Character of crystallization particle in bitten transfer pump

B H Fu, D Liu, S L Sun and Y L Zhang
Institute of Physics (IOP)
Published 2018
Publication Date:
2018-07-31
Publisher:
Institute of Physics (IOP)
Print ISSN:
1755-1307
Electronic ISSN:
1755-1315
Topics:
Geography
Geosciences
Physics
Published by:
_version_ 1836399017797353473
autor B H Fu, D Liu, S L Sun and Y L Zhang
beschreibung In order to understand the flow pattern of salt-out particles in a bittern transfer pump, the population balance model (PBM) coupled with mixture two-phase was applied to calculate the particle flow. User-defined particle growth and nucleation models were used in this study to consider the actual dynamic behavior of the crystallization particle, such as particle growth, nucleation, aggregation and breakage. The result shows that the average particle size is smaller and more evenly distributed among area of the impeller inlet. The size of crystal particles is different at different regions in the impeller passages with the characteristics of small crystal particles near suction side and large crystal particles near pressure side. In addition, the distribution of average particle size near pressure and suction side has an upward trend from inlet to outlet. The distribution of crystal particles on the blade near the tongue is different from other blades whether it is in the pressur...
citation_standardnr 6311345
datenlieferant ipn_articles
feed_id 108844
feed_publisher Institute of Physics (IOP)
feed_publisher_url http://www.iop.org/
insertion_date 2018-07-31
journaleissn 1755-1315
journalissn 1755-1307
publikationsjahr_anzeige 2018
publikationsjahr_facette 2018
publikationsjahr_intervall 7984:2015-2019
publikationsjahr_sort 2018
publisher Institute of Physics (IOP)
quelle IOP Conference Series: Earth and Environmental Science
relation http://iopscience.iop.org/1755-1315/163/1/012055
search_space articles
shingle_author_1 B H Fu, D Liu, S L Sun and Y L Zhang
shingle_author_2 B H Fu, D Liu, S L Sun and Y L Zhang
shingle_author_3 B H Fu, D Liu, S L Sun and Y L Zhang
shingle_author_4 B H Fu, D Liu, S L Sun and Y L Zhang
shingle_catch_all_1 Character of crystallization particle in bitten transfer pump
In order to understand the flow pattern of salt-out particles in a bittern transfer pump, the population balance model (PBM) coupled with mixture two-phase was applied to calculate the particle flow. User-defined particle growth and nucleation models were used in this study to consider the actual dynamic behavior of the crystallization particle, such as particle growth, nucleation, aggregation and breakage. The result shows that the average particle size is smaller and more evenly distributed among area of the impeller inlet. The size of crystal particles is different at different regions in the impeller passages with the characteristics of small crystal particles near suction side and large crystal particles near pressure side. In addition, the distribution of average particle size near pressure and suction side has an upward trend from inlet to outlet. The distribution of crystal particles on the blade near the tongue is different from other blades whether it is in the pressur...
B H Fu, D Liu, S L Sun and Y L Zhang
Institute of Physics (IOP)
1755-1307
17551307
1755-1315
17551315
shingle_catch_all_2 Character of crystallization particle in bitten transfer pump
In order to understand the flow pattern of salt-out particles in a bittern transfer pump, the population balance model (PBM) coupled with mixture two-phase was applied to calculate the particle flow. User-defined particle growth and nucleation models were used in this study to consider the actual dynamic behavior of the crystallization particle, such as particle growth, nucleation, aggregation and breakage. The result shows that the average particle size is smaller and more evenly distributed among area of the impeller inlet. The size of crystal particles is different at different regions in the impeller passages with the characteristics of small crystal particles near suction side and large crystal particles near pressure side. In addition, the distribution of average particle size near pressure and suction side has an upward trend from inlet to outlet. The distribution of crystal particles on the blade near the tongue is different from other blades whether it is in the pressur...
B H Fu, D Liu, S L Sun and Y L Zhang
Institute of Physics (IOP)
1755-1307
17551307
1755-1315
17551315
shingle_catch_all_3 Character of crystallization particle in bitten transfer pump
In order to understand the flow pattern of salt-out particles in a bittern transfer pump, the population balance model (PBM) coupled with mixture two-phase was applied to calculate the particle flow. User-defined particle growth and nucleation models were used in this study to consider the actual dynamic behavior of the crystallization particle, such as particle growth, nucleation, aggregation and breakage. The result shows that the average particle size is smaller and more evenly distributed among area of the impeller inlet. The size of crystal particles is different at different regions in the impeller passages with the characteristics of small crystal particles near suction side and large crystal particles near pressure side. In addition, the distribution of average particle size near pressure and suction side has an upward trend from inlet to outlet. The distribution of crystal particles on the blade near the tongue is different from other blades whether it is in the pressur...
B H Fu, D Liu, S L Sun and Y L Zhang
Institute of Physics (IOP)
1755-1307
17551307
1755-1315
17551315
shingle_catch_all_4 Character of crystallization particle in bitten transfer pump
In order to understand the flow pattern of salt-out particles in a bittern transfer pump, the population balance model (PBM) coupled with mixture two-phase was applied to calculate the particle flow. User-defined particle growth and nucleation models were used in this study to consider the actual dynamic behavior of the crystallization particle, such as particle growth, nucleation, aggregation and breakage. The result shows that the average particle size is smaller and more evenly distributed among area of the impeller inlet. The size of crystal particles is different at different regions in the impeller passages with the characteristics of small crystal particles near suction side and large crystal particles near pressure side. In addition, the distribution of average particle size near pressure and suction side has an upward trend from inlet to outlet. The distribution of crystal particles on the blade near the tongue is different from other blades whether it is in the pressur...
B H Fu, D Liu, S L Sun and Y L Zhang
Institute of Physics (IOP)
1755-1307
17551307
1755-1315
17551315
shingle_title_1 Character of crystallization particle in bitten transfer pump
shingle_title_2 Character of crystallization particle in bitten transfer pump
shingle_title_3 Character of crystallization particle in bitten transfer pump
shingle_title_4 Character of crystallization particle in bitten transfer pump
timestamp 2025-06-30T23:36:17.594Z
titel Character of crystallization particle in bitten transfer pump
titel_suche Character of crystallization particle in bitten transfer pump
topic R
TE-TZ
U
uid ipn_articles_6311345