Development of a wet vapor homogeneous liquid metal MHD power system
Abstract
During the period covered by this report (October 1988 to March 1989), the following work was done: the mixing stream condensation process was analyzed, and a theoretical model for simulating this process was modified. A parametric study is being conducted at the present time; the separation processes were analyzed; and the experimental system was specified and its design is at present in an advanced stage. The mixing stream condensation process was analyzed. For the parameters defined in the SOW of this project the process was found to be a mist flow direct contact condensation, where the hot gas mixture consisting of inert gas and vapor is the continuous phase, and the subcooled liquid on which the vapor is condensed if the droplets dispersed phase. Two possibilities of creating the mist flow were considered. The first, injecting the cold Liquid Metal (LM) into the Mixing Streams Condenser (MSC) entrance as a jet and breaking it into LM fragments and the fragments into droplets by momentum transfer breakup mechanism. The second, atomizing the cooled LM stream into little droplets (approximately 100 micrometers in diameter) and accelerating them by the gas. The second possibility was preferred due to its much higher heat and mass transfer surface and coefficients relative to the first one.
- Publication:
-
Semiannual Report
- Pub Date:
- April 1989
- Bibcode:
- 1989soll.rept......
- Keywords:
-
- Cesium Vapor;
- Liquid Metals;
- Magnetohydrodynamic Generators;
- Magnetohydrodynamics;
- Mathematical Models;
- Flow Velocity;
- Helium;
- Hydrogen;
- Plasma Physics