Study of a Quench Device for the Synthesis and Hydrolysis of Zn Nanoparticles: Modeling and Experiments

Tareq Abu Hamed; Luke Venstrom; Aiman Alshare; Marc Brülhart; Jane H. Davidson

Source: Journal of Solar Energy Engineering:;2009:;volume( 131 ):;issue: 003::page 31018

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DOI: 10.1115/1.3142825

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The synthesis and hydrolysis of zinc nanoparticles are carried out in a tubular reactor. A key component of the reactor is a coaxial jet quench device. Three coaxial and multi-inlet confined jets mix Zn(g), steam, and argon to produce and hydrolyze zinc nanoparticles. The performance of the quench device is assessed with computational fluid dynamics modeling and measurements of hydrogen conversion and particle size and composition. Numerical data elucidate the impact of varying jet flow rates on temperature and velocity distributions within the reactor. Experiments produce hydrogen conversions of 61–79%. Particle deposition on sections of the reactor surface above 650 K favors hydrolysis. Residence time for in-flight particles is less than 1 s and these particles are partially hydrolyzed.

keyword(s): Flow (Dynamics) , Temperature , Particulate matter , Nanoparticles , Modeling , Hydrogen , Steam , Filters AND Jets ,

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Study of a Quench Device for the Synthesis and Hydrolysis of Zn Nanoparticles: Modeling and Experiments

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contributor author	Tareq Abu Hamed
contributor author	Luke Venstrom
contributor author	Aiman Alshare
contributor author	Marc Brülhart
contributor author	Jane H. Davidson
date accessioned	2017-05-09T00:35:19Z
date available	2017-05-09T00:35:19Z
date copyright	August, 2009
date issued	2009
identifier issn	0199-6231
identifier other	JSEEDO-28421#031018_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/141923
description abstract	The synthesis and hydrolysis of zinc nanoparticles are carried out in a tubular reactor. A key component of the reactor is a coaxial jet quench device. Three coaxial and multi-inlet confined jets mix Zn(g), steam, and argon to produce and hydrolyze zinc nanoparticles. The performance of the quench device is assessed with computational fluid dynamics modeling and measurements of hydrogen conversion and particle size and composition. Numerical data elucidate the impact of varying jet flow rates on temperature and velocity distributions within the reactor. Experiments produce hydrogen conversions of 61–79%. Particle deposition on sections of the reactor surface above 650 K favors hydrolysis. Residence time for in-flight particles is less than 1 s and these particles are partially hydrolyzed.
publisher	The American Society of Mechanical Engineers (ASME)
title	Study of a Quench Device for the Synthesis and Hydrolysis of Zn Nanoparticles: Modeling and Experiments
type	Journal Paper
journal volume	131
journal issue	3
journal title	Journal of Solar Energy Engineering
identifier doi	10.1115/1.3142825
journal fristpage	31018
identifier eissn	1528-8986
keywords	Flow (Dynamics)
keywords	Temperature
keywords	Particulate matter
keywords	Nanoparticles
keywords	Modeling
keywords	Hydrogen
keywords	Steam
keywords	Filters AND Jets
tree	Journal of Solar Energy Engineering:;2009:;volume( 131 ):;issue: 003
contenttype	Fulltext

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