Proceedings. Feb. 4-5, 1963. Vol. I.: Unclassified Papers on Inductive Energy Storage, Magnetohydrodynamics, Explosive Transducers, and SwitchingInstitute for Defense Analyses, Research and Engineering Support Division, 1963 - Magnetohydrodynamics - 394 pages |
Contents
Principles of Inductive Energy Storage | 2 |
Capacitance and Inductance Energy Storage Systems at AEDC | 28 |
Inductive Energy Storage for HighEnergy Pulses | 35 |
17 other sections not shown
Common terms and phrases
amperes apparatus approximately BTU/hr capable capacitor charging circuit conductor constant cooling cost cryogenic current carrying capacity current density d-c power Defense Analyses deposition of Nb,Sn device dewar diameter discharge dissipation electrodes energy storage system energy-storage coil Engineering estimated explosive factor field strength Figure flash lamp flywheel fuse gauss heat leak high current High Magnetic Fields high power inductive energy storage inductor joules kilogauss kilowatts liquid helium liquid nitrogen load magnetic field MAGNETOHYDRODYNAMICS maximum megajoule megawatt mercury arc Mercury arc rectifiers metal million amperes milliseconds Nb3Sn niobium NIOBIUM STANNIDE operation peak plasma power density power supply pressure problem pulse power radius refrigerator resistance ribbon schematic shown in Fig Silicon controlled rectifiers solenoid storage coil stored energy structure substrate superconducting coil superconducting inductive superconducting magnet superconducting material superinsulation switch temperature thickness toroid total energy tube vapor-deposited volts weight winding wire XMHD