APPLIED ELECTROSTATIC STUDIESOF SENICHI MASUDA
Table of Contents
Preface J.S. Chang and T. Oda
Ch.1 ELECTROSTATIC PRECIPITATION..........G.B. Nichols and R.F. Altman
1.1 S. Masuda, T. Onishi and H. Saito, “Inlet-Gas Humidification System for an Electrostatic Precipitator” I and EC Process Design and Development, Vol.5, pp. 135-145 (1966)
1.2 S. Masuda, “Statistische Betrachtungen hber den Abscheidegrad des Elektrofilters”, Staub-Reinhalt Luft, Bd. 26, 459-463 (1966), and this English version “Statistical Observations on the Efficiency of Electrostatic Precipitators”
1.3 S. Masuda, K. Fujibayashi and T. Ogata, “Statistical Design and Its Application to Efficiency Guarantee for Electrostatic Precipitators”, Electrical Engineering in Japan, Vol.93, pp.?30-36. IEEE, Translated from Trans. IEE Japan, Vol.93A, pp.343-349 (1973)
1.4 S. Masuda, Y. Doi, M. Aoyama and A. Shibuya, “Bias-Controlled Pulse Charging System for Electrostatic Precipitator”, Staub-Reinhalt, Luft 36, pp. 19-26 (1976)
1.5 S. Masuda, S. Ago, T. Itoh, H. Saito and N. Furuya, “Hybrid-Type Electrostatic Precipitators”, Electrical Engineering in Japan, Vol. 96, Scripta Pub. Co., Translated from Trans. IEE Japan, Vol. 96B, pp. 90-96 (1976)
1.6 S. Masuda, S. Ago, T. Itoh, H. Saito and N. Furuya, “Hybrid-Type Electrostatic Precipitator”, APCA? Journal, Vol. 27, pp. 241-242 (1977)
1.7 S. Masuda and H. Nakatani, “Distortion of Pulse Voltage Wave Form on Corona Wires Due to Corona Discharge”, Journal of Electrostatics, Vol.14, pp. 319-337 (1983)
1.8 S. Masuda and J. Moon, “Electrostatic Precipitation of Carbon Soot from Diesel Engine Exhaust”, IEEE Trans. IAS, Vol. 19, pp. 1104-1111 (1983)
1.9 S. Masuda, S. Hosokawa and H. Nakatani, “Corona Transmission Line Energized by Very Short Pulse Voltages as Applied Electrostatic Precipitators”, IEEE Trans. IAS, Vol.21, pp. 1377-1386 (1985)
1.10 S. Masuda and Y. Nonogaki, “Bipolar Structure of a Back-Discharge Field in an Electrostatic Precipitator”, IEEE Trans. IAS, Vol. 22, pp. 602-609 (1986)
1.11 J.L. Dubard and S. Masuda, “Measurements of the Interelectrode Space Potential in Electrostatic Precipitators”, Journal of Electrostatics, Vol. 19, pp. 243-256 (1987)
1.12 S. Masuda, S. Hosokawa, N. Tachibana, T. Ando and Y. Matsumoto, “Fundamental Behavior of Direct-Coupled Submicrosecond Pulse Energization in Electrostatic Precipitators”, IEEE Trans. IAS, Vol. 23, pp. 120-126 (1987)
1.13 S. Masuda and S. Hosokawa, “Pulse Energization System of Electrostatic Precipitator for Retrofitting Application”, IEEE Trans. IAS, Vol. 24, pp. 708-716 (1988)
Ch. 2 FLUE GAS CLEANING AND PLASMA CHEMISTRY..........M. Rea
2.1 S. Masuda, M. Hirano and K. Akutsu, “Enhancement of Electron Beam Denitrization Process by Means of Electric Field”, Radiat. Phys. Chem., Vol. 17, pp. 223-228 (1981)
2.2 S. Masuda, M. Sato and T. Seki, “High-Efficiency Ozonizer using Traveling Wave Pulse Voltage”, IEEE Trans. IAS, Vol. 22, pp. 320-325 (1986)
