Estimation of Minimum Spouting Velocity in a Rectangular Spouted Bed

A study was conducted to explore the effects of static bed height, nozzle diameter, cone angle, and particle properties on the minimum spouting velocity in a 4 in × 1 in rectangular spouted bed. Tests were conducted with various solids materials (including 871 μm HPDE pellets, 3.2 mm nylon beads, 70...

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Veröffentlicht in:	Journal of energy resources technology 2018-06, Vol.140 (6)
Hauptverfasser:	Rowan, Steven L, Yang, Jingsi, Bobek, Michael C, Breault, Ronald W
Format:	Artikel
Sprache:	eng
Schlagworte:	Energy Systems Analysis ENGINEERING Glass beads MATERIALS SCIENCE Nozzles Nylon fabrics Particulate matter Solids
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creator	Rowan, Steven L Yang, Jingsi Bobek, Michael C Breault, Ronald W
description	A study was conducted to explore the effects of static bed height, nozzle diameter, cone angle, and particle properties on the minimum spouting velocity in a 4 in × 1 in rectangular spouted bed. Tests were conducted with various solids materials (including 871 μm HPDE pellets, 3.2 mm nylon beads, 707 μm glass beads, and 1.5 mm alumina spheres), two gas inlet nozzle diameters, and two cone angles. Experimentally obtained minimum spouting velocities were compared to existing published correlations developed for cylindrical spouted beds. In each case, it was determined that the existing correlations did not adequately predict the minimum spouting velocity for a rectangular spouted bed. A new correlation is proposed.
doi_str_mv	10.1115/1.4039739
format	Article
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(NETL), Morgantown, WV (United States)</creatorcontrib><title>Estimation of Minimum Spouting Velocity in a Rectangular Spouted Bed</title><title>Journal of energy resources technology</title><addtitle>J. Energy Resour. Technol</addtitle><description>A study was conducted to explore the effects of static bed height, nozzle diameter, cone angle, and particle properties on the minimum spouting velocity in a 4 in × 1 in rectangular spouted bed. Tests were conducted with various solids materials (including 871 μm HPDE pellets, 3.2 mm nylon beads, 707 μm glass beads, and 1.5 mm alumina spheres), two gas inlet nozzle diameters, and two cone angles. Experimentally obtained minimum spouting velocities were compared to existing published correlations developed for cylindrical spouted beds. In each case, it was determined that the existing correlations did not adequately predict the minimum spouting velocity for a rectangular spouted bed. 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source	Alma/SFX Local Collection; ASME Transactions Journals (Current)
subjects	Energy Systems Analysis ENGINEERING Glass beads MATERIALS SCIENCE Nozzles Nylon fabrics Particulate matter Solids
title	Estimation of Minimum Spouting Velocity in a Rectangular Spouted Bed
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