VISCOSITY MEASUREMENTS ON COLLOIDAL DISPERSIONS (NANOFLUIDS) FOR HEAT TRANSFER APPLICATIONS
- Authors
- Venerus, David C.; Buongiorno, Jacopo; Christianson, Rebecca; Townsend, Jessica; Bang, In Cheol; Chen, Gang; Chung, Sung Jae; Chyu, Minking; Chen, Haisheng; Ding, Yulong; Dubois, Frank; Dzido, Grzegorz; Funfschilling, Denis; Galand, Quentin; Gao, Jinwei; Hong, Haiping; Horton, Mark; Hu, Lin-wen; Iorio, Carlo S.; Jarzebski, Andrzej B.; Jiang, Yiran; Kabelac, Stephan; Kedzierski, Mark A.; Kim, Chongyoup; Kim, Ji-Hyun; Kim, Sukwon; McKrell, Thomas; Ni, Rui; Philip, John; Prabhat, Naveen; Song, Pengxiang; Van Vaerenbergh, Stefan; Wen, Dongsheng; Witharana, Sanjeeva; Zhao, Xiao-Zheng; Zhou, Sheng-Qi
- Issue Date
- 2010
- Publisher
- KERSCHENSTEINER VERLAG GMBH
- Keywords
- nanofluids; colloidal dispersion; viscosity; thermal conductivity
- Citation
- APPLIED RHEOLOGY, v.20, no.4
- Indexed
- SCIE
SCOPUS
- Journal Title
- APPLIED RHEOLOGY
- Volume
- 20
- Number
- 4
- URI
- https://scholar.korea.ac.kr/handle/2021.sw.korea/118556
- DOI
- 10.3933/ApplRheol-20-44582
- ISSN
- 1430-6395
- Abstract
- This article reports viscosity data on a series of colloidal dispersions collected as part of the International Nanofluid Property Benchmark Exercise (INPBE). Data are reported for seven different fluids that include dispersions of metal-oxide nanoparticles in water, and in synthetic oil. These fluids, which are also referred to as 'nanofluids,' are currently being researched for their potential to function as heat transfer fluids. In a recently published paper from the INPBE study, thermal conductivity data from more than 30 laboratories around the world were reported and analyzed. Here, we examine the influence of particle shape and concentration on the viscosity of these same nanofluids and compare data to predictions from classical theories on suspension rheology.
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Collections - College of Engineering > Department of Chemical and Biological Engineering > 1. Journal Articles
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