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Diagnostics Under Thermal Plasma Conditions

Published online by Cambridge University Press:  15 February 2011

P. Fauchais
Affiliation:
Equipe Thermodynamique et Plasmas, Laboratoire Ceramiques Nouvelles LA 320 Université de Limoqes, France
J.F. Coudert
Affiliation:
Equipe Thermodynamique et Plasmas, Laboratoire Ceramiques Nouvelles LA 320 Université de Limoqes, France
A. Vardelle
Affiliation:
Equipe Thermodynamique et Plasmas, Laboratoire Ceramiques Nouvelles LA 320 Université de Limoqes, France
M. Vardelle
Affiliation:
Equipe Thermodynamique et Plasmas, Laboratoire Ceramiques Nouvelles LA 320 Université de Limoqes, France
J. Lesinski
Affiliation:
Equipe Thermodynamique et Plasmas, Laboratoire Ceramiques Nouvelles LA 320 Université de Limoqes, France
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Abstract

A number of diagnostics problems in the low temperature plasma generators have been analysed with special attention to the plasma spraying process, and a general approach to these problems has been proposed. The advantages, difficulties and limitations of optical nonintrusive methods have been discussed. Examples based on authors experience during last few years, are given.

Type
Research Article
Copyright
Copyright © Materials Research Society 1984

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References

REFERENCES

1. Vardelle, A., Fauchais, P., Vardelle, M. - Actualité Chimigue 10, (1981) 69 Google Scholar
2. Apelian, D., Palciwal, M., Smith, R.W., Schilling, W.F. - Melting and solidification in plasma spray deposition - internal Report R, G.E. and Schnectady, D (N.Y.) (1983)Google Scholar
3. Fey, M.G. - Electric Arc Plasma Heater for Process Industries, Ind. Heat, June (1976)Google Scholar
4. Camatcho, S.L. - Tech. Applications Services Corp. Raleigh N.C., U.S.A., “Plasma arc torches for industrial applications” Workshop on Industrial Plasma Developments, Univ. of Sherbrooke, July 21–23 (1983). The corresponding papers have to be asked to the authors.Google Scholar
5. Hartman, J. - Accurex Corp., Mountain View, CA, U.S.A. cf. /4/Google Scholar
6. Labrot, M. - Aerospatiale, Saint Medard en Jalles, France, “High power plasma torch development”, cf /4/Google Scholar
7. Muller, R. - Chemishe Werke Hüls, Marl, West Germany “The Hüls Arc Process” cf“4”Google Scholar
8. Santen, S. - SKF Steel Engineering AB, Hofors, Sweden, “Plasma Smelting” cf /4/Google Scholar
9. Monk, J.R. - “Application of plasma to metallurgical processes”, Vth Int. Symp. on Plasma Chem. (Ed.) Waldie, B. Univ. of Edinburgh, GB Google Scholar
10. Barcza, N.A. - Mintek, Randburg, South Africa “Application of transferred arc plasma to the melting of metal fines” cf/4/Google Scholar
11. Rowdachyov, A.S., Meerson, G.I., Khotin, V.A., Okorokov, G.N. - “Design of ceramic crucible plasma furnaces and operating results UIE 9 Cannes 20–24 /10/80 (ed.) CFE, 79 rue Miromesnil, Paris, FranceGoogle Scholar
12. First report on measurement of temperature and concentration of excited species in optically thin plasma. I.U.P.A.C. Plasma Chemistry Subcomittee, (eds) Fauchais, P., University of Limoges, France, K. Lapworth N.P.L. Teddington G.R. (1979)Google Scholar
13. Barr, W.L. - J. Opt. Soc. Am, 52, 885, (1962)Google Scholar
14. Cremers, C.J. and Birkeback, R.C. - Appl. Opt. 5, 1057, (1966)Google Scholar
15. Deutsh, M., Beniamiry, I. - J. Appl. Phys. 54, (1), 137, (1983)Google Scholar
16. Deutsh, M. - Appl. Phys. Lett. 42, (3), 837, (1983)Google Scholar
17. Wetzer, J.M. - I.E.E.E. Transaction in Plasma Science, Vol. PS-11, No 2, 1983 Google Scholar
18. Gravelle, D., Beaulieu, M., Carlone, C., Boulos, M. - I.S.P.C. 1-4-3, Proceeding p. 108, Montreal July 1983Google Scholar
19. Venarle, W.H., Shumaker, J.B. - J.O.S.R.T. 9, 1215, (1969)Google Scholar
20. Baronnet, J.M. - These d'Etat, Université de Limoges, France Nov(1978)Google Scholar
21. Etemadi, K., Peender, E. - Rev. Sci. Instrum. 53 (2), 255, (1982)Google Scholar
