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TPFL: Turbomchinery Design Education
The turbomachinery design education at Texas A&M/TPFL includes the following courses:
Principles of Turbomachinery for UG-Seniors Aero-Thermodynamics of Turbomachinery Advanced Turbomachinery Design MEEN-414 MEEN-646 MEEN-685 Textbook, Author: Meinhard T. Schobeiri, “Turbomachinery Flow Physics and Dynamic Performance,” Springer-Verlag, New York, Berlin, Heidelberg, ISBN 3-540 22368-1. Second edition, completely revised, in press.
TPFL: The Turbomachinery Performance and Flow Research Laboratory Texas A&M University M. T. Schobeiri
TPFL: Turbomchinery Design Education
To better understand the turbomachinery design process and to prepare students for turbomachinery industry, projects are given that include:
Solid Mechanics,
Aero-thermodynamics and
Rotor dynamics aspects of turbomachinery design. A step-by-step design procedure includes:
Preliminary design of all components involved Final components design System integration Example of a class projects, see next slide TPFL: The Turbomachinery Performance and Flow Research Laboratory Texas A&M University M. T. Schobeiri
Gas Turbine Design Competition, Spring Semester 2010 Power generation gas turbine Compressor pressure ratio:15 Compressor stage no. = 15 Turbine stage no.= 4 Power 64 MW TPFL: The Turbomachinery Performance and Flow Research Laboratory Texas A&M University M. T. Schobeiri
TPFL: Turbomachinery Design Competition
Components: Compressor, Turbine Row-by-Row aero-thermo design TPFL: The Turbomachinery Performance and Flow Research Laboratory Texas A&M University M. T. Schobeiri
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Inlet Angle ( 1 )= 76 o Exit Angle ( 2 )= 16 o Stagger Angle ( )= 33.4
o 0.60
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x/c ax 0.6
Turbine blade pressure distribution using Navier-Stokes solver 1
Design Competition, System Integration
TPFL: The Turbomachinery Performance and Flow Research Laboratory Texas A&M University M. T. Schobeiri
TPFL: Design Competition Turbocharger 2009
TPFL: The Turbomachinery Performance and Flow Research Laboratory Texas A&M University M. T. Schobeiri