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-0720105-234829 Statistics This thesis had been viewed 2677 times. Download 1660 times. Author Chi-Tien Huang Author's Email Address firstname.lastname@example.org Department Mechanical Engineering Year 2004 Semester 2 Degree Master Type of Document Master's Thesis Language English Page Count 63 Title The measurement of thermal Conductivity of Nanofluids Keyword Nanofluids Nanofluids Abstract The focus of this paper is on “the strategy of heat conduction measurement with nanofluids”. A novel research of new medium is nanofluids, blend of particle of nano-solid and nano-fluid can increase the efficiency of heat transfer. Besides, due to the dimension of particle of nano-solid is extremely smaller than that of the particle in millimeter or micrometer dimension, the property of solid-fluid blend is similar to pure fluid, furthermore, avoid the drawback of corroding and obstruct.
The model of experiment is a cylindrical container, its top side is heat source, and bottom side is cold source. The other boundary is insulated. Base on the mathematical equation: the quantity of conduction heat flex is equal to the product of heat conduction coefficient and gradient of temperature, we expect to obtain the result which is better than that of Transient Hot-wire Method and Steady-State Parallel-Plate Method, and simplify the strategy of measurement.
Advisor Committee Hong-Sen Kou - advisor
Ji-Jen Lee - advisor
Files Date of Defense 2005-07-20 Date of Submission 2005-07-20