Effect of divider wall-to-end wall distance on the vortical structures and heat transfer characteristics of two-pass channel using topological analysis
(2022) In International Journal of Numerical Methods for Heat and Fluid Flow 32(1). p.219-240- Abstract
- Purpose: This study aims to explore the 3 D separated flow fields and heat transfer characteristics at the end wall of a serpentine channel with various turn clearances using topological analysis and critical points principles of three-dimensional vortex flow. Design/methodology/approach: This aims to explore the 3 D separated flow fields and heat transfer characteristics at the end wall of a serpentine channel with various turn clearances using topological analysis as well as critical points principles of three-dimensional vortex flow. Findings: The endwall heat transfer in the narrow spacing passage is significantly stronger than that in a wide spacing channel. As the gap clearance is kept at 0.87 times of the hydraulic diameter, the... (More)
- Purpose: This study aims to explore the 3 D separated flow fields and heat transfer characteristics at the end wall of a serpentine channel with various turn clearances using topological analysis and critical points principles of three-dimensional vortex flow. Design/methodology/approach: This aims to explore the 3 D separated flow fields and heat transfer characteristics at the end wall of a serpentine channel with various turn clearances using topological analysis as well as critical points principles of three-dimensional vortex flow. Findings: The endwall heat transfer in the narrow spacing passage is significantly stronger than that in a wide spacing channel. As the gap clearance is kept at 0.87 times of the hydraulic diameter, the endwall heat transfer and thermal performance can be accordingly enhanced with low pressure drops, which is because a relatively strong concentrated impingement flow for the medium gap clearance helps to restrain the downstream fluid flow and enhance the shear effect of the secondary flow. Practical implications: The numerical results can be applied in designing sharp turn of serpentine channel in heat exchangers, heat sinks, piping system, solar receiver and gas turbine blades. Originality/value: The evolution mechanism of the vortices in the turning region under different gap clearance was analyzed, and thermal enhancement characteristics were predicted innovatively using topological analysis method. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/cba1dc24-4753-47b5-a1cb-e9c56faa60d4
- author
- Zhao, Zhiqi LU ; Luo, Lei ; Qiu, Dandan LU ; Wang, Songtao ; Wang, Zhongqi and Sunden, Bengt Ake LU
- organization
- publishing date
- 2022
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Gap clearance, Heat transfer, Serpentine channel, Topology
- in
- International Journal of Numerical Methods for Heat and Fluid Flow
- volume
- 32
- issue
- 1
- pages
- 219 - 240
- publisher
- Emerald Group Publishing Limited
- external identifiers
-
- scopus:85106006612
- ISSN
- 0961-5539
- DOI
- 10.1108/HFF-01-2021-0035
- language
- English
- LU publication?
- yes
- id
- cba1dc24-4753-47b5-a1cb-e9c56faa60d4
- date added to LUP
- 2021-06-09 15:02:35
- date last changed
- 2023-11-08 15:23:21
@article{cba1dc24-4753-47b5-a1cb-e9c56faa60d4, abstract = {{Purpose: This study aims to explore the 3 D separated flow fields and heat transfer characteristics at the end wall of a serpentine channel with various turn clearances using topological analysis and critical points principles of three-dimensional vortex flow. Design/methodology/approach: This aims to explore the 3 D separated flow fields and heat transfer characteristics at the end wall of a serpentine channel with various turn clearances using topological analysis as well as critical points principles of three-dimensional vortex flow. Findings: The endwall heat transfer in the narrow spacing passage is significantly stronger than that in a wide spacing channel. As the gap clearance is kept at 0.87 times of the hydraulic diameter, the endwall heat transfer and thermal performance can be accordingly enhanced with low pressure drops, which is because a relatively strong concentrated impingement flow for the medium gap clearance helps to restrain the downstream fluid flow and enhance the shear effect of the secondary flow. Practical implications: The numerical results can be applied in designing sharp turn of serpentine channel in heat exchangers, heat sinks, piping system, solar receiver and gas turbine blades. Originality/value: The evolution mechanism of the vortices in the turning region under different gap clearance was analyzed, and thermal enhancement characteristics were predicted innovatively using topological analysis method.}}, author = {{Zhao, Zhiqi and Luo, Lei and Qiu, Dandan and Wang, Songtao and Wang, Zhongqi and Sunden, Bengt Ake}}, issn = {{0961-5539}}, keywords = {{Gap clearance; Heat transfer; Serpentine channel; Topology}}, language = {{eng}}, number = {{1}}, pages = {{219--240}}, publisher = {{Emerald Group Publishing Limited}}, series = {{International Journal of Numerical Methods for Heat and Fluid Flow}}, title = {{Effect of divider wall-to-end wall distance on the vortical structures and heat transfer characteristics of two-pass channel using topological analysis}}, url = {{http://dx.doi.org/10.1108/HFF-01-2021-0035}}, doi = {{10.1108/HFF-01-2021-0035}}, volume = {{32}}, year = {{2022}}, }