The Structure Design and Exhaust Mechanism on Hybrid Supercharger

Hua Pan Xiao; Zi Fan Fang; Jing Fang; Hui Li; Kong De He; Wei Hua Yang

doi:10.4028/www.scientific.net/AMM.419.209

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The Analysis of Stiffness and Stability of Luffing Jib Cranes Based on Theory of Second Order
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Finite Element Analysis for Wave Spring of Multi-Disc Wet Clutch Based on ANSYS
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The Structure Design and Exhaust Mechanism on Hybrid Supercharger
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Research of Mechanism and Experiment of 4LZ-3.0 Self-Propelled Pepper Harvester
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The Study on Five Order Hypernormal Form of Icing Suspension Cable Model
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 419The Structure Design and Exhaust Mechanism on...

The Structure Design and Exhaust Mechanism on Hybrid Supercharger

Abstract:

Aiming at solving the problem of underwater exhaust for underwater vehicle, a new underwater exhaust scheme is presented with structure and power supercharger, which the structure design is analyzed and studied. Firstly, the fluid characteristic is analyzed in junction between the exhaust pipe of diesel and the pressure pipe of air compressor. The connection type of them is presented and the exhaust mechanism is proved that low pressure gas can exhaust out from exhaust pipe by entrainment. Subsequently, based on the Bernoulli principle, the flow distribution is analyzed in the branch pipe. Finally, taking exhaust performance as optimum target, the parameter optimization design is carried out for branch pipe by using DOE; the optimal structure size is also obtained for exhaust pipe by regression analysis. The research result predicts that a new underwater exhaust scheme and its design theory are presented in this paper.