"Cooling an array of multiple heat sources by a row of slot air jets", International Journal of Heat and Mass Transfer, Vol. (49), pp. 2597-2609.
International Journal of Heat and Mass Transfer • 2006
معلومات البحث
المؤلفون
A.S. Huzyyien, S.A. Nada, M.A. Rady, and A. Faris.
الكلمات المفتاحية
Not Available
المجلة العلمية
International Journal of Heat and Mass Transfer
الناشر
Elsevier
المجلد
49
العدد
Not Available
الصفحات
2597-2609
publication.type
Local
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
An experimental study of cooling an array of multiple heat sources simulating electronic equipment by a single row of slot air jets
positioned above a critical row (row having maximum heat dissipation rate) of the array was conducted. The other low power rows
of the array were cooled by the spent air flow from the air jets. The experimental work was carried out in two phases. In the first phase,
each block of the array was heated at a time and the other blocks of the array were kept unheated. The Nusselt number of each heated
block and the thermal wake effect on downstream blocks were investigated and correlated for different values of jet Reynolds number,
position of the block with respect to the jet impingement point and the separation distance between the orifice plate and the impingement
surface. A superposition technique was implemented to demonstrate the practical importance of the present correlations in predicting the
operating temperature of any block in an array with multiple heated blocks. In the second phase, the experiments were carried out with
heating all the blocks at the same time. This phase was carried out to verify the superposition technique used to predict the operating
temperature of the blocks of the array in the case of the multiple heating.
positioned above a critical row (row having maximum heat dissipation rate) of the array was conducted. The other low power rows
of the array were cooled by the spent air flow from the air jets. The experimental work was carried out in two phases. In the first phase,
each block of the array was heated at a time and the other blocks of the array were kept unheated. The Nusselt number of each heated
block and the thermal wake effect on downstream blocks were investigated and correlated for different values of jet Reynolds number,
position of the block with respect to the jet impingement point and the separation distance between the orifice plate and the impingement
surface. A superposition technique was implemented to demonstrate the practical importance of the present correlations in predicting the
operating temperature of any block in an array with multiple heated blocks. In the second phase, the experiments were carried out with
heating all the blocks at the same time. This phase was carried out to verify the superposition technique used to predict the operating
temperature of the blocks of the array in the case of the multiple heating.
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