22. Mehmetogly, M.T., Kitzinger, F., Gauvin, W.H. - Rev. Sci. Instrum. 53, (2), 285, (1982)Google Scholar
23. Drawin, H.W. - Reactions under plasma conditions, (ed) Venugopalan, M., Wiley Interscience (1971)Google Scholar
24. Eddy, T.L. - I.E.E.E. Trans. Plasma Science, PS-4, 103111, (1976)Google Scholar
25. Griem, H.R.- Plasma Spectroscopy, Mc Graw Hill (1964)Google Scholar
26. Griem, H.R. - Spectral line broadening by plasmas, Academic Press (1974)Google Scholar
27. Coudert, J.F., Baronnet, J.M., Catherinot, A., Fauchais, P. - 7th International Conference on Gas Discharges and their applications, London 31st Aug. 3rd Sept. 1982, Processing, p. 523Google Scholar
28. Coudert, J.F., Baronnet, J.M., Fauchais, P. - I.S.P.C. 6 A-4-2, Montreal July (1983) Proceedings p. 102Google Scholar
29. Daily, J.W. - Applied Optics, 15 (1976) 955,Google Scholar
16 (1977) 568,Google Scholar
17 (1978) 225Google Scholar
30. Crosley, D.R. - ed. “Laser probes for combustion chemistry” A.C.S. Symposium Series 134 (1979)Google Scholar
31. Lucht, R.P., Laurendeau, N.M., App. Opt. 18 (1979) 856 21 1982 3729,Google Scholar
32. Stepowsky, D., Cotterran, M.J. - J. Chem. Phys. 74 (12) (1981) 6674 Google Scholar
33. Bradshaw, J.D., Omenetto, N., Bower, J.N., Winefordner, J.D. - App. Opt. 19 (1980) 2709 Google Scholar
34. Grieser, D.R., Barnes, R.H. - App. Opt. 19 (1980) 741 Google Scholar
35. Zizak, G., Bradshaw, J.D., Winefordner, J.O. - App. Opt. 19 (1980) 3631 Google Scholar
36. Ozaki, T., Matsui, Y., Ohsawa, T. - J. Appl. Phys. 52 (4) 1971 Google Scholar
37. Alden, M., Edner, H., Holmstedt, G., Svanberg, S., Hugberg, T. - App. Opt. 21 (1982) 1236 Google Scholar
38. Coudert, J.F., Catherinot, A., Raronnet, J.M. - I.S.P.C. 6, A-4-1, Montreal July (1983), Proceeding p. 97Google Scholar
39. Hantzsche, H., Proc. 7th Int. Conf. on Metalisation Londonpaper 15(1973) Google Scholar
40. Shimanovich, V.D., Shipai, A.K., Soloviov, B.M., Puzriakov, A.F., Proc. Conf. Fizika, Technika Primenenije Nizkotemperaturnoj Plazmy, Alma-Ata, USSR, p. 209 (1970)Google Scholar
41. Antonov, G.S., Loskutov, V.S., Soloviov, B.M., Shimanovich, F.D., Shipai, A.K., “Generatory Nizkotemperaturnoj Plazmy” (Energia, Moskow, USSR) p. 490 (1969)Google Scholar
42. Nikolaiev, A.V., “Generatory Nizkotemperaturnoj Plazmy” (Energia, Moskow, USSR) p. 579 Google Scholar
43. Charettf, A., Meurus, P., Rev. Int. Hautes Temper. Refract., 17, 45, (1980)Google Scholar
44. Gurevich, M.A., Dresvin, S.V., Kalganova, J.V., Klubnikin, V.S., Nizkovski, A.A., “Voprosy Fiziki Nizkotemperaturnoj Plazmy”, (Nauka j Technika, Minsk, USSR) p. 580 (1970)Google Scholar
45. Dresvin, S.V., Kalganova, J.V., Proc. Conf. Fizika, Technika i Primenenije Nizkotemperaturnoj Plazmy, Alma-Ata, USSR, p. 617 (1970)Google Scholar
46. Dresvin, S.V., Kalganova, J.V., Proc. Conf. Fizika, Technika i Primenenije Nizkotemperaturnoj Plazmy, Alma-Ata, USSR, p. 617 (1970)Google Scholar
47. Gurfvich, M.A., Steinberg, V.B., J. Techn. Phys. USSR, XXVII 394 (1958)Google Scholar
48. Popov, A.V., Sixth International Symposium on Combustion, Newhaven, Connecticut (1956)Google Scholar
49. English, P.E., Acta Imeco, p. 469 (1967)Google Scholar
50. Kruszewska, B., Lesinski, J., Revue de Physigue Appliguée, 12, 1209 (1977)Google Scholar
51. Vardelle, A., Baronnet, J.M., Vardelle, M., Fauchais, P., IEEE transactions on plasma science PS-8, 417 (1980)Google Scholar
52. Meurus, P., Elayoubi, ISPC 6 proceedings edited by M. Boulos and R.J. Munz, Univ. de Sherbrook, CN, 24–28 July (1983)Google Scholar
53. Lemoine, A., Le Goff, P., Rev. Gen. thermigue, 85, 3348 (1969)Google Scholar
54. Lemoine, A., Le Goff, P., Chimie et industrie - Génie chimigue, 102, 13041311 (1969)Google Scholar
55. Lewis, A., Gauvin, W.H., J. of the society of motion picture and television engineers 80, 951958 (1971)Google Scholar
56. Waldie, B., Velocity measurements in and around the coil region of an induction plasma. International round table on study and application of transport phenomena in thermal plasma. Conference Proceedings. Laboratoire des Ultra-réfractaires du C.N.R.S., Odeillo, 12–16 Sept. 1975 Google Scholar
