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欧那个方向
Center for Energy and Thermal Systems (CETS)
Mission and Objectives
To provide a state-of-the-art facility for education and training of students in energy science and technologies.
To perform leading-edge research in green thermal systems for energy efficiency and conservation.
To provide certification services for energy efficiency tests of electrical appliances and safety tests of gas appliances.
Location
Located in the Department of Mechanical Engineering, the Center consists of three labs:
Energy and Environment Lab (Room 1213)
Thermal Systems Lab (Room 4222A)
Fire and Combustion Lab (Room 4222B)
Participating Faculty
Dr. C. T. Hsu, Senior Lecturer of Mechanical Engineering & Director of CETS
Dr. T. Zhao, Associate Professor in Mechanical Engineering & Associate Director of CETS
Prof. Ping Cheng, Professor in Mechanical Engineering
Dr. S. C. Kot, Senior Lecturer in Mechanical Engineering
Dr. S. Lee, Associate Professor in Mechanical Engineering
Dr. H. Qiu, Associate Professor in Mechanical Engineering
Dr. Y. Chao, Associate Professor in Mechanical Engineering
Dr. G. Chen, Associate Professor in Chemical Engineering
Areas of Focus
Electronic Cooling
· Advanced electronic cooling technology
· Cryogenic cooling
Air-Conditioning and Refrigeration
· Evaporative cooling
· Compact heat exchangers
· Dehumidification
· Indoor air quality
Fire and Waste Incineration
· Smoldering combustion
· Porous combustors
Clean Energy Technology
· Fuel Cells
Funding Sources
16 RGC grants totalling over $10 million
Over $ 5 million research grants from industry
$3.4 million special equipment fund (SEF) from School of Engineering
$4.3 million equipment fund from the Mechanical Engineering Department
Major Equipment
Controlled-Environment Facility (under installation)
Cryocooler Testing Rig
3-D Laser Anemometry
Particle Dynamic Analyzer
Diesel Engine/Gasoline Engine Test Stands
High-Speed Camera
Hot-Wire Anemometer
Multi-gas Analyzer & Particulate Measurements Set- up
Building Ventilation Measurement Set-up
Gas Chromatograph for Volotile Organic Compounds
Photoacoustic FTIR Gas Analyzer
Technical Services
Tests of Equipment
Energy efficiency certification services of electrical appliances such as air-coolers, refrigerators, washing machines, and dehumifiers
Energy efficiency tests of energy-consumption devices and equipment such as heat exchangers, chillers, boilers, furnaces, cookers and dryers.
Safety tests of burners, combustors, water-heaters,cookers and dryers
Consulting Services
Waste heat management
Improvements of existing thermal systems in factories and buildings
Energy audits in buildings
Development of new combustors, and other heat transfer devices for industrial processes
Chin Tsau HSU (PhD, Stanford, 1977)
Associate Professor
Email address: mecthsu@ust.hk
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Dr Hsu
has extensive experience in theoretical and experimental research work in the areas of fluid mechanics and heat transfer. Before taking up the teaching post at HKUST, he worked in US industry for 14 years, conducting experimental work in a windwave channel, wind tunnel and rapid compression facility, and pioneering theoretical work in heat transfer in porous media. He has acted as referee for several prestigious journals and served as a consultant to industry and universities in US and Taiwan.
Research interests:
Heat and mass transfer in porous media;
Sediment transport, microelectronic cooling, airsea interaction, remote sensing and coastal engineering;
Representative publications:
Cheng, P. and Hsu, C. T., 1997, "Conduction", Transport phenomena in porous media, ed. by B. Ingham and I. Pop (Book Chapter).
Hsu, C.T., Wong, K.W. and Cheng, P., 1996, "Effective Stagnant Thermal Conductivity of Wire Screens", J. Thermophysics and Heat Transfer, Vol.10, pp.542-545.
Hsu, C.T., Cheng, P. and Wong, K.W., 1995, "A LumpedParameter Model for Stagnant Thermal Conductivity of Spatially Periodic Porous Medium", J. Heat Transfer, Vol.117, pp.264-269.
