JOURNAL OF CHEMICAL ENGINEERING OF JAPAN
Online ISSN : 1881-1299
Print ISSN : 0021-9592
Transport Phenomena and Fluid Engineering
A Study of the Effects on Cooling Rate of Impeller Shape with the Aim of Scaling up a Cream Cooling Storage Tank
Tetsuo MiyamotoHideo ShidaraKoji InagakiKazuhiko NishiRyuta MisumiMeguru Kaminoyama
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2013 Volume 46 Issue 3 Pages 181-186

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Abstract

A cooling experiment using a small-scale tank with conical bottom has been conducted in order to analyze the cooling characteristics of a cream cooling storage tank, and consider an improved impeller. A cream-like liquid having viscosity adjusted with carboxymethylcellulose (CMC) was used as the test liquid. For the stirring impeller, a special anchor impeller was employed, which was equipped with blades which scrape off the tank walls at the upper part, and blades which scrape up from the bottom at the lower part. The effects on cooling rate have been measured for 4 impeller shapes and their rotational directions. The average temperature profile index ITP and the upper/lower temperature difference profile index IDTP are defined and used to evaluate cooling rate and uniformity inside the tank. As a result, it has been found that, with pressing by the upper blades and scraping up by the lower blades, an impeller with a 90° phase difference between the upper and lower blades is superior. When this result is applied to the design of an actual manufacturing tank, and comparative tests are conducted on rotational direction, the results are as expected based on the results with a small-scale experimental tank, and these results can be expected to improve the product quality and production efficiency.

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© 2013 The Society of Chemical Engineers, Japan
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