1st Edition

Turbomachinery Fluid Dynamics and Heat Transfer

By Hah Copyright 1997

    This festschrift in honor of Professor Budugur Lakshminarayana's 60th birthday-based on the proceedings of a symposium on Turbomachinery Fluid Dynamics and Heat Transfer held recently at The Pennsylvania State University, University Park-provides authoritative and conclusive research results as well as new insights into complex flow features found in the turbomachinery used for propulsion, power, and industrial applications.

    Explaining in detail compressors, heat transfer fields in turbines, computational fluid dynamics, and unsteady flows, Turbomachinery Fluid Dynamics and Heat Transfer covers:

  • Mixing mechanisms, annulus wall boundary layers, and the flow field in transonic turbocompressors
  • The numerical implementation of turbulence models in a computer code
  • Secondary flows, film cooling, and thermal turbulence modeling
  • The visualization method of modeling using liquid crystals
  • Innovative techniques in the computational modeling of compressor and turbine flows
  • measurement in unsteady flows as well as axial flows and compressor noise generation
  • And much more

    Generously illustrated and containing key bibliographic citations, Turbomachinery Fluid Dynamics and Heat Transfer is an indispensable resource for mechanical, design, aerospace, marine, manufacturing, materials, industrial, and reliability engineers; and upper-level undergraduate and graduate students in these disciplines.
  • Complex flow fields in compressors and pumps: mixing mechanisms in multistage compressors; annulus wall boundary layer - flow into and through a rotating blade row; research and development of a transonic turbo compressor. Complex flow and thermal fields in turbines: near-wall full Reynolds stress closure in complex internal flow configurations - numerical implementations, 2D and 3D turbomachinery applications; secondary flow investigations in turbine cascades; film cooling in turbines - a review of the behaviour of discrete three-dimensional jets; thermal turbulence modelling techniques and applications; liquid crystal thermography on the rotating surfaces of turbomachinery systems; computational modelling of the generation and transport of aerodynamic losses in turbine blade rows; secondary flows in impeller passages; CFD research on axial-flow turbomachinery; a high convergence rate solution method, the residual cutting algorithm, in iterative solution of Poisson's equation; some unresolved physical problems in two-dimensional flows around blading; an interactive program for equilibrium-air thermodynamic and one-dimensional gas dynamic calculations. Unsteady flow: unsteady lase-doppler-velocimetry measurements in a cascade of controlled-diffusion compressor blades at stall; flow measurements in the moving blade passage of a single-stage axial-flow fan; rotating stall spatial domain characterization in axial and centrifugal compressors; recent fundamental research on turbine steady and unsteady aerodynamics at the National Aerospace Laboratory in Japan; unsteady acoustic wave propagation in a transonic compressor cascade.

    Biography

    Chunill Hah