A Review on Nanofluids: Preparation, Stability Mechanisms, and Applications of Ethylene Glycol – Water Based Nanofluids Dispersed with Multi Walled Carbon Nanotubes

Nanofluids, the fluid suspensions of nanomaterials, have shown many interesting properties, and the distinctive features offer unprecedented potential for many applications. This paper summarizes the recent progress on the study of nanofluids, such as the preparation methods, the evaluation methods for the stability of nanofluids, and the ways to enhance the stability for nanofluids, the stability mechanisms of nanofluids, and presents the broad range of current and future applications in various fields including energy and mechanical and biomedical fields. At last, the paper identifies the opportunities for future research.

[1]  Wei Chen,et al.  MgO nanofluids: higher thermal conductivity and lower viscosity among ethylene glycol-based nanofluids containing oxide nanoparticles , 2010 .

[2]  Huaqing Xie,et al.  Highly Efficient Method for Preparing Homogeneous and Stable Colloids Containing Graphene Oxide , 2010, Nanoscale research letters.

[3]  Gayatri Paul,et al.  Techniques for measuring the thermal conductivity of nanofluids: A review , 2010 .

[4]  E. Timofeeva,et al.  Mechanisms and models of effective thermal conductivities of nanofluids. , 2010, Journal of nanoscience and nanotechnology.

[5]  Madhusree Kole,et al.  Thermal conductivity and viscosity of Al2O3 nanofluid based on car engine coolant , 2010 .

[6]  Huaqing Xie,et al.  Properties of carbon nanotube nanofluids stabilized by cationic gemini surfactant , 2010 .

[7]  Xiaohao Wei,et al.  Synthesis and thermal conductivity of microfluidic copper nanofluids , 2010 .

[8]  Robert A. Taylor,et al.  Nanofluid-based direct absorption solar collector , 2010 .

[9]  Zhen-hua Liu,et al.  A Kind of Nanofluid Consisting of Surface-Functionalized Nanoparticles , 2010, Nanoscale research letters.

[10]  Jing Fan,et al.  Nanofluids Research: Key Issues , 2010, Nanoscale research letters.

[11]  M. Abareshi,et al.  ZnO nanofluids: Green synthesis, characterization, and antibacterial activity , 2010 .

[12]  Wei Chen,et al.  Experimental investigation on thermal conductivity of nanofluids containing graphene oxide nanosheets , 2010 .

[13]  Wenjing Lou,et al.  Rheological and Tribological Properties of Ionic Liquid-Based Nanofluids Containing Functionalized Multi-Walled Carbon Nanotubes , 2010 .

[14]  Liu Yang,et al.  The Influence of Al2O3 Nanofluid on the Falling Film Absorption with Ammonia-water , 2010, 2010 Asia-Pacific Power and Energy Engineering Conference.

[15]  Yuan Kang,et al.  Size effects of SiO2 nanoparticles as oil additives on tribology of lubricant , 2010 .

[16]  E. Sani,et al.  Carbon nanohorns-based nanofluids as direct sunlight absorbers. , 2010, Optics express.

[17]  Zhijun Zhang,et al.  Functional graphene oxide as a nanocarrier for controlled loading and targeted delivery of mixed anticancer drugs. , 2010, Small.

[18]  Huaqing Xie,et al.  Enhancement of thermal conductivity of kerosene-based Fe3O4 nanofluids prepared via phase-transfer method , 2010 .

[19]  Dongsheng Zhu,et al.  Preparation and Melting/Freezing Characteristics of Cu/Paraffin Nanofluid as Phase-Change Material (PCM) , 2010 .

[20]  Georg Papastavrou,et al.  Attractive and repulsive electrostatic forces between positively charged latex particles in the presence of anionic linear polyelectrolytes. , 2010, The journal of physical chemistry. B.

[21]  Huaqing Xie,et al.  Enhanced thermal conductivities of nanofluids containing graphene oxide nanosheets , 2010, Nanotechnology.

[22]  S. Kakaç,et al.  Enhanced thermal conductivity of nanofluids: a state-of-the-art review , 2010 .

[23]  Huaqing Xie,et al.  Surfactant-free nanofluids containing double- and single-walled carbon nanotubes functionalized by a wet-mechanochemical reaction , 2010 .

[24]  K. Wepasnick,et al.  Chemical and structural characterization of carbon nanotube surfaces , 2010, Analytical and bioanalytical chemistry.

[25]  Simon Tung,et al.  A review on development of nanofluid preparation and characterization , 2009 .

[26]  Ravikanth S. Vajjha,et al.  Application of nanofluids in heating buildings and reducing pollution , 2009 .

