Numerical Analysis of Roughened Target Surface for Enhancing Jet Impingement Cooling

被引：0

作者：

Yalcinkaya, Orhan ^{[1
]}

Durmaz, Ufuk ^{[1
]}

Tepe, Ahmet Umit ^{[2
]}

Benim, Ali Cemal ^{[3
]}

Uysal, Unal ^{[1
]}

机构：

[1] Sakarya Univ, Mech Engn Dept, TR-54050 Serdivan, Sakarya, Turkiye

[2] Tarsus Univ, Dept Elect & Energy, TR-33100 Mersin, Turkiye

[3] Dusseldorf Univ Appl Sci, Munsterstr 156, D-40476 Dusseldorf, Germany

来源：

ADVANCES IN COMPUTATIONAL HEAT AND MASS TRANSFER, ICCHMT 2023, VOL 1 | 2024年

关键词：

Roughened Surfaces; Aerofoil Shaped Pins; Heat Transfer Uniformity; Concave Surface; HEAT-TRANSFER ENHANCEMENT; FLAT SURFACE; AIR-JETS; CONCAVE SURFACE; DETACHED-RIBS; FLOW; ARRAY; PLATE;

D O I：

10.1007/978-3-031-67241-5_64

中图分类号：

O414.1 [热力学];

学科分类号：

摘要：

Roughening on a surface is crucial in heat transfer, primarily enhanced by the increased interaction between the fluid and the surface. Considering this, a thorough study was conducted to explore impinging jet array cooling (IJAC) applied to a semicircular curved surface, enhanced with aerofoil-shaped fins. Analyses were conducted under different Reynolds numbers (Re), fin arrangements, and nozzle-to-target surface spacings (S/d). Extensive analyses were conducted for both roughened and smooth target surfaces. The roughened surface and extending the nozzles to the surface increased the Nu numbers relative to the conventional IJAC scheme. The obtained heat transfer improvement was about 52.81%. In addition, the heat transfer distribution on the surface has become more homogeneous. The results of the study showed that a roughened target surface with elongated jets has significant potential for internal cooling.

引用

页码：713 / 720

页数：8

共 50 条

[31] Numerical investigation of jet array impingement cooling with effusion holes
Youn, Jun-Suk
Choi, Won-Woo
Kim, Sung-Min
APPLIED THERMAL ENGINEERING, 2021, 197 (197)
[32] Experimental and Numerical Investigations on Jet Impingement Cooling for Electronic Modules
Chu, Wen-Xiao
Huang, Kuan-Chang
Amer, Mohammed
Wang, Chi-Chuan
JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME, 2019, 141 (10):
[33] Experimental and numerical investigations on slot air jet impingement cooling of a heated cylindrical concave surface
Nouri-Bidgoli, H.
Ashjaee, M.
Yousefi, T.
HEAT AND MASS TRANSFER, 2014, 50 (04) : 437 - 448
[34] NUMERICAL SIMULATION OF TURBINE BLADE COOLING VIA JET IMPINGEMENT
Al Ali, Abdulla R.
Janajreh, Isam
CLEAN, EFFICIENT AND AFFORDABLE ENERGY FOR A SUSTAINABLE FUTURE, 2015, 75 : 3220 - 3229
[35] NUMERICAL CHARACTERIZATION OF A JET IMPINGEMENT COOLING SYSTEM USING COUPLED HEAT TRANSFER ANALYSIS
Kacar, E. Nadir
Erbay, L. Berrin
ASME TURBO EXPO: TURBINE TECHNICAL CONFERENCE AND EXPOSITION, 2015, VOL 5A, 2015,
[36] Experimental and numerical investigations on slot air jet impingement cooling of a heated cylindrical concave surface
H. Nouri-Bidgoli
M. Ashjaee
T. Yousefi
Heat and Mass Transfer, 2014, 50 : 437 - 448
[37] Experiment of heat transfer on concave surface in single jet impingement cooling system in small jet-to-target space
Mao, Jun-Kui
Liu, Zhen-Xiong
Guo, Wen
Tuijin Jishu/Journal of Propulsion Technology, 2008, 29 (02): : 143 - 148
[38] Numerical investigation of jet impingement cooling an isothermal surface using extended jet holes with various binary hybrid nanofluids
Boudraa, B.
Bessaih, R.
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER, 2021, 127
[39] Numerical study of free surface jet impingement on orthogonal surface
Baghel, Kuldeep
Sridharan, Arunkumar
Murallidharan, Janani Srree
INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 2019, 113 : 89 - 106
[40] Exergy analysis of solar heat collector with air jet impingement on dimple-shape-roughened absorber surface
Salman, Mohammad
Chauhan, Ranchan
Kim, Sung Chul
RENEWABLE ENERGY, 2021, 179 : 918 - 928

← 1 2 3 4 5 →