User's Guide for Msap2d

User's Guide for Msap2d
Author :
Publisher : Createspace Independent Publishing Platform
Total Pages : 92
Release :
ISBN-10 : 1722856742
ISBN-13 : 9781722856748
Rating : 4/5 (42 Downloads)

Synopsis User's Guide for Msap2d by : National Aeronautics and Space Administration (NASA)

This guide describes the input data required for using MSAP2D (Multi Stage Aeroelastic analysis Program - Two Dimensional) computer code. MSAP2D can be used for steady, unsteady aerodynamic, and aeroelastic (flutter and forced response) analysis of bladed disks arranged in multiple blade rows such as those found in compressors, turbines, counter rotating propellers or propfans. The code can also be run for single blade row. MSAP2D code is an extension of the original NPHASE code for multiblade row aerodynamic and aeroelastic analysis. Euler equations are used to obtain aerodynamic forces. The structural dynamic equations are written for a rigid typical section undergoing pitching (torsion) and plunging (bending) motion. The aeroelastic equations are solved in time domain. For single blade row analysis, frequency domain analysis is also provided to obtain unsteady aerodynamic coefficients required in an eigen analysis for flutter. In this manual, sample input and output are provided for a single blade row example, two blade row example with equal and unequal number of blades in the blade rows. Reddy, T. S. R. and Srivastava, R. Glenn Research Center...

Fpcas2d User's Guide, Version 1.0

Fpcas2d User's Guide, Version 1.0
Author :
Publisher : Createspace Independent Publishing Platform
Total Pages : 64
Release :
ISBN-10 : 1722407158
ISBN-13 : 9781722407155
Rating : 4/5 (58 Downloads)

Synopsis Fpcas2d User's Guide, Version 1.0 by : National Aeronautics and Space Administration (NASA)

The FPCAS2D computer code has been developed for aeroelastic stability analysis of bladed disks such as those in fans, compressors, turbines, propellers, or propfans. The aerodynamic analysis used in this code is based on the unsteady two-dimensional full potential equation which is solved for a cascade of blades. The structural analysis is based on a two degree-of-freedom rigid typical section model for each blade. Detailed explanations of the aerodynamic analysis, the numerical algorithms, and the aeroelastic analysis are not given in this report. This guide can be used to assist in the preparation of the input data required by the FPCAS2D code. A complete description of the input data is provided in this report. In addition, four test cases, including inputs and outputs, are provided. Bakhle, Milind A. Unspecified Center...