�apraz ak��a dald�r�lm�� �oklu sentetik jetlerin �s� transferine etkisinin deneysel incelenmesi

Akdag, Unal; Akcay, Selma; G�ng�r, Bekir; Palancioglu, Hakan

Cilt : 31 Say� : 1 Y�l : 2025

31/1Son Say� Erken Bask� Ar�iv Pop�ler Makaleler Makale G�nderimi

�apraz ak��a dald�r�lm�� oklu sentetik jetlerin �s� transferine etkisinin deneysel incelenmesi [Pamukkale Univ Muh Bilim Derg]

Pamukkale Univ Muh Bilim Derg. Bask�daki Makaleler: PAJES-23428 | DOI: 10.5505/pajes.2024.23428

�apraz ak��a dald�r�lm�� oklu sentetik jetlerin �s� transferine etkisinin deneysel incelenmesi

Unal Akdag¹, Selma Akcay², Bekir G�ng�r¹, Hakan Palancioglu¹
¹Aksaray �niversitesi, M�hendislik Fak�ltesi, Makine M�hendisli�i B�l�m�, Aksaray
²�ank�r� Karatekin �niversitesi, M�hendislik Fak�ltesi, Makine M�hendisli�i B�l�m�, �ank�r�

Bu �al��mada, alt y�zeyi �s�t�lm�� kare kesitli bir kanal i�erisindeki zorlanm�� apraz ak��a dald�r�lm�� oklu sentetik jet (s�f�r k�tle ak�l�) �arpmas�n�n �s� transferine etkisi deneysel olarak ara�t�r�lm��t�r. Cebri kanal ak��nda, ana ak��a �apraz olarak yerle�tirilen alt� adet sentetik jetin farkl� Reynolds say�lar�nda (6000 ≤ Re ≤ 40000) d�rt farkl� boyutsuz genlik (Ao: 0,22, 0,44, 0,66 ve 0,88) ve alt� farkl� boyutsuz frekans (Wo: 11, 16, 19, 22, 25 ve 27) i�in �s� transferine etkisi deneysel olarak incelenmi�tir. Bak�r borulardan yap�lm�� nozullar, ana ak�� i�erisine dikey olarak dald�r�lm�� ve nozullar�n alt ucu hedef y�zeye 2 cm mesafede yerle�tirilmi� olup, ana ak��n t�rb�lansl� rejiminde �s� transferine etkileri analiz edilmi�tir. Kanal giri� ve ��k��lar�na ve hedef y�zey �zerine yerle�tirilmi� �s�l �iftler arac�l�� ile s�cakl�k �l��mleri yap�lm��t�r. Elde edilen s�cakl�klar yard�m�yla Nusselt say�lar� (Nu) hesaplanm��t�r. Ayr�ca kanal giri� ve ��k�� aras�ndaki bas�n� kayb� tespit edilerek termo-hidrolik performans (THP) de�erleri hesaplanm��t�r. Elde edilen sonu�lar, Re=6000�de, artan genlik ve frekansla hedef y�zey s�cakl��n�n kayda de�er �ekilde d��t��n� ve artan Reynolds say�lar�nda genlik ve frekans�n y�zey s�cakl�klar� �zerindeki etkilerinin azald��n� g�stermi�tir. Re=6000, Wo=27 ve Ao=0,88 i�in daim� ak��a g�re 2,74 kat �s� transferinin iyile�ti�i tespit edilmi�tir. �al��lan t�m Reynolds say�lar� i�in artan genlik ve frekansla THP de�erlerinin artt�� g�zlenmi�tir. Sabit bir jet parametresi i�in (Ao=0,88 ve Wo=27) en y�ksek THP, Re=6000�de 2,6 olarak tespit edilmi�tir.

Anahtar Kelimeler: �oklu sentetik jet, Cebri ta��n�m, Kanal ak��, Is� transferi iyile�tirme

Experimental investigation of the effect of submerged multiple synthetic jets on heat transfer in cross-flow

Unal Akdag¹, Selma Akcay², Bekir G�ng�r¹, Hakan Palancioglu¹
¹Aksaray University, Engineering Faculty, Mechanical Engineering Department, Aksaray, Turkey
²Cankiri Karatekin University, Engineering Faculty, Mechanical Engineering Department, Cankiri, Turkey

In this study, the effect of multiple synthetic jet (zero mass flux) impingement on heat transfer, immersed in forced crossflow in a square-section channel with a heated bottom surface, was experimentally investigated. In the forced channel flow, effects on heat transfer six synthetic jets placed diagonally in the main flow have four different dimensionless amplitudes (Ao: 0,22, 0,44, 0,66 and 0,88) and six different dimensionless frequencies (Wo: 11, 16, 19, 22, 25, and 27) at different Reynolds numbers (6000 ≤ Re ≤ 40000) were examined experimentally. Nozzles made of copper pipes were immersed vertically into the main flow and the lower end of the jets was placed 2 cm from the target surface, and their effects on heat transfer in the turbulent regime of the main flow were analyzed. Temperature measurements were made using thermocouples placed at the channel entrances, exits, and on the target surface. Nusselt numbers (Nu) were calculated with the help of the obtained temperatures. In addition, the pressure loss between the channel inlet and outlet was determined and thermo-hydraulic performance (THP) values were calculated. The results showed that at Re = 6000, the target surface temperature decreased significantly with increasing amplitude and frequency, and the effects of amplitude and frequency on surface temperatures decreased at increasing Reynolds numbers. It was determined that for Re = 6000, Wo = 27, and Ao = 0,88, heat transfer was improved by 2,74 times compared to steady flow. It was observed that THP values increased with increasing amplitude and frequency for all Reynolds numbers tested. For a constant jet parameter (Ao = 0,88 and Wo = 27), the highest THP was determined as 2,6 at Re = 6000.

Keywords: Multiple Synthetic jet, Forced convection, Channel flow, Heat transfer enhancement

Sorumlu Yazar: Unal Akdag, T�rkiye
Makale Dili: T�rk�e

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�apraz ak��a dald�r�lm�� �oklu sentetik jetlerin �s� transferine etkisinin deneysel incelenmesi

Experimental investigation of the effect of submerged multiple synthetic jets on heat transfer in cross-flow

�apraz ak��a dald�r�lm�� oklu sentetik jetlerin �s� transferine etkisinin deneysel incelenmesi