[27]  H. Tyagi,et al.  Predicted Efficiency of a Low-Temperature Nanofluid-Based Direct Absorption Solar Collector , 2009 .

[28]  Hao Li,et al.  Antibacterial activities of zinc oxide nanoparticles against Escherichia coli O157:H7 , 2009, Journal of applied microbiology.

[29]  Debjyoti Banerjee,et al.  Flow Loop Experiments Using Polyalphaolefin Nanofluids , 2009 .

[30]  Xianju Wang,et al.  Influence of pH on the Stability Characteristics of Nanofluids , 2009, 2009 Symposium on Photonics and Optoelectronics.

[31]  E. Borowiak‐Palen,et al.  Single-wall carbon nanotubes based anticancer drug delivery system , 2009 .

[32]  F. Su,et al.  Enhancement of bubble absorption process using a CNTs-ammonia binary nanofluid , 2009 .

[33]  Huaqing Xie,et al.  Investigation of thermal conductivity and viscosity of ethylene glycol based ZnO nanofluid , 2009 .

[34]  A. Purwanto,et al.  Dispersion Stability Enhancement of Titania Nanoparticles in Organic Solvent Using a Bead Mill Process , 2009 .

[35]  A. Mishra,et al.  Optical properties in nanofluids of gold nanoparticles in poly(vinylpyrrolidone). , 2009, Journal of nanoscience and nanotechnology.

[36]  Anne J Anderson,et al.  Antimicrobial activities of commercial nanoparticles against an environmental soil microbe, Pseudomonas putida KT2440 , 2009, Journal of biological engineering.

[37]  Todd P Otanicar,et al.  Comparative environmental and economic analysis of conventional and nanofluid solar hot water technologies. , 2009, Environmental science & technology.

[38]  S. Kakaç,et al.  Review of convective heat transfer enhancement with nanofluids , 2009 .

[39]  Rajesh Singh,et al.  Nanoparticle-based targeted drug delivery. , 2009, Experimental and molecular pathology.

[40]  Mark R Wiesner,et al.  Comparative photoactivity and antibacterial properties of C60 fullerenes and titanium dioxide nanoparticles. , 2009, Environmental science & technology.

[41]  Huaqing Xie,et al.  Thermal performance enhancement in nanofluids containing diamond nanoparticles , 2009 .

[42]  Huaqing Xie,et al.  Adjustable thermal conductivity in carbon nanotube nanofluids , 2009 .

[43]  In Cheol Bang,et al.  Characteristic stability of bare Au-water nanofluids fabricated by pulsed laser ablation in liquids , 2009 .

[44]  Yongsheng Chen,et al.  Superparamagnetic graphene oxide–Fe3O4nanoparticles hybrid for controlled targeted drug carriers , 2009 .

[45]  Shung-Wen Kang,et al.  Experimental investigation of nanofluids on sintered heat pipe thermal performance , 2009 .

[46]  Shuo Yang,et al.  Influence of pH and SDBS on the Stability and Thermal Conductivity of Nanofluids , 2009 .

[47]  A. Vailati,et al.  Bistable heat transfer in a nanofluid. , 2009, Physical review letters.

[48]  M. Tong,et al.  Experimental study of thermal conductivity and phase change performance of nanofluids PCMs , 2009 .

[49]  S. A. Sebt,et al.  Stability Investigation of Colloidal FePt Nanoparticle Systems by Spectrophotometer Analysis , 2009 .

[50]  A. Mujumdar,et al.  A review on nanofluids - part I: theoretical and numerical investigations , 2008 .

[51]  Paisarn Naphon,et al.  Experimental investigation of titanium nanofluids on the heat pipe thermal efficiency , 2008 .

[52]  Sundara Ramaprabhu,et al.  Development of carbon nanotubes and nanofluids based microbial fuel cell , 2008 .

[53]  Huaqing Xie,et al.  Nanofluids containing carbon nanotubes treated by mechanochemical reaction , 2008 .

[54]  Pedro J J Alvarez,et al.  Fullerene water suspension (nC60) exerts antibacterial effects via ROS-independent protein oxidation. , 2008, Environmental science & technology.

[55]  Ashutosh Kumar Singh,et al.  Microwave synthesis of silver nanofluids with polyvinylpyrrolidone (PVP) and their transport properties , 2008 .

[56]  Albert J. Shih,et al.  Application of Nanofluids in Minimum Quantity Lubrication Grinding , 2008 .

[57]  Kantha D. Arunachalam,et al.  Ultrafine dispersed CuO nanoparticles and their antibacterial activity , 2008 .

