Handbook of Turbomachinery, Second Edition

More documents

Recommendations

Info

7. E. Merigeault, ‘‘Les Turbines a Frottements ou Turbines Tesla,’’ Rev. Mecan., Juin: 534–544 (1914). 8. R. K. Warner, ‘‘The Design, Construction, and Testing of a Tesla Turbine,’’ M.S. Thesis, University of Maryland (1949). 9. H. B. Schroeder, ‘‘An Investigation of Viscosity Force in Air by Means of a Viscosity Turbine,’’ BAE Thesis, Rensselaer Polytechnic Institute, January (1950). 10. J. H. Armstrong, ‘‘An Investigation of the Performance of a Modified Tesla Turbine,’’ M.S. Thesis, Georgia Institute of Technology, June (1952). 11. R. C. North, ‘‘An Investigation of the Tesla Turbine,’’ Ph.D. Dissertation, University of Maryland (1969). 12. T. V. Vanne´rous, ‘‘Rotierende Scheiben fu¨r Luftvorwärmer mit Gebla¨sewirkung,’’ Allg. Wa¨rme-technik, 6: 257–262 (1955). 13. S. K. P. Young, ‘‘The Investigation and Analysis of the Tesla Turbine,’’ M.S. Thesis, University of Illinois (1957). 14. E. M. Gol’din, ‘‘Hydrodynamic Flow Between Separator Plates,’’ Izv. an SSSR., OTN, No. 7, pp. 80–88 (1957). 15. G. A. Tirskii, ‘‘Nonstationary Flow with Heat Transfer in a Viscous Incompressible Fluid Between Two Revolving Discs Accompanied by Fluid Influx,’’ Doklady Akad. Nauk., SSR, 119: 226–228 (1958). 16. E. L. Gruber, Jr., ‘‘An Investigation of a Turbine with a Multiple Disk Rotor,’’ M.S. Thesis, Department of Mechanical Engineering, Arizona State University, May (1960). 17. F. J. Smith, ‘‘An Investigation of a Disc Type Pump,’’ M.S. Thesis, Department of Engineering Science, Arizona State University, May (1960). 18. D. O. Chrismer, ‘‘An Investigation of a Disk Type Blower,’’ M.S. Thesis, Department of Mechanical Engineering, University of Houston, August (1960). 19. M. C. Breiter and K. Pohlhausen, ‘‘Laminar Flow Between Two Parallel Rotating Disks,’’ ARL 62–318, Aeronautical Research Laboratory, OSR, USAF, Wright-Patterson AFB, March (1962). 20. S. H. Hasinger and L. G. Kehrt, ‘‘Investigation of a Shear-Force Pump,’’ ASME Trans. J. Eng. Power, 85(3): 201–207 (1963). 21. W. Rice, ‘‘An Analytical and Experimental Investigation of Multiple Disk Pumps and Compressors,’’ ASME Trans. J. Eng. Power, 85: 191–198 (1963). 22. R. C. Perel’man and V. I. Polikovskii, ‘‘Theory of Disc-Type Pumps,’’ Izvestiya Acad. Sc. USSR OTH Energetika i Transport, 1: 101–112 (1963). 23. J.-L. Peube, ‘‘Sur l’Ecoulement Radial Permanent d’un Fluide Visqueux Incompressible Entre Deux Plans Paralle´les Fixes,’’ J. Mecanique, II: 377–395 (1963). 24. W. Rice, ‘‘An Analytical and Experimental Investigation of Multiple Disk Turbines,’’ ASME Trans. J. Eng. Power, 87: 29–36 (1965). 25. F. Kreith and J.-L. Peube, ‘‘E´coulement Entre Deux Disques Paralle´les en Rotation,’’ C. R. Acad. Sci. Paris, 260: 5184–5187 (1965). Copyright © 2003 Marcel Dekker, Inc.
