Three-Dimensional Numerical Modeling of Magnetohydrodynamic Augmented Propulsion Experiment

Over the past several years, NASA Marshall Space Flight Center has engaged in the design and development of an experimental research facility to investigate the use of diagonalized crossed-field magnetohydrodynamic (MHD) accelerators as a possible thrust augmentation device for thermal propulsion systems. In support of this effort, a three-dimensional numerical MHD model has been developed for the purpose of analyzing and optimizing accelerator performance and to aid in understanding critical underlying physical processes and nonideal effects. This Technical Memorandum fully summarizes model development efforts and presents the results of pretest performance optimization analyses. These results indicate that the MHD accelerator should utilize a 45deg diagonalization angle with the applied current evenly distributed over the first five inlet electrode pairs. When powered at 100 A, this configuration is expected to yield a 50% global efficiency with an 80% increase in axial velocity and a 50% increase in centerline total pressure.

[1]  R. H. Fowler The Mathematical Theory of Non-Uniform Gases , 1939, Nature.

[2]  Ron J. Litchford,et al.  Status of Magnetohydrodynamic Augmented Propulsion Experiment , 2007 .

[3]  C. F. Curtiss,et al.  Molecular Theory Of Gases And Liquids , 1954 .

[4]  Ron J. Litchford,et al.  Magnetohydrodynamic Augmented Propulsion Experiment: I. Performance Analysis and Design , 2002 .

[5]  Surya Pratap Vanka,et al.  Three-Dimensional Flow and Thermal Development in Magnetohydrodynamic Channels , 1982 .

[6]  R. Litchford Performance Theory of Diagonal Conducting Wall MHD Accelerators , 2003 .

[7]  R. Liebermann,et al.  Electrical conductivity of nonideal plasmas , 1987 .

[8]  Surya Pratap Vanka,et al.  FORMULATION AND ASSESSMENT OF A CROSS-PLANE ELECTRICAL MODEL FOR MAGNETOHYDRODYNAMIC CHANNELS. , 1982 .

[9]  R. Voto TRANSPORT PROPERTIES OF PARTIALLY IONIZED MONATOMIC GASES , 1965 .

[10]  Sanford Gordon,et al.  Computer program for calculation of complex chemical equilibrium compositions , 1972 .

[11]  R. S. Devoto Simplified Expressions for the Transport Properties of Ionized Monatomic Gases , 1967 .

[12]  D T Swift-Hook,et al.  Partially Ionized Gases , 1975 .

[13]  J. X. Bouillard,et al.  User's manual for MGMHD: A multigrid three-dimensional computer code for the analysis of magnetohydrodynamic generators and diffusers , 1989 .

[14]  Performance Theory of Diagonal Conducting Wall Magnetohydrodynamic Accelerators , 2004 .

[15]  Y. C. L. Wu Performance Theory of Diagonal Conducting Wall MHD Generators , 1976 .