35 research outputs found
Discussion: âEffects of Nonuniform Passages on Compact Heat Exchanger Performanceâ (Shah, R. K., and London, A. L., 1980, ASME J. Eng. Power, 102, pp. 653â659)
Closure to âDiscussion of âEffects of Non-Uniform Passages on Deepfold Heat Exchanger Performanceââ (1980, ASME J. Eng. Power, 102, p. 510)
Vehicular Gas Turbine Periodic-Flow Heat Exchanger Solid and Fluid Temperature Distributions
Discussion: âThe Single-Blow Transient Testing Technique for Compact Heat Exchanger Surfacesâ (Pucci, P. F., Howard, C. P., and Piersall, Jr., C. H., 1967, ASME J. Eng. Power, 89, pp. 29â38)
Discussion: âThe Effect of Longitudinal Heat Conduction on Periodic-Flow Heat Exchanger Performanceâ (Bahnke, G. D., and Howard, C. P., 1964, ASME J. Eng. Power, 86, pp. 105â117)
Adapting the Heat and Mass Transfer Analogy to Model Performance of Automotive Catalytic Converters
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New vision solar system mission study. Final report
The vision for the future of the planetary exploration program includes the capability to deliver {open_quotes}constellations{close_quotes} or {open_quotes}fleets{close_quotes} of microspacecraft to a planetary destination. These fleets will act in a coordinated manner to gather science data from a variety of locations on or around the target body, thus providing detailed, global coverage without requiring development of a single large, complex and costly spacecraft. Such constellations of spacecraft, coupled with advanced information processing and visualization techniques and high-rate communications, could provide the basis for development of a {open_quotes}virtual{close_quotes} {open_quotes}presence{close_quotes} in the solar system. A goal could be the near real-time delivery of planetary images and video to a wide variety of users in the general public and the science community. This will be a major step in making the solar system accessible to the public and will help make solar system exploration a part of the human experience on Earth