兰州大学机构库 >大气科学学院
Influence of nose angle on performance of dense medium cyclones with volute inlet
Cai, Qinyu1; Hu, Yuyang1; Zhang, Zihui1; Tao, Mingqing1; Huo, Huanhuan1; Dong, Kejun3; Zhang, YM(张宇萌)1,2; Wang, B(王博)1
2024-02-15
Online publication date2024-01
Source PublicationPOWDER TECHNOLOGY   Impact Factor & Quartile Of Published Year  The Latest Impact Factor & Quartile
ISSN0032-5910
EISSN1873-328X
Volume435
page numbers13
AbstractDense medium cyclones (DMCs) are widely used in coal mine sorting processes to improve the quality of coal products and reduce pollution. The conventional linear inlet DMCs has the problems of unstable flow field, high turbulence density and low separation efficiency. Based on these concerns, the volute inlet DMCs was proposed, however the nose angle as one of the most critical parameters has not yet been investigated in depth. In this paper, a DMC with volute inlet is investigated, and the effect of nose angle is studied by a computational fluid dynamics model in terms of flow field, particle motion and the forces acting on the particles. The performance of the DMC is evaluated with respect to the inlet nose angle. As the nose angle increases from 0 to 180 deg., the separation efficiency has a tendency to increase and then decrease with the inflection point founding when nose angle is 180 deg. Then the flow field, particle distribution and particle force are analyzed respectively. The results show that the symmetry and stability of the flow field can be significantly improved as nose angle increases from 0 to 180 deg., but they remain almost constant when nose angle is 270°. In addition, a quantification method of the short-circuiting flow is established and it has been found that increasing the nose angle can notably reduce the short-circuiting flow. In terms of particle phase, increasing the nose angle causes heavier particle distribution tends to concentrate. During this period, the variation pattern of forces on particles with different nose angles is also analyzed. The DMC with a nose angle of 180 deg. has a longer acceleration zone at the entrance height and an increased radial force on the particles, which results in better performance. This study provides a theoretical basis and reference for the structure optimization of dense medium cyclones. © 2024 Elsevier B.V.
KeywordAcceleration Coal mines Computational fluid dynamics Efficiency Structural optimization Timing circuits Dense medium cyclone Nose angle Numerical simulate Particle forces Performance Separation efficiency Short circuiting Short-circuiting flow Volute inlet Volute inlet dense medium cyclone
PublisherElsevier B.V.
DOI10.1016/j.powtec.2024.119390
Indexed ByEI ; SCIE
Language英语
WOS Research AreaEngineering
WOS SubjectEngineering, Chemical
WOS IDWOS:001175264100001
EI Accession Number20240515451763
EI KeywordsFlow fields
EI Classification Number503.1 Coal Mines ; 631.1 Fluid Flow, General ; 713.4 Pulse Circuits ; 723.5 Computer Applications ; 913.1 Production Engineering ; 921.5 Optimization Techniques ; 931.1 Mechanics
Original Document TypeJournal article (JA)
Citation statistics
Document Type期刊论文
Identifierhttps://ir.lzu.edu.cn/handle/262010/583720
Collection大气科学学院
资源环境学院
Corresponding AuthorZhang, Yumeng; Wang, Bo
Affiliation
1.Key Laboratory of Western China's Environmental Systems (Ministry of Education) and Engineering Research Center of Fine Particle Pollution Control Technology and Equipment, Gansu Province, College of Earth and Environmental Sciences, Lanzhou University, Lanzhou; 730000, China;
2.College of Atmospheric Sciences, Lanzhou University, Lanzhou; 730000, China;
3.Center for Infrastructure Engineering, Western Sydney University, Penrith; NSW; 2751, Australia
First Author AffilicationCollege of Earth Environmental Sciences
Corresponding Author AffilicationCollege of Earth Environmental Sciences;  College of Atmospheric Sciences
First Signature AffilicationCollege of Earth Environmental Sciences
Recommended Citation
GB/T 7714
Cai, Qinyu,Hu, Yuyang,Zhang, Zihui,et al. Influence of nose angle on performance of dense medium cyclones with volute inlet[J]. POWDER TECHNOLOGY,2024,435.
APA Cai, Qinyu.,Hu, Yuyang.,Zhang, Zihui.,Tao, Mingqing.,Huo, Huanhuan.,...&Wang, Bo.(2024).Influence of nose angle on performance of dense medium cyclones with volute inlet.POWDER TECHNOLOGY,435.
MLA Cai, Qinyu,et al."Influence of nose angle on performance of dense medium cyclones with volute inlet".POWDER TECHNOLOGY 435(2024).
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