查詢結果分析
相關文獻
- 具強制熱對流旋轉圓柱體之熱分析
- 以暫態液晶影像技術量測矩形槽道內圓形鰭柱周圍邊壁之熱傳特性
- 往復運動對內設凸起物管流熱傳現象影響之實驗研究
- Numerical Modeling of Transient Natural Convection Heat Transfer from a Tank-In-Pool Type Reactor
- T-型模具之有限元素法PID溫度控制分析
- Computer Simulation of Electro-Thermomechanical Interactions of an Oxygen Sensor during Warm-Up
- 植物組培瓶內熱傳模式之研究
- 鋁合金消失模鑄造法界面熱傳係數之量測與其在凝固模擬上之應用
- A Study on Filmwise Condensation on Horizontal Surfaces--Flat Plate with Uniform Heat Flux
- 冷媒R-134a對池核沸騰的熱傳增強方法
頁籤選單縮合
題名 | 具強制熱對流旋轉圓柱體之熱分析=Thermal Analysis of Rotating Cylinder with Forced Convection Heat Transfer |
---|---|
作者 | 鄭澤明; 曾憲中; 黃欣雅; 詹皓任; 黃偉凱; 曾憲中; Jeng, Tzer-ming; Tzeng, Shung-chung; Huang, Hsin-ya; Jhan, Hao-ren; Huang, Wei-kai; Tzeng, Shung-Chung; |
期刊 | 建國科大理工期刊 |
出版日期 | 20151000 |
卷期 | 35:1 2015.10[民104.10] |
頁次 | 頁67-77 |
分類號 | 448.5 |
語文 | chi |
關鍵詞 | 暫態液晶法; 旋轉圓柱體; 橫向溝槽式噴流; 熱傳; Transient liquid crystal method; Rotating cylinder; Transverse slot impinging jet; Heat transfer; |
中文摘要 | 本研究以暫態液晶實驗法測定旋轉圓柱體於側向溝槽式衝擊噴流下之細部熱傳係數,納入考量的影響因子包括:(a)噴流流量、(b)噴射距離、(c)圓柱旋轉速度,研究結果指出,當噴射流量越大,其熱傳係數會相對增強;當噴射距離增大,熱傳係數會先增大、然後再略減低;當測試狀態為旋轉時,熱傳分佈相當均勻,未旋轉之測試例則呈現迎風面往後單調下降的熱傳係數分布;當圓柱轉速愈高,相對增強整體熱傳效能。實驗結果提供相關動力旋轉機械採用側向衝擊冷卻技術時的重要參考基礎。 |
英文摘要 | This work measured the detailed heat transfer coefficients at the surface of rotating cylinder with transverse slot impinging jet. The relevant variable factors were: (a) the flow rate of impinging jet, (b) the impinging distance, and (c) the rotational speed of cylinder. The experimental results indicate that the heat transfer coefficients increased with the flow rate of impinging jet. When the impinging distance increased continuously, the heat transfer coefficients firstly increased and then decreased slowly. The distribution of heat transfer coefficients was smooth and uniform as the cylinder rotating. When the cylinder was stationary, the heat transfer coefficients monotonically declined away from the windward side. Besides, rotation raised the total heat transfer capacity. The relevant results can be the important base for the design of the transverse impinging cooling technique applied to the power rotational machines. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。