Hsu, C.T., Cheng P. and Wong, K.W., 1994, "Modified Zehner-Schlunder Models for Stagnant Thermal Conductivity of Porous Media", Int. J. Heat Mass Transfer, Vol. 37, pp. 2751-2759.
Hsu, C.T. and Cheng, P., 1991, "A Singular Perturbation Solution for Couette Flow over a Semiinfinite Porous Bed", J. Fluid Engineering, Vol. 113, pp. 137142.
Hsu, C.T. and Cheng, P., 1990, "Thermal Dispersion in a Porous Medium", Int. J. Heat Mass Transfer, Vol. 33, pp. 15871597.
Hsu, C.T. and Cheng, P., 1988, "Closure Schemes of the Macroscopic Energy Equation for Convective Heat Transfer in Porous Media", Int. Comm. Heat Mass Transfer, Vol. 15, pp. 689703.
Cheng, P. and Hsu, C.T., 1986, "Fullydeveloped Forced Convection in an Annular Packed Bed with Wall Effects", Int. J. Heat Mass Transfer, Vol. 29, pp. 18431853.
Hsu, C.T. and Cheng, P., 1985, "Brinkman's Model for Natural Convection about a Vertical Plate in a Porous Medium", Int. J. Heat Mass Transfer, Vol. 28, pp. 683697.
Hsu, C.T. and Hsu, E.Y., 1983, "On the Structure of Turbulent Flow over a Progressive Water Wave: Theory and Experiment in a Transformed Wavefollowing Coordinate System. Part 2", J. Fluid Mech., Vol. 131, pp. 123153.
Hsu, C.T., Wu, H.Y., Hsu, E.Y. and Street, R.L., 1982, "Momentum and Energy Transfer in Wind Generation of Waves", J. Phys. Oceanography, Vol. 12, pp. 929951.
Hsu, C.T. and Cheng, P., 1980, "The Onset of Longitudinal Vortices in Mixed Convection Flow over an Inclined Surface in a Porous Medium", J. Heat Transfer, Vol. 102, pp. 544549.
Hsu, C.T., Cheng, P. and Homsy, G.M., 1978, "Instability of Free Convection Flow over a Horizontal Impermeable Surface in a Porous Medium", Int. J. Heat Mass Transfer, Vol. 21, pp. 12211228.
See Chun KOT (PhD, Cornell, 1971)
Senior Lecturer
Email address: mesckot@ust.hk
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Dr Kot
has initiated research in atmospheric dispersion among buildings, applying the principles of aerodynamics to predict, control and alleviate problems caused by air pollution and wind turbulence in dense, high rise cities. In many years of teaching in Hong Kong, he has established graduate level courses in micrometeorology, atmospheric diffusion and air pollution source abatement. He is a much sought after consultant on abatement, dispersion and wind environment projects in Hong Kong.
Research interests:
Computational and environmental fluid mechanics;
Field studies;
Physical and computer modelling of atmospheric dispersion in urban areas, airport windshear;
Representative publications:
Hu, S and Kot, S.C. 1997, "Numerical Simulation of Tides in Pearl River Estuary with Moving Boundary," J. Hydraulic Engineering, Vol.123, No.1, pp.21-29.
Zhou, X.D. and Kot, S.C., 1995, "Heavy Metal Ion Adsorption on Sediments of the Weiho and Hanjiang Rivers, China", J. EnVol. Hydrology, Vol.3, No.2, (in electronic form).
Kot, S.C., 1995, " Clean Air Around the World", Hong Kong, edited by Loveday Murley, IUAPPA, pp.161-165,
Au, W.H. and Kot, S.C., 1994, "Optimum Application of the Multigrid Method in Generating Body-Fitted Co-ordinates", Int. J. Num. Math. in Eng., Vol.37, pp.1465-1480.
Qin, Y. and Kot, S.C., 1993, "Dispersion of Vehicular Emission in Street Canyons, Guaugzhou City, South China (P.R.C.), Atm. EnVol., Vol.27B, No.3, pp.283-291.
