An experimental study on thermal characteristics of nanofluid with graphene and multi-wall carbon nanotubes

被引:0
作者
A. K. M. Mahmudul Haque
Sunghyun Kwon
Junhyo Kim
Jungpil Noh
Sunchul Huh
Hanshik Chung
Hyomin Jeong
机构
[1] Gyeongsang National University,Department of Ocean System Engineering
[2] Gyeongsang National University,Department of Marine Environmental Engineering
[3] Mokpo National Maritime University,Department of Marine Engineering
[4] Institute of Marine Industry,Department of Energy and Mechanical Engineering, Gyeongsang National University
来源
Journal of Central South University | 2015年 / 22卷
关键词
graphene; carbon nanotube; surfactant; dispersibility; thermal conductivity;
D O I
暂无
中图分类号
学科分类号
摘要
High-thermal conductivity enhancement of nanofluid is one of the promising topics of the nanoscience research field. This work reports the experimental study on the preparation of graphene (GN) and multi-walled carbon nanotubes (MWCNTs) based nanofluids with the assistance of sodium dodecyl benzene sulfonate (SDBS) and sodium dodecyl sulfate (SDS) surfactants, and their thermal behaviors. The present work suggests not a solution, but a solution approach and deduces a new conclusion by trying to resolve the agglomeration problem and improve the dispersibility of nanoparticles in the base fluid. The analysis results of FESEM, thermal conductivity, diffusivity, effusivity and heat transfer coefficient enhancement ratio of nanofluid with surfactants SDS and SDBS expose strong evidence of the dispersing effect of surfactant on the making of nanofluid.
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页码:3202 / 3210
页数:8
相关论文
共 184 条
  • [21] Ausman K D(2007)Single-shell carbon nanotubes of 1-nm diameter [J] Adv Mater 19 4198-1382
  • [22] Smalley R E(2014)Ultrastrong, stiff, and lightweight carbon-nanotube fibers [J] Ceram Int 40 511-620
  • [23] Nouri A(2009)Effects of dispersion surfactants on the properties of ceramic–carbon nanotube (CNT) nanocomposites [J] Small 5 2467-273
  • [24] Wen C(2000)Flexible high-conductivity carbon-nanotube interconnects made by rolling and printing [J] Phys Rev Lett 84 4613-6425
  • [25] Munkhbayar B(2006)Unusually high thermal conductivity of carbon nanotubes [J] Nano Lett 6 96-813
  • [26] Hwang S(2011)Thermal Conductance of an Individual single-wall carbon nanotube above room temperature [J] Adv Mater 23 1482-3759
  • [27] Kim J(2014)Emerging transparent electrodes based on thin films of carbon nanotubes, graphene, and metallic nanostructures [J] Nanoscale 6 3037-1049
  • [28] Bae K(2013)A review of production methods of carbon nanotube and graphene thin films for electrothermal applications [J] ACS Nano 7 7062-148
  • [29] Ji M(2013)Conductive thin films of pristine graphene by solvent interface trapping [J] Mater Chem Phys 141 636-undefined
  • [30] Sun Q(2003)Highly productive synthesis process of well dispersed Cu2O and Cu/Cu2O nanoparticles and its thermal characterization [J] Nano Lett 3 1379-undefined
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