EFFECTS OF ELECTRODE SIZE ON THE PERFORMANCE OF A COMBUSTION-DRIVEN MHD GENERATOR.

Abstract

A single molybdenum electrode pair, shielded from end effects by two additional electrode pairs, was located at the downstream end of an MHD channel. Two types of experiments were performed. First, the effects of electrode size on performance was examined at electrode temperatures between 530K and 1600K for a fixed channel geometry, combustion gas mass flow rate, magnetic field strength, and upstream wall temperature (2200K). Three electrode sizes were used (length-to-pitch ratios of 0.2, 0.5, and 0.8), and performance was evaluated directly from electrode voltage drops determined as a function of current. The second type of experiment investigated electrode size effects in the presence of dissimilar boundary layer conductivities, reflecting coupling between electrode and gas boundary layer temperatures in a cold-electrode generator. A hot wall was used upstream of small electrodes and a cold (750K) wall upstream of large electrodes. For similar conditions of surface and gas boundary layer temperature, larger electrodes were found to yield lower voltage losses at a given load current. However, for dissimilar boundary layers, total voltage losses for a large electrode pair were equal to or greater than those of a small electrode pair at the same surface temperature. (Author)

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 1969

Accession Number

AD0694039

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