Experimental results of an ejector drive micro turbine generator

dc.contributor.author

Camacho, Andrew

dc.contributor.author

Dunnmon, Jared

dc.contributor.author

Gardner, William

dc.contributor.author

Gilmore, Chris

dc.contributor.author

Jaworski, Justin

dc.contributor.author

Pelekies, Stefan

dc.contributor.author

Protz, Jonathan

dc.contributor.author

Shen, Hardy

dc.contributor.author

Wang, Ivan

dc.date.accessioned

2010-12-15T16:03:42Z

dc.date.available

2010-12-15T16:03:42Z

dc.date.issued

2010-11-02

dc.description.abstract

This paper reports on the design, thermodynamic cycle, and experimental results of an ejector driven micro turbine generator. For this cycle, an ejector, as opposed to a compressor, creates a pressure gradient to drive a turbine. When connected to a micro-generator and an ethanol vapor boiler, a power output of 7.5 mW is delivered to a resistive load of 300 Ω at an angular velocity of 27,360 RPM.

dc.identifier.uri

https://hdl.handle.net/10161/2881

dc.language.iso

en

dc.subject

micro engine turbine ejector

dc.title

Experimental results of an ejector drive micro turbine generator

dc.type

Journal article

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