Ng, C.O. and Kot, S.C., 1992, "Computation of Water Impact on a TwoDimensional FlatBottomed Body with a Volume of Fluid Method", Ocean Engineering, Vol. 19, No. 4, pp. 377393.
Kot, S.C., 1990, "Application of BodyFitted Coordinates and kEpsilon Turbulence Model for Wind Field Computation in a Complex Urban Terrain", J. Wind Eng. and Industrial Aerodynamics, Vol. 35, pp. 225235.
Qin, Y. and Kot, S.C., 1990, "Validation of Computer Modelling of Vehicular Exhaust Dispersion Near a Tower Block", Building and Environment, Vol. 25, No. 2, pp. 125131.
Kot, S.C., 1989, "Numerical Modelling of Contaminate Dispersion around Buildings", Building and Environment, Vol.24, No.1, pp. 3337.
Lam, K.S., Kot, S.C., Fung, K.W. and Ma, R.Y.P., 1985, "A Field Validation of RoofTop Dispersion Formula in an Urban Centre", J. Wind Eng. and Industrial Aerodynamics, Vol. 21, pp. 295305.
Kot, S.C. and Lam, K.S., 1985, "Probability of Concentration of Gas Effluent from Exhaust Vents on the RoofTop", Atmospheric Environment, Vol.19, No.7, pp. 10401044.
Yeung, P.K. and Kot, S.C., 1985, "Computation of Turbulent Flows Past Arbitrary TwoDimensional SurfaceMounted Obstructions", J. Wind Eng. and Industrial Aerodynamics, Vol. 18, No. 2, pp. 177190.
Yeung, P.K. and Kot, S.C., 1985, "On BodyFitted Coordinates for Separated Laminar Flow Past WallMounted Obstacles", Int. J. Numerical Methods in Eng., Vol.21, pp. 929939.
Dr. Steven Hon-Keung Lee
Email address: shklee@ust.hk
phone: +852 2358-7186
fax: +852 2358-1543
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Dr. LEE
has had a distinguished background in mechanical engineering, academia, and research in both Hong Kong and the United States. Having been the Assistant Professor of Mechanical Engineering at the Hong Kong University of Science & Technology since 1993, he was recently promoted to the position of Associate Professor. Between 1999 and early 2000, he was the President & CEO of AnalogicTech-Hong Kong. He was responsible for putting together a first class team and charting the future of the local company, in line with the vision and direction of AnalogicTech’s Silicon Valley headquarters.
Originally from Hong Kong, Dr. Lee immigrated to the United States and became a U.S. citizen in his youth. He received the prestigious Westinghouse Award (now known as the Intel Science Talent Search Award), entered the top-rated engineering school of Cooper Union on full scholarship, was only the second student in the school’s 150-year history to pursue a double-engineering undergraduate program. He subsequently obtained his Masters and Doctoral degrees from Rutgers University in mechanical engineering.
Since 1997, he was a consultant to a local electronic assembly company, where he contributed to the success of products for several major companies, including Motorola, H-P, Sony, Intel, ST Electronics, VLSI, and Broadcom. With funding from public and private grants, his research programs have attracted international attention, and with his team of motivated research assistants, he has published nearly 40 scientific articles. Recently, He became the Associate Technical Editor for The International Journal of Microelectronics Packaging.
Research Interests:
· Fundamental heat transfer;
Optical fiber coating;
Powder processing,
Electronic packaging;
Publications:
Books
Lee, S. H.-K., 1996, Transport Phenomena in Manufacturing and Materials Processing, Co-editorship, HTD-Vol. 323, ASME Press.
Lee, S. H.-K., 1996, Transport Phenomena in Materials Processing and Manufacturing, Co-editorship, HTD-Vol.336, ASME Press.
Lee, S. H.-K., 1997, Transport Phenomena during Drawing and Extrusion, Co-editorship, ASME Press.
Electronic Packaging
Liu, J., Lee, S. H.-K., Papageorge, M., 1998, “The Effects of Component Geometry on the Deformation of the Tape Ball Grid Array Package,” The 3rd International Symposium on Electronic Packaging Technology, Beijing.