[58]  Zhuang Liu,et al.  Nano-graphene oxide for cellular imaging and drug delivery , 2008, Nano research.

[59]  Srinivas Komati,et al.  CO2 absorption into amine solutions: a novel strategy for intensification based on the addition of ferrofluids , 2008 .

[60]  Zhuang Liu,et al.  PEGylated nanographene oxide for delivery of water-insoluble cancer drugs. , 2008, Journal of the American Chemical Society.

[61]  W. Lijun,et al.  Experimental Research on Tribological Properties of Mn0.78Zn0.22Fe2O4 Magnetic Fluids , 2008 .

[62]  Feng Zhou,et al.  A novel lubricant additive based on carbon nanotubes for ionic liquids , 2008 .

[63]  M. Nakano,et al.  Drug Delivery System Using Nano-Magnetic Fluid , 2008, 2008 3rd International Conference on Innovative Computing Information and Control.

[64]  Z. Han,et al.  Synthesis and thermal characterization of phase-changeable indium/polyalphaolefin nanofluids , 2008 .

[65]  He-long Yu,et al.  Tribological properties and lubricating mechanisms of Cu nanoparticles in lubricant , 2008 .

[66]  Haisheng Chen,et al.  Potential of nanofluids' to further intensify microreactors , 2008 .

[67]  Xinkui Wang,et al.  Novel phase-transfer preparation of monodisperse silver and gold nanoparticles at room temperature , 2008 .

[68]  Y. Mitamura,et al.  Application of a magnetic fluid seal to rotary blood pumps , 2008, Journal of physics. Condensed matter : an Institute of Physics journal.

[69]  Jacopo Buongiorno,et al.  Nanofluids for Enhanced Economics and Safety of Nuclear Reactors: An Evaluation of the Potential Features, Issues, and Research Gaps , 2008 .

[70]  Hongbin Ma,et al.  Nanofluids with plasma treated diamond nanoparticles , 2008 .

[71]  A. Manna,et al.  Antibacterial activity of ZnO nanoparticle suspensions on a broad spectrum of microorganisms. , 2008, FEMS microbiology letters.

[72]  R. Ocampo-Pérez,et al.  Adsorption of Fluoride from Water Solution on Bone Char , 2007 .

[73]  F. Su,et al.  Heat and mass transfer enhancement of the bubble absorption for a binary nanofluid , 2007 .

[74]  H. Dai,et al.  Supramolecular chemistry on water-soluble carbon nanotubes for drug loading and delivery. , 2007, ACS nano.

[75]  Xianju Wang,et al.  Evaluation on dispersion behavior of the aqueous copper nano-suspensions. , 2007, Journal of colloid and interface science.

[76]  Hong-Ming Lin,et al.  Copper-oxide brake nanofluid manufactured using arc-submerged nanoparticle synthesis system , 2007 .

[77]  S. U. S. Choi,et al.  Review and assessment of nanofluid technology for transportation and other applications. , 2007 .

[78]  Yulong Ding,et al.  Investigation into the antibacterial behaviour of suspensions of ZnO nanoparticles (ZnO nanofluids) , 2007 .

[79]  Somchai Wongwises,et al.  Critical review of heat transfer characteristics of nanofluids , 2007 .

[80]  B. Ku,et al.  Stability and thermal conductivity characteristics of nanofluids , 2007 .

[81]  C. Choi,et al.  Soret and Dufour effects on convective instabilities in binary nanofluids for absorption application , 2007 .

[82]  Doina Bica,et al.  Magnetic nanoparticles and concentrated magnetic nanofluids: Synthesis, properties and some applications , 2007 .

[83]  Jing Liu,et al.  Nano liquid-metal fluid as ultimate coolant , 2007 .

[84]  Haifeng Zhu,et al.  Novel Synthesis and Thermal Conductivity of CuO Nanofluid , 2007 .

[85]  Stephen U. S. Choi,et al.  Cooling performance of a microchannel heat sink with nanofluids , 2006 .

[86]  Jean-Pierre Benoit,et al.  Parameters influencing the stealthiness of colloidal drug delivery systems. , 2006, Biomaterials.

[87]  Milan Kolar,et al.  Silver colloid nanoparticles: synthesis, characterization, and their antibacterial activity. , 2006, The journal of physical chemistry. B.

[88]  Fang Tian,et al.  Aqueous-organic phase-transfer of highly stable gold, silver, and platinum nanoparticles and new route for fabrication of gold nanofilms at the oil/water interface and on solid supports. , 2006, The journal of physical chemistry. B.

[89]  G. Cheng,et al.  Surface modification of zinc oxide nanoparticle by PMAA and its dispersion in aqueous system , 2006 .

