標題: | 合成噴流衝擊於平板之熱傳研究 Heat Transfer of Synthetic Jet Impingement Cooling over Flat Surfaces |
作者: | 蔡書堯 Tsai, Shu-Yao 劉耀先 Liu, Yao-Hsien 機械工程系所 |
關鍵字: | 衝擊冷卻;熱線;合成噴流;Jet impingement;Hot-wire;Synthetic jet |
公開日期: | 2012 |
摘要: | 現今的儀器舉凡電腦等由於效能愈來愈好,因此所產生的熱量也相對增大,而當電子產品內部電子元件一旦有廢熱無法有效排出,則溫度會逐漸升高,電子產品將會無法正常運作,儀器將容易當機而降低使用壽命。故如何降低熱量則成為現今發展之問題,其中合成噴流(Synthetic jet)即為一種解決方法,我們將研究此方法來冷卻電子設備和其它設備。
本實驗使用壓電蜂鳴片做為進氣動力源,使工作流體流動衝擊於高溫表面上,並藉由改變進氣高度-直徑比(Z/d)為2至25之間、而噴嘴孔口直徑為3mm、觀測銅片面積為50×50 mm2、雷諾數為500至1300之間、壓電振動頻率為200Hz至800Hz之間,並在這些參數下,研究各種情況下衝擊冷卻的熱傳增益之影響。
由實驗結果可知,跟自然對流的熱傳係數相比,本實驗所用之合成噴流最大熱傳導係數可高達7倍以上,而平均紐森數方面,除了發現跟雷諾數成正比關係外,也發現在不同衝擊高度比且相同雷諾數時,激發頻率高的散熱效果比激發頻率低的好。 Impingement heat transfer from synthetic air jet on a heated surface is experimentally studied. Synthetic jet offers high heat transfer coefficient in compact design, which is suitable for the thermal management of electronic devices such as high-power electronic chips. The synthetic jet is produced by the high frequency oscillating motion (200 - 800 Hz) of a piezoelectric actuator. The jet Reynolds number ranges from 500 to 1,300 and the velocity profile of this synthetic jet issuing from the jet hole is measured by the hot-wire anemometer. The diameter of the jet hole is 3 mm and the jet-to-surface spacing (Z/d) ranges from 2 -25. The copper plate is square and measure 50 × 50 mm2.In this study, the effect of excitation frequency, jet-to-surface spacing, and jet Reynolds number are tested. Results showed that heat transfer enhancement with the synthetic jet are at least 7 times higher than the natural convective heat transfer. Synthetic jets were found to remove more heat when operating at high frequency and same Reynolds number. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#GT070051067 http://hdl.handle.net/11536/72788 |
Appears in Collections: | Thesis |