Wu, J., Yuan, X., Lee, S. H.-K., Papageorge, M., Isip, R., 1998, “Curing Characteristics of Selected Die Attach Adhesives,” The 3rd International Symposium on Electronic Packaging Technology, Beijing.
Lee, S. H.-K., Law, E., Papageorge, M., Wu, J., 1998, “Ball Detachment Evaluation for Tape Ball Grid Array Packages,” Surface Mount International, San Jose, California, U.S.A.
Law, E., Yasushi, H., Ho, M., Lee, S. H.-K., Mclellan, N., Papageorge, M., 1999, “Solder Wicking and Solder Mask Adhesion Evaluation for Tape Ball Grid Array Packages,” NEPCON West, Anaheim, California, U.S.A.
Lee, S. H.-K., Fan, N., Wu, J.S., Weng, L, Siu, W.W.M., Mclellan, N. and Papageorge, M., 1999, “The Effects of the Bondpad and Soldersphere Sizes on the Ball-shear Strength of fpBGA Packages,” NEPCON West, Anaheim, California, U.S.A.
Lee, S. H.-K., Fan, N., Wu, J. S., Weng, L. T. and Siu, W. W. M., 2000, “The Effects of Bondpad and Soldersphere Sizes on the Ball-Shear Strength of fpBGA Packages,” International Journal of Microcircuits & Electronic Packaging, To Appear.
Lee, S. H.-K., Fan, N., Ip, S. C.-H., Siu, W. W. M., 2000, “Die-cracking Risks in adding a Heatslug to a QFP Package,” International Journal of Microelectronic Packaging, To Appear.
Fundamental Thermofluids
Wei, T., Kline, E.M., Lee, S. H.-K. & Woodruff, S., 1992, “Görtler vortex formation at the inner cylinder in Taylor-Couette flow,” Journal of Fluid Mechanics, Vol. 245, pp. 47-68.
Lee, S. H.-K., Sengupta, S. & Wei, T., 1995, “Effect of Polymer Additives on Görtler Vortices in Taylor-Couette flow,” Journal of Fluid Mechanics, Vol. 282, pp. 115-129.
Lee, S. H.-K. & Jaluria, Y., 1995, “The Effects of Streamwise Convergence in Radius on the Laminar Forced Convection in Axisymmetric Ducts,” Numerical Heat Transfer, Part A, Vol. 28, No. 1, pp. 19-38.
Jaluria, Y., Chiu, W. K.-S. and Lee, S. H.-K., 1995, “Flow across horizontal vents in room fires,” Combustion Science and Technology, Vol. 110-111, pp. 197-208.
Jaluria, Y., Lee, S. H.-K., Mercier, G.P. & Tan, Q., 1998, “Visualization of transport across a horizontal vent due to density and pressure differences,” Experimental Thermal and Fluid Science, Vol. 16, pp. 260-273.
Siu, W. W. M. and Lee, S. H.-K., 1999, “Transient temperature computation for a system of multiply contacting spheres in 180-Degree orientation,” Journal of Heat Transfer, Vol. 121, No. 3, pp. 739-742.
Siu, W. W. M. and Lee, S. H.-K., 1999, “Multi-Spatial-Temporal Grids for Three-Dimensional Transient Conduction Problems,” Numerical Heat Transfer, Fundamentals, Vol. 36, No. 2, pp. 163-181.
Siu, W. W. M. and Lee, S. H.-K., 2000, “Transient Effect on the Constriction Resistance between Spheres,” Computational Mechanics, Vol. 25, No. 1, pp. 59-65.
Wu, A. K. C. and Lee, S. H.-K., 2000, “Computation of Radiative Properties in 1-D Sphere Packings for Sintering Applications,” Numerical Heat Transfer, Vol. 37, No. 5, pp. 477-492.
Wu, A. K. C. and Lee, S. H.-K., 2000, “Sphere Packing Algorithm for Heat Transfer Studies,” Numerical Heat Transfer, Vol. 37, No. 6, pp. 631-652.
