Python library for generation, aerodynamic analysis, and aerodynamic shape optimization of parametric airfoils and airfoil systems
Project description
pymead
Author: Matthew G Lauer
Source code can be found here. Documentation can be found here.
Welcome
To the documentation page for pymead
, an object-oriented Python 3 package for single- and multi-element
parametric airfoil design. This Bézier parametrization framework was first presented at the 2022 AIAA Aviation
Conference in Chicago, IL under the title
"A Parametrization Framework for Multi-Element Airfoil Systems Using Bézier Curves."
Motivation
The creation of this package was motivated by a research aircraft application: the aerodynamic design of a propulsion-airframe-integrated commercial transport aircraft. The cross-section of a wing or fuselage with integrated propulsors can be represented, with some sacrifice in fidelity, as a quasi-2D multi-element airfoil system. This multi-element airfoil system is comprised of a main airfoil (either the fuselage or main airfoil element), a hub airfoil (representing the cross-section of an axisymmetric hub), and a nacelle airfoil (representing the cross-section of an axisymmetric nacelle).
How It Works
By using a well-defined parametrization framework, this airfoil system can be morphed or deformed in a variety of
using changes in high-level design variables. These design variables are represented by
pymead.core.param.DesVar
objects in this framework, which have modifiable lower and upper bounds for optimization.
This facilitates aerodynamic analysis, parametric sweeps, and even shape optimization.
pymead
has both an application programming interface (API) and a graphical user interface (GUI), either of which
can be used to define airfoil geometries from basic geometries (like points, lines, and curves), implement
geometric constraints, perform analysis using wrappers for XFOIL and MSES, and even execute aerodynamic or
aero-propulsive shape optimization studies.
Applications
It is the hope of the author that pymead
is sufficiently flexible to be used for airfoil applications of
varying complexities, from simple, single-airfoil design to high-fidelity, multi-element airfoil shape optimization.
Other common multi-element airfoil systems, such as the high-lift configuration on an aircraft, are also target
applications for this software package.
One utility provided in this software package which may be useful in the start-up phase of airfoil design is
pymead.utils.airfoil_matching.match_airfoil()
. This modules allows the matching of a particular parametrization
to any public airfoil geometry at airfoiltools.com using the gradient-based "SLSQP"
optimizer.
Acknowledgments
This work was supported by NASA under award number 80NSSC19M0125 as part of the Center for High-Efficiency Electrical Technologies for Aircraft (CHEETA).
Contact Information
Author: Matthew G Lauer
Email: mlauer2015@gmail.com
Version Notes
2.0.0-alpha.0+
- Version notes have migrated to pymead's GitHub releases page
1.1.1
- Corrections to README.md for PyPi long project description (images not showing properly)
1.1.0
- Made corrections on BaseAirfoilParams and AnchorPoint Args domains
- Added support for zero-curvature anchor points using 180-degree curvature control arm angles (or 90-degree curvature control arm angles for the leading edge)
- Added support for sharp-juncture anchor points with R=0 or R_{LE}=0. Adding multiple consecutive sharp juncture anchor points creates line segments. Adding sharp-juncture anchor points violates the principle of slope and curvature continuity, but may be useful in some cases.
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
Hashes for pymead-2.0.0a25-py3-none-any.whl
Algorithm | Hash digest | |
---|---|---|
SHA256 | 96dea3e36b2c291004daeec5eb3a3ffad95ad38d5fca148b694866db47b4f84b |
|
MD5 | 767fc3fc676ca38a782d45a72a2f451e |
|
BLAKE2b-256 | 6ed37d54bb3e685a7a8a48fccfc2f90bcddbcab681fba789b791c7e26822413a |