THE STEADILY INCREASING upper limits in flight speed and altitude for modern aircraft make the study of cooling systems for rotating electric equipment imperative. Experience with conventional fan- and blast∗∗∗cooling systems indicates poor cooling performance under many of the high-altitude high-speed conditions presently encountered. Several factors, such as decreasing air density at altitude which results in decreasing available pressure drop, air-weight flow, and heat transfer coefficients, contribute to equipment overheating. Further, the air pickup drag incurred in blast cooling can result in a loss of aircraft carrying capacity many times greater than the difference in weight between a blast-cooled system and a heavier system utilizing some other cooling method. For example, it is possible for some blast-cooling installations to incur drag penalties of the order of magnitude shown in Figure 1.