[90]  Qingsong Yu,et al.  Effect of nanofluid on the heat transport capability in an oscillating heat pipe , 2006 .

[91]  Maurizio Prato,et al.  Double functionalization of carbon nanotubes for multimodal drug delivery. , 2006, Chemical communications.

[92]  M. Demirbas Thermal Energy Storage and Phase Change Materials: An Overview , 2006 .

[93]  J. Dobson Magnetic nanoparticles for drug delivery , 2006 .

[94]  M. Prato,et al.  Applications of carbon nanotubes in drug delivery. , 2005, Current opinion in chemical biology.

[95]  Dan Li,et al.  Processable stabilizer-free polyaniline nanofiber aqueous colloids. , 2005, Chemical communications.

[96]  S. Tzeng,et al.  Heat transfer enhancement of nanofluids in rotary blade coupling of four-wheel-drive vehicles , 2005 .

[97]  H. Bönnemann,et al.  Monodisperse copper- and silver-nanocolloids suitable for heat-conductive fluids , 2005 .

[98]  Hong-Ming Lin,et al.  Fabrication of copper oxide nanofluid using submerged arc nanoparticle synthesis system (SANSS) , 2005 .

[99]  Tsing-Tshih Tsung,et al.  Shape-controlled synthesis of Cu-based nanofluid using submerged arc nanoparticle synthesis system (SANSS) , 2005 .

[100]  Y. Fukuda,et al.  Effect of Polymer Dispersant Structure on Electrosteric Interaction and Dense Alumina Suspension Behavior , 2004 .

[101]  Haifeng Zhu,et al.  A novel one-step chemical method for preparation of copper nanofluids. , 2004, Journal of colloid and interface science.

[102]  Ping-Hei Chen,et al.  Effect of structural character of gold nanoparticles in nanofluid on heat pipe thermal performance , 2004 .

[103]  Young Han Kim,et al.  Application of ferro-cobalt magnetic fluid for oil sealing , 2003 .

[104]  J. H. Kim,et al.  Effect of nanoparticles on critical heat flux of water in pool boiling heat transfer , 2003 .

[105]  M. Sastry,et al.  Phase transfer of silver nanoparticles from aqueous to organic solutions using fatty amine molecules. , 2003, Journal of colloid and interface science.

[106]  Han-Joo Lee,et al.  Antibacterial effect of nanosized silver colloidal solution on textile fabrics , 2003 .

[107]  William W. Yu,et al.  ANOMALOUSLY INCREASED EFFECTIVE THERMAL CONDUCTIVITIES OF ETHYLENE GLYCOL-BASED NANOFLUIDS CONTAINING COPPER NANOPARTICLES , 2001 .

[108]  Adell,et al.  On the Applicability of DLVO Theory to the Prediction of Clay Colloids Stability. , 2000, Journal of colloid and interface science.

[109]  Jingfang Zhou,et al.  Tribological behavior and lubricating mechanism of Cu nanoparticles in oil , 2000 .

[110]  Toyohisa Fujita,et al.  Application of hydrophilic magnetic fluid to oil seal , 1999 .

[111]  Kaufui V. Wong,et al.  Applications of Nanofluids: Current and Future , 2010 .

[112]  Zhu Dongsheng,et al.  Dispersion behavior and thermal conductivity characteristics of Al2O3–H2O nanofluids , 2009 .

[113]  Shi Chen,et al.  Study on Dispersion Stability and Self-Repair Principle of Ultrafine-Tungsten Disulfide Particulates , 2009 .

[114]  Yu Tang Chen,et al.  Effect of Nanofluid on Flat Heat Pipe Thermal Performance , 2008, 2008 Twenty-fourth Annual IEEE Semiconductor Thermal Measurement and Management Symposium.

[115]  Y. Kang,et al.  Absorption performance enhancement by nano-particles and chemical surfactants in binary nanofluids , 2007 .

[116]  Yansheng Yin,et al.  Preparation and thermal conductivity of suspensions of graphite nanoparticles , 2007 .

[117]  A. Mujumdar,et al.  Heat transfer characteristics of nanofluids: a review , 2007 .

[118]  Y. Kang,et al.  The effect of nano-particles on the bubble absorption performance in a binary nanofluid , 2006 .

[119]  C. T. Nguyen,et al.  Heat Transfer Enhancement by using Al 2 O 3-Water Nanofluid in a Liquid Cooling System for Microprocessors , 2006 .

[120]  D. Hohlfeld,et al.  Tunable Optical Filter , 2005 .

[121]  P. F. Vassallo,et al.  Pool boiling heat transfer experiments in silica–water nano-fluids , 2004 .