Energy Analysis of n-Dodecane Combustion in a Hetero/Homogeneous Heat-Recirculating Microreactor for Portable Power Applications

An energy analysis is presented for n-dodecane/air combustion in a heat recirculating Inconel microreactor under vacuum conditions. Microreactor channels are partially coated with platinum enabling operating with coupled heterogeneous and homogeneous reactions. The radiant efficiency, important for...

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Veröffentlicht in:	Journal of physics. Conference series 2016-11, Vol.773 (1), p.12060
Hauptverfasser:	Waits, C M, Tolmachoff, E D, Allmon, W R, Zecher-Freeman, N E
Format:	Artikel
Sprache:	eng
Schlagworte:	Combustion efficiency Dodecane Energy conversion Enthalpy Microreactors Nickel base alloys Physics Superalloys
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creator	Waits, C M Tolmachoff, E D Allmon, W R Zecher-Freeman, N E
description	An energy analysis is presented for n-dodecane/air combustion in a heat recirculating Inconel microreactor under vacuum conditions. Microreactor channels are partially coated with platinum enabling operating with coupled heterogeneous and homogeneous reactions. The radiant efficiency, important for thermophotovoltaic energy conversion, was found to decrease from 57% to 52% over 5 different runs covering 377 min of operation. A similar decrease in combustion efficiency was observed with 6%-8% energy lost to incomplete combustion and 5%- 6% lost through sensible heat in the exhaust. The remaining thermal loss is from unusable radiation and conduction through inlet and outlet tubing. Changes in the Inconel microreactor geometry and emissivity properties were observed.
doi_str_mv	10.1088/1742-6596/773/1/012060
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subjects	Combustion efficiency Dodecane Energy conversion Enthalpy Microreactors Nickel base alloys Physics Superalloys
title	Energy Analysis of n-Dodecane Combustion in a Hetero/Homogeneous Heat-Recirculating Microreactor for Portable Power Applications
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