Analysis of Thermal and Flow Characteristics in a Combined Cross-Flow and Jet-Flow Configuration with Flow-Guiding Fins

被引：3

作者：

Ozturk, M. S. ^{[1
]}

Demircan, T. ^{[2
]}

机构：

[1] Kirikkale Univ, Grad Sch Nat & Appl Sci, Dept Mech Engn, TR-71450 Kirikkale, Turkey

[2] Kirikkale Univ, Fac Engn & Architecture, Dept Mech Engn, TR-71450 Kirikkale, Turkey

来源：

JOURNAL OF APPLIED FLUID MECHANICS | 2022年 / 15卷 / 06期

关键词：

Cross-flow; Impinging jet; Electronic cooling; Heat transfer; CFD; HEAT-TRANSFER CHARACTERISTICS; RECTANGULAR FLAT-PLATE; IMPINGING JET; NUMERICAL-ANALYSIS; PRESSURE-DROP; SMALL NOZZLE; IMPINGEMENT; HYDRODYNAMICS; ARRAY;

D O I：

10.47176/jafm.15.06.1201

中图分类号：

O414.1 [热力学];

学科分类号：

摘要：

This study investigated the enhanced cooling of electronic components at high temperatures with cross-flow and jet-flow combinations. The cooling performance of four different model geometries (Models 1, 2, 3, and 4) of an electronic component was analysed by considering different jet-to-channel inlet velocity ratios (V-j/V-c) and ratios of the distance between the jet and impinging surface to jet diameter (H/D). The V-j/V(c )and H/D ratios were varied in the 0-3 and 2-4 ranges, respectively, in the computational fluid dynamics analysis. The thermal and flow characteristics were revealed through a comparative result analysis, also considering results from the literature. The heat transfer improved, the Nusselt number increased, and the electronic surface temperature decreased with an increase in the V-j/V-c ratio. However, the Nusselt number decreased with an increase in the H/D ratio. Models 2 and 4 had higher heat transfer from the electronic component than the other models. A low H/D ratio and low V-j/V-c ratio yielded higher heat transfer in Model 3 than in Model 1.

引用

页码：1729 / 1744

页数：16

共 50 条

[21] Structure of the flow field of a nonpremixed gas jet flame in cross-flow
Savas, O
Huang, RF
Gollahalli, SR
JOURNAL OF ENERGY RESOURCES TECHNOLOGY-TRANSACTIONS OF THE ASME, 1997, 119 (02): : 137 - 144
[22] THE STABILITY AND VISUALIZED FLAME AND FLOW STRUCTURES OF A COMBUSTING JET IN CROSS-FLOW
HUANG, RF
CHANG, JM
COMBUSTION AND FLAME, 1994, 98 (03) : 267 - 278
[23] Turbulent Flow Modelling of a Jet in a Cross-Flow Stream: Model and App
Tabatabaian, M.
SIMULTECH: PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON SIMULATION AND MODELING METHODOLOGIES, TECHNOLOGIES AND APPLICATIONS, 2019, 2019, : 197 - 201
[24] UNSTEADY FLOW ANALYSIS IN A CROSS-FLOW FAN WITH A CASING
Chen Cichang(Jiangsu University of Science and Technology)
Chinese Journal of Mechanical Engineering(English Edition), 1995, (03) : 228 - 237+243
[25] HEAT-TRANSFER CHARACTERISTICS OF AN IMPINGING JET IN A CROSS-FLOW
HOLLWORTH, BR
BOWLEY, WW
MECHANICAL ENGINEERING, 1976, 98 (06) : 116 - 116
[26] Initial dilution characteristics of an oscillating jet in cross-flow environment
Xu, Zhenshan
Huang, Zhenchao
Li, Meng
Chen, Yongping
Zhang, Changkuan
Shuikexue Jinzhan/Advances in Water Science, 2022, 33 (06): : 1000 - 1008
[27] Numerical Study of Emission Characteristics of a Jet Flame in Cross-Flow
Lawal, M. S.
Fairweather, M.
Ingham, D. B.
Ma, L.
Pourkashanian, M.
Williams, A.
COMBUSTION SCIENCE AND TECHNOLOGY, 2010, 182 (10) : 1491 - 1510
[28] THE TURBULENCE CHARACTERISTICS OF A SINGLE IMPINGING JET THROUGH A CROSS-FLOW
BARATA, JMM
DURAO, DFG
HEITOR, MV
MCGUIRK, JJ
EXPERIMENTAL THERMAL AND FLUID SCIENCE, 1992, 5 (04) : 487 - 498
[29] Experimental Study on Flow and Heat Transfer Characteristics of Jet Array Impingement Combined with Kagome Truss Structures with/without Cross-flow
Ruan, Qicheng
Xu, Liang
Xi, Lei
Chen, Hanghang
Gao, Jianmin
Li, Yunlong
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2023, 207
[30] Running characteristics of a cross-flow water turbine in oscillating flow
Fukutomi, J
Nakase, Y
PROCEEDINGS OF THE SIXTH (1996) INTERNATIONAL OFFSHORE AND POLAR ENGINEERING CONFERENCE, VOL I, 1996, 1996, : 75 - 81

← 1 2 3 4 5 →