2.3 S. Masuda, S. Koizumi, J. Inoue and H. Arai, “Production of Ozone by Surface? and Glow Discharge at Cryogenic Temperatures”, IEEE Trans. IAS, Vol. 24, pp. 928-933 (1988)
2.4 J.S. Chang and S. Masuda, “Mechanism of the Ozone Formations in a Near Liquid Nitrogen Temperature Medium Pressure Glow Discharge Positive Column”, J. Pure and Appl. Chemistry, Vol. 60, pp. 645-650 (1988)
2.5 S. Masuda, K. Akutsu, M. Kuroda, Y. Awatsu and Y. Shibuya, “A Ceramic-Based Ozonizer Using High-Frequency Discharge”, IEEE Trans. IAS, Vol. 24, pp. 223-231 (1988)
2.6 S. Masuda, “Pulse Corona Induced Plasma Chemical Process:? A Horizon of New Plasma Chemical Technologies”, J. Pure and Appl. Chem., Vol. 60, pp. 727-731 (1988)
2.7 S. Masuda, E. Kiss, K. Ishida and H. Asai, ACeramic-Based Ozonizer for High-Speed Sterilization@, IEEE Trans.IAS, Vol. 26, pp. 36-41 (1990)
2.8 S. Masuda and H. Nakao, “Control of NOx by Positive and Negative Pulsed Corona Discharges”, IEEE Trans. IAS, Vol. 26, pp. 374-383 (1990)
2.9 H. Yamamoto and S. Masuda, “Electrostatic Deposition of CVD Particles for Fabrication of Ultrafine Ceramic Filter”, IEEE Trans. IAS, Vol. 27, pp. 307-310 (1991)
2.10 H. Yamamoto, S. Shioji and S. Masuda, ASynthesis of Ultrafine Particles by Surface Discharge-Induced Plasma Chemical Process (SPCP) and Its Application@, IEEE Trans. IAS, Vol. 28, pp.?1189-1193 (1992)
2.11 S. Masuda, S. Hosokawa, X. L. Tu, M. Tsutsumi, T. Ohtani, T. Tsukahara and N. Matsuda, AThe Performance of An Integrated Air Purifier for Control of Aerosol, Microbial, and Odor@, IEEE Trans. IAS, Vol. 29, pp. 774-780 (1993)
2.12 S. Masuda, S. Hosokawa, X.L. Tu, K. Sakakibara, S. Kitoh, and S. Sakai, “Destruction of Gaseous Pollutants by Surface-Induced Plasma Chemical Process (SPCS)”, IEEE Trans. IAS, Vol. 29, pp. 781-786 (1993)
2.13 T. Oda, T. Takahashi, H. Nakano and S. Masuda, “Decomposition of Fluorocarbon Gaseous Contaminants by Surface Discharge-Induced Plasma Chemical Processing”, IEEE Trans. IAS, Vol. 29, pp. 787-792 (1993)
2.14 S. Masuda, S. Hosokawa, I. Tochizawa, K. Akutsu, K. Kuwano and A. Iwata, “Surface Treatment of Plastic Material by Pulse Corona Induced Plasma Chemical Process x PPCP”, IEEE Trans. IAS, Vol. 30, pp. 377-380 (1994)
2.15 S. Masuda, S. Hosokawa, X. Tu and Z. Wang, “Novel Plasma Chemical Technologies ! PPCP and SPCP for Control of Gaseous Pollutants and Air Toxics”, Journal of Electrostatics, Vol. 34, pp. 415-438 (1995)
2.16 T. Oda, R. Yamashita, T. Takahashi and S. Masuda, “Atmospheric Pressure Discharge Plasma Decomposition for Gaseous Air Contaminants - Trichlorotrifluoroethane and Trichloroethylene”, IEEE Trans. IAS, Vol. 32, pp. 125-135 (1996)
2.17 T. Oda, R. Yamashita, I. Haga, T. Takahashi and S. Masuda, “Decomposition of Gaseous Organic Contaminants by Surface Discharge Induced Plasma Chemical Processing x SPCP”, IEEE Trans. IAS, Vol. 32, 118-124 (1996)
Ch.3 ELECTROHYDRODYNAMICS AND THEIR APPLOCATIONS..........T. Yamamoto
