Announcement for Downloading full text filePlease respect the Copyright Act.
All digital full text dissertation and theses from this website are authorized the copyright owners. These copyrighted full-text dissertation and theses can be only used for academic, research and non-commercial purposes. Users of this website can search, read, and print for personal usage. In respect of the Copyright Act of the Republic of China, please do not reproduce, distribute, change, or edit the content of these dissertations and theses without any permission. Please do not create any work based upon a pre-existing work by reproduction, Adaptation, Distribution or other means.
URN etd-0725106-235928 Statistics This thesis had been viewed 2708 times. Download 911 times. Author Hui-Ju Hsieh Author's Email Address firstname.lastname@example.org Department Mechanical Engineering Year 2005 Semester 2 Degree Master Type of Document Master's Thesis Language zh-TW.Big5 Chinese Page Count 85 Title Optimization of Heat Sink Modules by Integrating Computer-Aided Analysis Software Keyword thermal resistance CAD analysis software Simplified Conjugate Gradient Method Simplified Conjugate Gradient Method CAD analysis software thermal resistance Abstract Within this research, we mainly focus on the integration of commercially available analysis software and the optimalizing methods to conduct the optimalizing design for heat sink modules. The optimalizing method adopted by this research is exactly the Simplified Conjugate Gradient Method and the CAD analysis software we adopt is CFD-ACE+ (ESI Group). Within our research, we focus on 2 type of arrangement, namely the downward blow type and the sideward blow type implement the optimalization search for geometric parameters of heat sink modules (such as fin thickness, spacing of fin, fin height and base thickness). It is our expectation that the thermal resistance of heat sink can be minimized. The research results indicate that the method under our research can really reach the search for heat sink modules with the optimal parameter combinations affected by various restrict conditions. Advisor Committee Chin-Hsiang Cheng - advisor
Rong-Hua Yeh - co-chair
Ting-Hsien Lan - co-chair
Files Date of Defense 2006-07-18 Date of Submission 2006-07-27