57. Andre, M., les techniques de cinématographie ultra-rapide. Rapport CEA, Centre de Limeil France 1977 Google Scholar
58. Frind, G., Goody, C.P., Prescott, L.P., Proceedings of 6th international symosium on plasma chemistry edited by M. Boulos and J. Munz, 24–28 july 1983, Montreal pp. 120125 Google Scholar
59. Durst, F., Melling, A., Whitflaw, J.H. - Principles and practise of laser doppler anemometry. Academic Press 1976Google Scholar
60. Watrasiewiszi, R.M., Rudd, M.J. - Laser doppler measurements, Butterworths and al. 1976Google Scholar
61. Durrani, T.S., Greated, C.A. - laser systems in flow measurements, Plenum Press 1977Google Scholar
62. Gouesbet, G., “Particles velocity and diameter measurements under plasma conditions” to be published by IUPAC Plasma Chemistry SubcomitteeGoogle Scholar
63. Gouesbet, G., Trinite, M., in Heat and Mass Transfer. 4, 141, (1977)Google Scholar
64. Gouesbet, G., Trinite, M., J. Phys. E : Sci. Instr. 10, 1009, (1977)Google Scholar
65. Lesinski, J., Mizera-Lesinska, B., Fanton, J.C. and Roulos, M.I., LDA measurements under plasma conditions. 4th International Symposium on Plasma Chemistry. University of Zurich. Aug. 27/Sept. 1, 1979Google Scholar
66. Lesinski, J., Mizera-Lesinska, B., Jurewicz, J. and Boulos, M., Particle and gas velocity measurements in a d.c. plasma jet. Presented at the plasma chemical processing session of the 88th AIChE National Meeting, Philadelphia. Pennsylvania. June 8–12, 1980Google Scholar
67. Durst, F. and Tropea, C., Digital processing of LDA-signals by means of a transient recorder and a computer. Proceedings of theGoogle Scholar
68. LDV-conferences, Vaessen, P.H.M., Kroesen, G.M.W., Schram, D.C., Proceedings of the 6th International symposium on plasma chemistry 24–28 Montreal (1983) paper A-4–7Google Scholar
69. Pike, E.R., p. 246 in Photon Correlation Spectrometry and Velocimetry, Plenum Press, New-York, 1977Google Scholar
70. Birch, A.D., Brown, D.R. and Thomas, J.R., Journal of Phys. D 8, 438, 1975 Google Scholar
71. Vardelle, M., Vardelle, A., Baronnet, J.M., Fauchais, P., 4th International symposium on plasma chemistry Zurich (1979) proceedings edited by Veprieck, S. and Hutz, J., Univ. of Zurich, CHGoogle Scholar
72. Oldschmidt, V.M., “Proceedings of the dynamic flow conference” “Measurements in two phase flow”, Institut de mécanigue statistigue de la turbulence, Marseille 289–319 (1978)Google Scholar
73. Gouesbet, G., Grehan, G., 4th international symposium on plasma chemistry Zurich August 27 - Sept. 1st (1979) p. 603 “laser doppler systems for plasma diagnostics : a review and prospective paper”Google Scholar
74. Farmer, W.M., Proceedings of the dynamic flow conference, Institut de mécanigue statistigue de la turbulence, Marseille 373, 396 (1978) “Measurement of particle size and concentration using LDV techniques”Google Scholar
75. Durst, F., Eliason, B., Proceedings of the LDA symposium, university of Denmark (1975) “Properties of laser doppler signals and their exploitation for particle size measurements”Google Scholar
76. Yule, A.J., Chigier, N.A., Atakan, S. and Ungut, A., J. Energgy, 1, 4, 220, 1977 Google Scholar
77. Ungut, A., Yule, A.J., Taylor, D.S. and Chigier, N.A., AIAA 16th Aerospace Sciences Meeting, Huntsville, Alabama, January 16–18, 1978Google Scholar
78. Chigier, N.A., Ungut, A. and Yule, A.J., Particle size and velocity measurement in flames by laser anemometer. 17th Symposium (International) on Combustion. Leeds University. August 20–25, 1978Google Scholar
79. Wu, J.- J. of applied optics 16, 3, 596600 (1977)Google Scholar
80. Chou, H.P., Waterson, R.M. - LDA symposium, technical university of Denmark, Lyngby, Denmark (1975)Google Scholar
81. Gravatt, C.C. - J. of the air pollut. contr. assoc. 23, 12, (1973)Google Scholar
82. Hirleman, E.D. - Optics lett. 3, 1921, (1978)Google Scholar
83. Lombard, D., Vardelle, M., Fauchais, P. - To be published in Advances in ceramics, volume 4.Google Scholar