3.1 S. Masuda, K. Fujibayashi and K. Ishida, “Elektrodynamisches Verhalten Aufgeladener Aerosolteilchen im Inhomogenen Wechselfeld und Seine Anwendungsmoeglichkeiten in der Staubtechnik” (Intornationale Staubtagung - 1970) Staub - Reinhalt. Luft, 30 (1970), Nr. 11, S.449-456 (June, 1970 in Bonn, Deutschland) (1970)
3.2 S. Masuda and K. Fujibayashi, “Electrodynamics of Charged Dust Particles within an AC Quadrupole Electric Field Theoretical Treatment”, Electrical Engineering in Japan, Vol. 90, pp. 1-9, IEEE, translation from Trans. IEE Japan, Vol. 90, pp. 861-869 (1970)
3.3 M. Aoyama and S. Masuda, “Classification of Fine Particles by Means of Two-Dimensional Alternating Quadrupole Field”, Electrical Engineering in Japan, Vol. 90, pp. 10-20, IEEE, translation from Trans. IEE Japan, Vol. 90, pp. 870-879 (1970)
3.4 S. Masuda, K. Fujibayashi, K. Ishida and H. Inaba, “Confinement and Transportation of Charged Aerosol Clouds via Electric Curtain”, Electrical Engineering in Japan, Vol. 92, pp. 9-18, IEEE, translation from Trans. IEE Japan, Vol. 92B, pp. 9-18 (1972)
3.5 S. Masuda and Y. Matsumoto, “Motion of a Microcharge Particle within Electrohydrodynamic Field”, Electrical Engineering in Japan, Vol. 94, pp. 20-26, IEEE, translation from Trans. IEE Japan, Vol. 94A, pp. 515-522 (1974)
3.6 M. Aoyama and S. Masuda, “Theoretical Characteristics of Double- and Triple - Array Electric Curtains of Standing-Wave Type”, Electrical Engineering in Japan, Vol. 95, Scripta Pub. Co., translation from Trans. IEE Japan, Vol. 95A, pp. 502-512 (1978)
3.7 S. Masuda, M. Washizu and I. Kawabata, “Movement of Blood Cells in Liquid by Nonuniform Traveling Field”, IEEE Trans. IAS, Vol. 24, pp. 217-222 (1988)
3.8 S. Masuda, M. Washizu and T. Nanba, “Novel Method of Cell Fusion in Field Constriction Area in Fluid Integrated Circuit”, IEEE Trans. IAS, Vol. 25, pp. 732-737 (1989)
3.9 M. Washizu, T. Nanba and S. Masuda, “Handling Biological Cells Using a Fluid Integrated Circuit”, IEEE Trans. IAS, Vol. 26, pp. 352-358 (1990)
3.10 J.S. Chang, W. He, M.H.I. Baird and S. Masuda, “Development of Pulsed Travelling Wave Type EHD Powder Pump:? Preliminary Results”, Material Science, Vol. 16, pp. 9-14 (1990)
Ch.4 ELECTRIFICATION OF MATERIALS AND PARTICLE CHARGING..........J. Taillet
4.1 S. Masuda, “Einfluss von Temperatur und Feuchte auf die Elektrische Leitfaehigkeit Hoch Isolierender St@ube@, Staub. Bd. 25, Nr. 5, S.175-179 (1965)
4.2 S. Masuda and M. Niioka, “Improvement of Particle-Charging Efficiency via Hermstein Glow Corona”, Electrical Engineering in Japan, Vol. 95, pp. 155-162, Scripta Pub. Co.,? translation from Trans. IEE Japan, Vol. 95B, pp. 423-430 (1975)
4.3 S. Masuda and M. Washizu, “Ionic Charging of a Very High Resistivity Spherical Particle”, Journal of Electrostatics, Vol. 6, pp. 57-67 (1979)
4.4 S. Masuda, H. Nakatani, H. Kawahara and A. Mizuno, “Particle Charging with Travelling Wave Corona Discharge”, Journal of Electrostatics, Vol. 10, pp. 171-176 (1981)
