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Experimental And Numerical Study Of The Stirling Engine Robust Foil Regenerator, Koji Yanaga
Experimental And Numerical Study Of The Stirling Engine Robust Foil Regenerator, Koji Yanaga
Graduate Theses, Dissertations, and Problem Reports
The regenerator is located between the heat accepter and the heat rejecter of the Stirling engine. It works as a thermal energy storage component in the engine. Most of the regenerators are made of woven screen or random fiber. However, the flow going through the woven screen or random fiber is similar to the cylinders in crossflow which has flow separation. To achieve higher engine efficiency, it is required to design a regenerator which has higher convective heat transfer, lower pressure drops. Therefore, a parallel channel regenerator called a robust foil regenerator was designed and manufactured.
In this study, a …
Investigation Of Heat Exchanger Effectiveness Using A Surface Coating Technology, Allen Duffy
Investigation Of Heat Exchanger Effectiveness Using A Surface Coating Technology, Allen Duffy
Graduate Theses, Dissertations, and Problem Reports
Diesel engine manufacturers continue to improve engine performance through increased thermal efficiency and reduced regulated emissions. The aftercooler located between the turbocharger air outlet and intake manifold experiences a wide range of operating conditions. Improving the heat transfer characteristics in the aftercooler can lead towards improved engine performance through increased charge air density. A surface coating has been proposed to enhance the heat transfer characteristics for a marine-based application on the water - side of the heat exchanger. To evaluate the efficacy of the coating, the rate of heat transfer with and without the coating was quantified in a controlled …