Siu, W. W. M. and Lee, S. H.-K., 2000, “Effective Conductivity Computation using Constriction Resistance with Contact Angle Effects,” International Journal of Heat and Mass Transfer, Vol. 43, No. 21, pp. 3917-3924.
Wu, A. K. C. and Lee, S. H.-K., 2000, “Multiple-Rays Tracing Technique for Radiative Exchange within Packed Beds,” Numerical Heat Transfer, Fundamentals, To Appear.
Siu, W. W. M. and Lee, S. H.-K., 1999, “Measurement of the Transient Thermal Resistance of Sphere under Ambient Condition,” National Heat Transfer Conference, Albuquerque, U.S.A.
Siu, W. W. M. and Lee, S. H.-K., 1999, “Conduction computations within Three-Dimensional Packed Beds with multiple neighbors,” International Mechanical Engineering Congress & Exposition, U.S.A.
Optical Fiber Processing
Lee, S. H.-K. & Jaluria, Y., 1995, “The Effects of Geometry and Temperature Variations on the Radiative Transport During Optical Fiber Drawing,” Journal of Materials Processing and Manufacturing Science, Vol. 3, No. 4, pp. 317-331.
Lee, S. H.-K. & Jaluria, Y., 1996, “Effects of Variable Properties and Viscous Dissipation During Optical Fiber Drawing,” Journal of Heat Transfer, Vol. 118, pp. 350-358.
Lee, S. H.-K. & Jaluria, Y., 1997, “Simulation of the Transport Processes in the Neck-Down Region of a Furnace-Drawn Optical Fiber,” International Journal of Heat & Mass Transfer, Vol. 40, No. 4, pp. 843-856.
Choudhury, S. R., Jaluria, Y., Lee, S. H.-K., 1999, “A Computational Method for Generating the Free-surface Neck-down Profile for Glass flow in Optical Fiber Drawing,” Numerical Heat Transfer, Part A, Vol. 35, pp. 1-24.
Zhao, C. Y. and Lee, S. H.-K., 1999, “Physical Considerations of a Pressurized Optical Fiber Coating Process,” National Heat Transfer Conference, Albuquerque, U.S.A.
Zhao, C. Y. and Lee, S. H.-K., 2000, “Physical Considerations of a Pressurized Optical Fiber Coating Process,” Journal of Materials Processing & Manufacturing Science, To Appear.
Hui-He QIU(Ph.D., LSTM Erlangen, 1994)
Associate Professor
Email address: meqiu@ust.hk
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Dr. Qiu
has extensive experience in the research of particle dynamics in two-phase flows. His contributions have been in the areas of spray evaporation, particle laden swirling flow, particle mass flux and concentration, remote sensing and optical flow diagnostics. He is the recipient of the Best Paper Award of Institute of Physics (IOP) in 1994 and the National Scientific and Technological Achievement Award of China (1989).
Research interests:
Transient laser heating and vaporization in microchannels;
Heat Transfer and bubble dynamics of ultrasound induced microbubbles;
Heat and mass transfer in spray cooling for microelectronics;
Micro bubbly flows in microchannels;
Rapid solidification and remelting in microcasting;
Optical diagnostic including Laser/phase Doppler Anemometry and micro PIV
Fall 03/04 Course:
MECH336 Building Services II (Note1, HW#1, Note2, HW#2, Example1, HW#3, Example2, Note3, HW#4, Example3, Note4, Example6)
Representative Publications:
Qiu, H.H. 1999, "Optical Diagnostics in Multiphase Flow Measurements", Asian Symposium of Multiphase Flow (ASMF'99), Invited Lecture , Osaka, Japan.
Tian JD and Qiu H. -H. (2002): “Eliminating Background Noise Effect in Micro-Resolution Particle Image Velocimetry,” Applied Optics, Vol. 41, Iss. 32, pp6849-6857.
Jia W. and Qiu H. -H. (2002): “"Fringe Probing of an Evaporative Micro Droplet on a Hot Surface,” Int. J. Heat and Mass Transfer, 45, 4141-4150.
