標題: 活塞頂部之熱傳分析
A Numerical Analysis of Heat Transfer on the Crown of the Piston
作者: 廖英皓
Ying-Hao
傅武雄
Wu-Shung Fu
機械工程學系
關鍵字: 活塞;Piston
公開日期: 2002
摘要: 本文主要目的在以數值方法探討活塞內部加裝一冷卻渠道,觀察此冷卻渠道隨活塞做往復運動下,渠道內部流場和溫度場的變化,並討論冷卻流體對活塞高溫壁面的熱傳增益。 本研究採用葛拉金有限元素法,配合Arbitrary Lagrangian-Eulerian (ALE)座標描述方法,首先探討冷卻流體在往復運動下的流場和溫度場之變化,以瞭解這類問題的運動機制,並進而針對不同的活塞振盪頻率、振幅和流場雷諾數,比較其對活塞高溫壁面的熱傳增益。綜合所獲得的研究結果,當活塞運動後,會在活塞高溫壁面附近產生類似牽引和推擠流體現象,使得原本附在高溫壁面上之溫度邊界層受到擾動而被破壞和縮小,熱傳效果會有效提升。
The aim of the numerical analysis is to investigate the variations of flow and thermal fields in the cooling channel within the reciprocating piston, and discuss the heat transfer effect of the cooling flow on the heated crown of the piston. At first, a Galerkin finite element formulation with ALE method is adopted to investigate the variations of the flow and thermal fields induced by the reciprocation of the piston. Then, this study will express the comparisons of the heat transfer effect on the heated surface of the piston reciprocating with different oscillating frequencies, oscillating amplitudes, and Reynolds numbers. Based on the above procedures, the results show that the reciprocating piston may draw and push the cooling flow. This phenomenon will destroy the thermal boundary layer and contract its thickness. Therefore, the heat transfer rate is enhanced more remarkably.
URI: http://140.113.39.130/cdrfb3/record/nctu/#NT910489058
http://hdl.handle.net/11536/70814
顯示於類別:畢業論文