Books
1. Separation of particles From Air and Gases, Vol.I&Vol.II, CRC-Press(1984), USA
2. Vortex Flow, CRC-Press(1993), USA
3. サイクロン分離器、アース社(1980)
CycloneDust Collecto(inJapanese)r, Earth Pub.(1980), Tokyo
4. 渦学、山海堂(1981)
Vortex Flow(inJapanese)(1981),Sankaidou-Pub.Tokyo
5. レオロジー概論、山海堂(1991)
Introduction to Rgeology(inJapanese) Sankaidou-Pub.(1991),Tokyo
Main Papers
6. Mechanical Separation Process and Flow Patterns of Cyclone Dust Collectors, Appl.Mech.Rev.,(A.S.M.E.)Vol.50,No.3,(March,1997),P.97-P.130
7.Onthe effect of pulsating flow inthetangential inlet pipe for thecollection efficiency of uni-flow type of the cyclone dust collector, Particulate Science andTechnology, AnInternationalJournal, Vol.15, No.3-4,(1997), P.317-P.340.
8.Estimation of Collection Efficiency Depended on Feed Particle Concentration for Axial Flow Cyclone Dust Collector, J.Thermal Science, Vol.8, No.3,(1999),P.143-P.157.
9.Collection Efficiency of Cylindrical and Elliptic CycloneDust Collectors with Vortex Breaker, Journal of Thermal Science, Vol.9,No.3.,P.257〜P.264,(2000)
10.On the correlation between spin-up time and spin-down time and the numerical estimation of spin-up process in the cylindrical vortex chamber,
5th ISAIF(Gdansk, POLAND), INTERNAL FLOWS, Vol.2,P.825〜837,September 4-7,2001
11.Theory of the Cut-Size,the Fractional Collection Efficiency, and the Vortex Breakdown in the Axial Flow Hydro-Cyclone, Particulate Science and Technology,An International Journal, Vol.19, No.3, July-September, P.257-P.299,(2001), Pub.on July,2002.
12. Spin-up and Spin-down Times of Rotational Air Flow Depended on Mean Air Velocity and Surface Roughness on Inner Surface in Cylindrical Vortex Chamber, J.Thermal Science, Vol.13,No.1(2004),P.47-P.55.
13. Experimentelle Untersuchung eines gleichsinnigen und eines gegensinnigen Stroemungssystems innerhalb einer zylindrischen Wirbelkammer zur Kontrolle der Wirbeleigenschaften, J.College of Eng., Nihon Univ., Vol.45,No.2(2004), P.61-P.74.
14. Fluid Dynamical Characteristics of Pressure drop of Air Flow in Two Kinds of Cylindrical Vortex Chambers for Control of Vortex Flow, Journal of College of Eng., Nihon University, Vol.46, No.2,(2005),P.19~P.36.
15. On the Pressure Drop and the Velocity Distribution in the Cylindrical Vortex Chamber with Two Inlet Pipes for the Control of Vortex Flow, Journal of Thermal Science, Vol.14, No.2,(2005),P.162~P.171.
16.Drag Reducing Effect due to Smooth and Rough Surfaces on Concave Wall Surface in Vortex Chamber Related to Pressure Drop and Tangential velocity for Vortex Control, FLUCOME,August,22-25,Chengdu, China, 2005.
17. Morphological Study of cavity and Worthington Jet Formations for newtonian and Non-Newtonian liquids, Particulate Science and Technology, An International Journal, Vol.24, No.2, April-June,(2006),P.181-P.225.
18.Control of Collection Efficiency for Axial Flow Cyclone Dust Collectors with Fixed Guide vanes and with Funnel Shaped Exit Pipes, Proceedings of the Asian Joint Workshop on Thermophysics and Fluid Science, June 26-28, 2006, P.227〜P.237.,Qufu, China.
Journal of Thermal Sciece, Vol.15, No.3,(2006),P.240〜P.250.
19.On the Fluid Dynamical Characteristics of the Pressure Drop for the Axial Flow Cyclone Dust Collectors, Eighth International Congress of Fluid Dynamics and Propulsion, December 14th-17th, 2006, Sharm El-Shiekh, Sinai,EGYPT.
20. Damping vibrational motion of Liquid Column in Vertical U-Tube for Newtonian and non-Newtonian Liquids, Proceedings of the 8th International Symposium on Experimental and Computational Aerothermodynamics of Internal Flows, per Reference:ISAIF8-009, Vol.I, Session 12, Aeroelasticity and Instabilities, P.439〜P.448, July, 2-5,2007, Lyon, France.
21. Damped Oscillation of Liquid Column in Vertical U-Tube for Newtonian and non-Newtonian Liquids, Journal of Thermal Science, Vol.16, No.4,(2007),P.289-P.300.
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