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Separation Science and Technology Volume 35, 2000 - Issue 16
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Original Articles

Energy Consumption and Its Reduction in the Hydrocyclone Separation Process. III. Effect of the Structure of Flow Field on Energy Consumption and Energy Saving Principles

LIANG-YIN CHU SCHOOL OF CHEMICAL ENGINEERING, SICHUAN UNIVERSITY, CHENGDU, SICHUAN, 610065, PEOPLE'S REPUBLIC OF CHINA; Nakao Laboratory, Department of Chemical System Engineering, School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-8656, JapanCorrespondence[email protected]
,
JIAN-JUN QIN SCHOOL OF CHEMICAL ENGINEERING, SICHUAN UNIVERSITY, CHENGDU, SICHUAN, 610065, PEOPLE'S REPUBLIC OF CHINA
,
WEN-MEI CHEN SCHOOL OF CHEMICAL ENGINEERING, SICHUAN UNIVERSITY, CHENGDU, SICHUAN, 610065, PEOPLE'S REPUBLIC OF CHINA
&
XIAO-ZHONG LEE SCHOOL OF CHEMICAL ENGINEERING, SICHUAN UNIVERSITY, CHENGDU, SICHUAN, 610065, PEOPLE'S REPUBLIC OF CHINA
Pages 2679-2705 | Received 09 Nov 1999, Published online: 15 Feb 2007
 
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Abstract

The effect of the structure of flow field in the hydrocyclone on energy consumption was experimentally studied systematically with orthogonal design. The results show that the effect of the inserted central part on energy consumption is the largest, while that of the underflow pipe is the least. The energy saving performance of the winged core is the best among the inserted central parts. The time-averaged and fluctuating characteristics of pressure structure in the hydrocyclone with low energy loss were also investigated experimentally. Both the time-averaged and fluctuating characteristics of pressure structure in the hydrocyclone with low energy loss are much different from those in the conventional commercial hydrocyclone. The energy saving mechanism was investigated, and the energy saving principles and relevant measures for hydrocyclones were proposed systematically.

ACKNOWLEDGMENT

This research was supported by China Postdoctoral Science Foundation and by the Doctoral Science Foundation of State Educational Ministry of China.

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