Wang W. and Qiu H. -H. (2002): "Interfacial Thermal Conductance in Rapid Contact Solidification Process", Int. J. Heat and Mass Transfer, 45, 2043-2053.
Jia W. and Qiu H. -H. (2001): “Experimental Investigation Effect of Rebounding Rate on Spray Cooling Heat Transfer,” Applied Thermal Engineering.
Qiu H. -H., Liu W. and Hsu C. T. (2001): "The Effect of Second Order Refraction on Optical Bubble Sizing in Multiphase Flows", Journal of KSME, Vol. 15, No. 12, 1801-1807.
Qiu H.-H , Jia W. and Hsu C. T. (2001): "Optimization of Optical Particle Sizing in Multiphase Flows", Optical Engineering, Vol. 40, No. 11, 2586-2593.
Jia W. and Qiu H. -H (2001): "A Novel Optical Method in Micro Drop Deformation Measurements", Optics and Lasers in Engineering , 35, 187-198.
Qiu H. -H., Liu W. and Hsu C. T. (2001): "The Constraint of High Order Refractions on Optical Micro Bubble Sizing", Applied Optics.
Qiu H.-H , Jia W., Hsu C. T. and Sommerfeld M. (2000): "High Accuracy Optical Particle Sizing in Phase-Doppler Anemometry", Measurement Science and Technology , 11,142-151.
Qiu H. -H. and Jia W. (2000): "Effect of Refractive Index in Optical Particle Sizing by Using Spatial Frequency Method", Optics Communications , (178), 199-210.
Hsu C. T., Kuang J. and Qiu H.-H. (2000): “Experiments on Vertical Turbulent Plane Jets in Water of Finite Depth,” Journal of Engineering Mechanics, Vol. 127, No. 1, 18-26.
Qiu H. -H. and Hsu C. T. (2000): "A New Approach to Eliminate the Measurement Volume Effect in PDA Measurements", Book Chapter in: Laser Techniques Applied to Fluid Mechanics, Edited by Adrain, R,J., Durao, D.F.G., Durst, F., Heitor, M.V., Maeda, M. and Whitelaw, J.H., ISBN:3-540-66738-5, pp103-112, Springer.
Qiu, H.H. and Hsu, C. T., (1999): "Method of Phase-Doppler Anemometry Free From The Measurement-Volume Effect", Applied Optics , Vol. 38, Iss 13, pp2737-2742.
Qiu, H.H. and Jia, W., (1999): "High-Resolution Optical Particle Sizing in an Optimized Orientation", Optical Engineering , 38/12, 2104-2113.
Hsu C. T., Wong T. I. and Qiu, H.H. , " Energy Peformance Tests of a Split-Type Air Conditioner", Asia-Pacific Conference on the Built Environment , Novermber 29-December 2 1999, Taipei, Taiwan.
Sommerfeld M. and Qiu, H.-H. , (1998): " Experimental Studies of Spray Evaporation in Turbulent Flow", Int. J. of Heat and Fluid Flow 19, 10-22.
Qiu H.H. and Hsu C. T, (1998): "Optimization of EPDA Parameters for Accurate Material Recognition in Multiphase Flow", Optics and Lasers in Engineering, 30, 3-16.
Qiu H.H. and Hsu C. T., (1998): "): "Minimum Deviation of Spatial Frequency in Large Particle Sizing", Applied Optics, , Vol. 37, No. 28, 6787-6794.
Qiu, H.H. and Hsu, C.T., (1997): "A Fourier Optics Method for the Simulation of Measurement-Volume-Effect By the Slit Constraint", Part. Part. Syst. Charact. ,Vol.14, No. 6, p295-303.
Wang W. and Qiu H. -H. (2002): " The Impact of Thermal Contact Resistance on the Spreading and Solidification of a Droplet on a Substrate", submitted to Int. J. Heat Mass Transfer.
Yeung Y. -F. and Qiu H. -H. (2002): "A Correlation Model of Boiling Heat Transfer in Spray Cooling", submitted to Applied Thermal Engineering.