4.5 S. Masuda and Y. Nonogaki, “Sensing of Back Discharge and Bipolar Ionic Current”, Journal of Electrostatics, Vol. 10, pp. 73-80 (1981)
4.6 S. Masuda, T. Sonobe and T. Saito, “Charge Elimination in Pneumatic Conveyor Line of High-Resistivity Powders”, IEEE Trans. IAS, Vol. 19, pp. 1112-1117 (1983)
4.7 S. Masuda, M. Washizu and M. Iwadare, “Separation of Small Particles Suspended in Liquid by Nonuniform Traveling Field”, IEEE Trans. IAS, Vol. 23, pp. 474-480 (1987)
4.8 S. Masuda, M. Toraguchi, T. Takahashi and K. Haga, “Electrostatic Beneficiation of Coal Using a Cyclone!Tribocharger”, IEEE Trans. IAS, Vol. 19, pp. 789-793 (1983)
Ch.5 GENERAL APPLICATIONS OF ELECTROSTATICS..........J. M. Crowley
5.1 G. Sch`n and S. Masuda, “On the Expansion and Shrinkage of Space-Charge Clouds”, Brit. J. Appl. Phys., Vol. 2, pp. 115-121 (1969)
5.2 S. Masuda and T. Kamimura, “Approximate Methods for Calculating a Non-Uniform Travelling Field”, Journal of Electrostatics, Vol. 1, pp. 351-370 (1975)
5.3 S. Masuda and Y. Matsumoto, “Calculation of Fluid Field by Substitute-Charge Method”, Electrical Engineering in Japan, Vol. 96, Scripta Pub. Co., translation from Trans. IEE Japan, Vol. 96A, pp. 1-7 (1976)
5.4 S. Masuda and A. Mizuno, “Light Measurement of Back Discharge”, Journal of Electrostatics, Vol. 2, pp. 375-396 (1977)
5.5 S. Masuda and A. Mizuno, “Initiation Condition and Mode of Back Discharge”, Journal of?? Electrostatics, Vol. 4, pp. 35-52 (1977)
5.6 S. Masuda and A. Mizuno, “Flashover Measurements of Back Discharge”, Journal of Electrostatics, Vol. 4, pp. 215-231 (1978)
5.7 S. Masuda, A. Mizuno and M. Akimoto, “Effects of Gas Composition on Sparking Characteristics of Back Discharge ! Preliminary Study”, Journal of Electrostatics, Vol. 6, pp. 333-347 (1979)
5.8 S. Masuda, “Industrial Applications of Electrostatics”, Journal of Electrostatics, Vol. 10, pp. 1-15 (1981)
5.9 Y. Tabata and S. Masuda, “Minimum Potential of Charged Insulator to Cause Incendiary Discharges”, IEEE Trans. IAS, Vol. 20, pp. 377-382 (1984)
5.10 S. Masuda, H. Nakatani, K. Yamada, M. Arikawa, and A. Mizuno, “Production of Monopolar Ions by Traveling Wave Corona Discharge”, IEEE Trans. IAS, Vol. 20, pp. 694-702 (1984)
5.11 S. Masuda and Y. Shishikui, “Production of Monopolar Ions from Streamer Coronas Induced by Very Short Pulse Voltage”, IEEE Trans. IAS, Vol. 20, pp. 1212-1219 (1984)
5.12 S. Masuda, H. Nakatani and S. Hosokawa, “Modification in Waveform of Traveling Pulse Voltages Due to Corona Production Along Transmission Line”, IEEE Trans. IAS, Vol. 21, pp. 724-732 (1985)
5.13 S. Masuda, T. Itagaki and M. Kosakada, “Detection of Extremely Small Particles in the Nanometer and Ionic Size Range”, IEEE Trans. IAS, Vol. 24, pp. 740-744 (1988)
5.14 S. Masuda, and T. Itoh, “Electrostatic Means for Fabrication of Fiber-Reinforced Metals”, IEEE Trans. IAS, Vol. 25, pp. 552-557 (1989)