TY - JOUR
T1 - Small particles, big impacts
T2 - A review of the diverse applications of nanofluids
AU - Taylor, Robert
AU - Coulombe, Sylvain
AU - Otanicar, Todd
AU - Phelan, Patrick
AU - Gunawan, Andrey
AU - Lv, Wei
AU - Rosengarten, Gary
AU - Prasher, Ravi
AU - Tyagi, Himanshu
N1 - Funding Information: The authors gratefully acknowledge the support provided by the U.S. National Science Foundation through Grants CBET-0932720 and CBET-1066705, the Natural Sciences and Engineering Research Council of Canada (NSERC), and the University of New South Wales. Funding Information: What does the future hold for nanofluids? If the diverse, emerging applications described in this article are any indication, the answer is: quite a lot. Unfortunately, funding trends in the thermal transport community (commonly associated with nanofluids research) shows signs of decline. For the last five years, the appearance of funded abstracts with the word “nanofluid” from the National Science Foundation's Thermal Transport Processes Program has been declining since its peak of 28 in 2007. Thus, nanofluid heat transfer research appears to be in a downtrend. Meanwhile non-heat transfer nanofluid research enjoys exponential growth. The NSF funding trend could signify that heat transfer nanofluids are beyond the basic research stage, i.e., that they are ready for application. Based on the research reviewed for this article, we conclude that nanofluid research (albeit not necessary the fundamental heat transfer branch) is rapidly expanding. Nanofluids can theoretically be produced from any bulk material and mixed into any fluid (liquid or gas). Overall, our extensive review concludes that nanofluids—in various guises—will continue to make big impacts for years to come. ACKNOWLEDGMENTS
PY - 2013/1/7
Y1 - 2013/1/7
N2 - Nanofluids - a simple product of the emerging world of nanotechnology - are suspensions of nanoparticles (nominally 1-100 nm in size) in conventional base fluids such as water, oils, or glycols. Nanofluids have seen enormous growth in popularity since they were proposed by Choi in 1995. In the year 2011 alone, there were nearly 700 research articles where the term nanofluid was used in the title, showing rapid growth from 2006 (175) and 2001 (10). The first decade of nanofluid research was primarily focused on measuring and modeling fundamental thermophysical properties of nanofluids (thermal conductivity, density, viscosity, heat transfer coefficient). Recent research, however, explores the performance of nanofluids in a wide variety of other applications. Analyzing the available body of research to date, this article presents recent trends and future possibilities for nanofluids research and suggests which applications will see the most significant improvement from employing nanofluids.
AB - Nanofluids - a simple product of the emerging world of nanotechnology - are suspensions of nanoparticles (nominally 1-100 nm in size) in conventional base fluids such as water, oils, or glycols. Nanofluids have seen enormous growth in popularity since they were proposed by Choi in 1995. In the year 2011 alone, there were nearly 700 research articles where the term nanofluid was used in the title, showing rapid growth from 2006 (175) and 2001 (10). The first decade of nanofluid research was primarily focused on measuring and modeling fundamental thermophysical properties of nanofluids (thermal conductivity, density, viscosity, heat transfer coefficient). Recent research, however, explores the performance of nanofluids in a wide variety of other applications. Analyzing the available body of research to date, this article presents recent trends and future possibilities for nanofluids research and suggests which applications will see the most significant improvement from employing nanofluids.
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U2 - 10.1063/1.4754271
DO - 10.1063/1.4754271
M3 - Review article
SN - 0021-8979
VL - 113
JO - Journal of Applied Physics
JF - Journal of Applied Physics
IS - 1
M1 - 011301
ER -