Doss et al., 1992 - Google Patents
Flow development and analysis of MHD generators and seawater thrustersDoss et al., 1992
- Document ID
- 432781597699179714
- Author
- Doss E
- Roy G
- Publication year
External Links
Snippet
The flow characteristics inside magnetohydrodynamic (MHD) plasma generators and seawater thrusters are analyzed and are compared using a three-dimensional computer model that solves the governing partial differential equations for fluid flow and electrical …
- 238000011161 development 0 title abstract description 7
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K44/00—Machines in which the dynamo-electric interaction between a plasma or flow of conductive liquid or of fluid-borne conductive or magnetic particles and a coil system or magnetic field converts energy of mass flow into electrical energy or vice versa
- H02K44/02—Electrodynamic pumps
- H02K44/04—Conduction pumps
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Zhang et al. | A novel layered stack electromagnetic pump towards circulating metal fluid: design, fabrication and test | |
| Lu et al. | Study on the gas-liquid two-phase flow regime in the power generation channel of a liquid metal MHD system | |
| Doss et al. | Flow development and analysis of MHD generators and seawater thrusters | |
| Hunt et al. | Liquid-metal magnetohydrodynamics with strong magnetic fields: a report on Euromech 70 | |
| Doss et al. | Flow characteristics inside MHD seawater thrusters | |
| Hua et al. | Three-dimensional MHD flow in insulating circular ducts in non-uniform transverse magnetic fields | |
| Doss et al. | The need for superconducting magnets for MHD seawater propulsion | |
| Doss et al. | MHD seawater propulsion | |
| Kumamaru et al. | Three-dimensional numerical calculations on liquid-metal magnetohydrodynamic flow in magnetic-field inlet-region | |
| Ishikawa et al. | A new approach to calculation of three-dimensional flow in MHD generators | |
| Song et al. | Effect of load on performance of LMMHD generator | |
| Okazaki et al. | Electrothermal instability in the seeded combustion gas boundary layer near cold electrodes | |
| Dahlberg | On the one-dimensional flow of a conducting gas in crossed fields | |
| Doss et al. | Comparative three-dimensional flow analysis of MHD generators and seawater thrusters | |
| LENGYEL | Current and potential distributions in nonequilibrium MHD plasmas athigh magnetic field strengths | |
| Drake | Optimum isothermal acceleration of a plasma with constant magnetic field | |
| Nishida et al. | Numerical studies of the flow field in a dc arcjet thruster | |
| Doss et al. | Three-dimensional parametric study for MHD marine propulsion | |
| Karasev et al. | Liquid metal fusion reactor systems | |
| Swean Jr et al. | Prediction of transverse asymmetries in MHD ducts with zero net Hall current | |
| Meng | Major engineering physics for optimization of the seawater superconducting electromagnetic thruster | |
| Doss et al. | An overview of MHD seawater thruster performance and loss mechanisms | |
| Shahri et al. | Application of various electromagnetic coupling modes for the better MHD flow distribution and thermal management within a liquid metal manifold | |
| Itoh et al. | Three-dimensional analyses of phenomena near anode of MHD generator with high temperature, high velocity, and strong MHD interaction | |
| Doss | Performance and flow characteristics of MHD seawater thruster |