Qiu H. -H. and Jia W. (2002): "Effect of Rebounding Rate on Spray Cooling Heat Transfer", submitted to Applied Thermal Engineering.
Qiu H.H. and Hsu C. T., 1997, "The Critical Off-Axis Angle for the Measurements of Solid Particles in Liquid Using PDA", Proc. of International Conference on Fluid Engineering, Tokyo, Vol. II, pp1043-1048.
Qiu H.H. and Hsu C. T., 1995, "A New Spatial Frequency Method for Sizing Large Particles in Laser Anemometry", ASME Fluids Engineering Summer Meeting and 6th Int. Conf. on Laser Anemometry, South Carolina, Vol. FED 229, 81-88.
Qiu H.H. and Hsu C. T., 1995, "The Impact of Measurement Volume Size for a 3-Component Phase-Doppler Anemometry", Int. Conf. on Aerosol Science and Technology, Taipei, 159-166.
Sommerfeld M. and Qiu, H.H., 1995, "Particle Concentration Measurements by Phase-Doppler Anemometry in Complex Dispersed Two-Phase Flows", J. Experiments in Fluids, 18, 187-198, Springer-Verlag.
Qiu, H.H., Sommerfeld, M. and Durst, F., 1994, "Two novel Doppler Signal Detection Methods for Laser-Doppler and Phase-Doppler Anemometry", Int. J. of Physics E: Measurement Sci. and Technology, 5, 769-778.
Sommerfeld, M., Kohnen, G. and Qiu, H.H., 1993, "Spray Evaporation in Turbulent Flow: Numerical Calculations and Detailed Experiments by Phase-Doppler Anemometry", J. of REVUE DE L'INSTITUT FRANÇAIS DU PÉTROLE, Vol. 48, No. 6, 677-695.
Sommerfeld, M. and Qiu, H.H., 1993, "Characterization of Particle Laden, Confined Swirling Flows by Phase-Doppler Anemometry and Numerical Calculation", Int. J. of Multiphase Flow, Vol. 19, No. 6, 1093-1127.
Sommerfeld, M. and Qiu, H.H., 1992, "Experimental Studies on Spray Evaporation in a Turbulent Flow", Proceedings of the 6th Workshop on Two Phase Flow Predictions, Erlangen ,pp.167-185.
Qiu, H.H. and Sommerfeld M., 1992, "A Reliable Method for Determining the Measurement Volume Size and Particle Mass Fluxes Using Phase-Doppler Anemometry", J. Experiments in Fluids , Vol. 13, pp. 393-404.
Sommerfeld, M., Qiu, H.H., 1992, "Particle Concentration Measurements in Complex Two-phase Flows Using Phase-Doppler Anemometry", J. of PARTEC, Particle Characterization, Nuremberg, Vol. 1, pp.293-308.
Sommerfeld, M., Qiu, H.-H. und Ando, A. (1992): "Charakterisierung der Teilchenbewegung in drallbehafteten Brennerstroemungen", J. VGB Kraftwerkstechnik , Vol. 72, 125-133.
Qiu, H.H., Sommerfeld, M. and Durst, F., 1991, "High Resolution Data Processing for Phase-Doppler Measurements in a Complex Two-phase Flow", Int. J. of Physics E: Measurement Science and Technology, Vol. 2, pp. 455-463.
Sommerfeld, M. and Qiu, H.H., 1991, "Detailed Measurements in a Swirling Particulate Two-phase Flow by a Phase-Doppler Anemometer", Int. J. Heat and Fluid Flow, Vol. 12, pp. 20-28.
Qiu, H.H. and Sommerfeld, M., 1991, "A New Method for Mass Flux Measurements in Complex Two-phase Flows by Phase-Doppler Anemometry", J. of ERCOFTAC, Bulletin No. 10, pp.12-14.
Christopher Y. H. CHAO (PhD, Berkeley, 1994)
Associate Professor
Email address: meyhchao@ust.hk |
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发表于 2006-4-9 12:45:30
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