26. E. Bakke, ‘‘Theoretical and Experimental Investigation of the Flow Phenomena Between Two Co-Rotating Parallel Disks with Source Flow,’’ Ph.D. Thesis, University of Colorado (1965). 27. F. Kreith, ‘‘Reverse Transition in Radial Source Flow Between Two Parallel Planes,’’ Phys. Fluids, 8: 1189–1190 (1965). 28. S. H. Hasinger, L. G. Kehrt, and O. T. Goksel, ‘‘Cavitation Tests with a High Efficiency Shear Force Pump,’’ ASME Proc., Symposium on Cavitation in Fluid Machinery, Chicago, Nov. 7–11, pp. 132–147 (1965). 29. J.-L. Peube and F. Kreith, ‘‘E´coulement Permanent d’un Fluide Visqueux Incompressible Entre Deux Disques Paralle´les en Rotation,’’ J. Mecanique, 5(2): 261–286 (1966). 30. D. Nendl, ‘‘Eine theoretische Betrachtung der Reibungsturbo-maschinen von Nikola Tesla,’’ Doktor-Ingenieurs Dissertation, Technischen Hochschule Aachen, July 12 (1966). 31. E. M. Gol’din, ‘‘Flow Stability Between Separator Plates,’’ Izv. an SSSR, Mekhanika Zhidkostei i Gasov, 1(2): 152–155 (1966). 32. L. Matsch and W. Rice, ‘‘An Asymptotic Solution for Laminar Flow of an Incompressible Fluid Between Rotating Disks,’’ ASME Trans. J. Appl. Mechanics, 35(1): 155–1559 (1968). 33. K. E. Boyd and W. Rice, ‘‘Laminar Inward Flow of an Incompressible Fluid Between Rotating Disks, with Full Peripheral Admission,’’ ASME Trans. J. Appl. Mechanics, 35(2): 229–237 (1968). 34. M. Ko¨hler, ‘‘Die Stro¨mung durch das Spaltelement einer Reibungs-pumpe,’’ Doktor-Ingenieurs Dissertation, University of Karlsruhe, July 9 (1969). 35. R. G. Adams and W. Rice, ‘‘Experimental Investigation of the Flow Between Corotating Disks,’’ ASME Trans. J. Appl. Mechanics, 37(3): 844–849 (1970). 36. M. Ko¨hler, ‘‘Die Stro¨mung durch das Spaltelement einer Reibungs-pumpe,’’ Stro¨mungsmechanik und Stro¨mungamaschinen, 9: 24–45 (1971). 37. M. Ko¨hler, ‘‘Die Stro¨mung swischen zwei parallelen rotierenden Scheiben,’’ Acta Mechan., 12: 33–51 (1971). 38. B. E. Boyack and W. Rice, ‘‘Integral Method for Flow Between Corotating Disks,’’ ASME Trans. L. Basic Eng., 93: 350–354 (1971). 39. V. I. Misiura and L. D. Dronov, ‘‘Comparison of the Experimental Characteristics of Disk-type and Rotodynamic Centrifugal Pumps,’’ Aviatsionnaia Tekhnika, 15(1): 146–149 (1972). 40. V. I. Misyura, ‘‘Laminar Flow of an Incompressible Liquid Between Two Rotating Discs,’’ Izv. Akad. Nauk SSSR, Mekhanika Zhid. Gaza, 5: 178–183 (1972). 41. D. Nendl, ‘‘Eine Theoretische Betrachtung der Tesla-Reibungs-pumpe,’’ VDI- Forsch.-Heft 527, pp. 29–36 (n.d.). 42. D. Nendl, ‘‘Reibungsturbine,’’ VDI-Berichte Nr. 193, pp. 287–293 (1973). 43. G. Dibeluis and D. Nendl, ‘‘Reibungsturbomaschinen,’’ Nr. 2348, Lehrstuhl und Institut fu¨r Dampf-und Gasturbinen der Rhein.-Westf. Techn. Hochschule Aachen (1973). Copyright © 2003 Marcel Dekker, Inc.
Page 1 and 2: 14 Tesla Turbomachinery Warren Rice
Page 3 and 4: press at the time of the invention
Page 5 and 6: can be made to simplify the equatio
Page 7 and 8: comparison of the results of variou
Page 9: y composing them of nested cones ra
Page 13 and 14: 61. M. Piesche, ‘‘Investigation

Handbook of Turbomachinery, Second Edition

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?