAE 2000. January 25, 2010. http://www.skcinc.com/prod/730-0201-000.asp (accessed 2007). Thibodeaux, L.J. Chemodynamics, Environmental Movement of Chemicals in Air, Water, and Soil. John Wiley and Sons, 1979. Treybal, R.E. Mass-Transfer Operations. McGraw-Hill Classic Reissue, 3rd ed., 1987. U.S. "42 USC 6901 et seq." Resource Conservation Recovery Act. United States Library of Congress, 1976. Valentin, F.H.H. "Mass Transfer in Agitated Tanks." Progress Review, Vol. 12, No. 8, 1967. Valsaraj, K.T. Elements of environmental engineering: thermodynamics and kinetics. CRC Press, Inc., 1995. Van’t Riet, K. "Review of Measuring Methods and Results in Non-Viscous Gas-Liquid Mass Transfer in Stirred Vessels." Ind. Eng. Chem. Des. Dev., Vol. 18, No. 3, 1979. Yagi, H., Yoshida, F. "Gas Adsorption by Newtonion and Non-Newtonion Fluids in Sparged Agitated Vessels." Ind. Eng. Chem. Des. Dev., Vol. 14, No. 4, 1975. Zhao, B., Wang, J., Yang, W., Jin, Y. "Gas–Liquid Mass Transfer in Slurry Bubble Systems, I. Mathematical Modeling Based on a Single Bubble Mechanism." Chemical Engineering Journal 96, 2003: 23-27. Zlokarnik, M. "Sorption Characteristics for Gas-Liquid Contacting in Mixing Vessels." Advances in Biochemical Engineering, Vol. 8, Springer-Verlag, 1978. 40
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MASS TRANSFER IN MULTIPHASE SYSTEMS
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Samuel Clay Ashworth ALL RIGHTS RES
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CURRICULUM VITAE Samuel C. Ashworth
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model results using Polymath, Excel
Page 9 and 10: Lead process engineer and assistant
Page 11 and 12: Determination of Viable Processes f
Page 13 and 14: ACKNOWLEDGMENT The work within was
Page 15 and 16: 5.0 INTERPRETATIONS, CONCLUSIONS, A
Page 17 and 18: NOMENCLATURE a a,b, etc. Parameter
Page 19 and 20: Sh v Sherwood number Velocity, L/t
Page 21 and 22: TOTAL CREDITS IN GREENLEAF UNIVERSI
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Page 31 and 32: MASS TRANSFER R IN MULTIPHASE SYSTE
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