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bhaskar sudhakanth vemulakonda
bhaskar sudhakanth vemulakonda
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PAPER PRESENTAION ON NANO FLUIDS BY:BHASKAR SUDHAKANTH.V SCSVMV UNIVERSITY(2ND YEAR-MECHANICAL,kanchipuram,tamilnadu)) Cell no:9043505979 EMAIL:bhaskar-v@live.in,bhaskar9295@gmail.com
Nanofluids: Suspensions of nanoparticles in base fluids Size does matter: unique transport properties, different from conventional suspensions: do not settle under gravity, do not block flow, etc … Enhancing functions and properties by combining and controlling interactions Combining different nanoparticles (structure, size) in different base-fluids with additives Controlling interactions using different “mixing” methods and thermal-, flow-, catalyst-, and other field-conditions
Advanced Flow and Heat-Transfer Challenges • The heat rejection requirements are continually increasing due to trends toward faster speeds (in the multi-GHz range) and smaller features (to <100 nm) for microelectronic devices, more power output for engines, and brighter beams for optical devices. • Cooling becomes one of the top technical challenges facing high-tech industries such as microelectronics, transportation, manufacturing, and metrology. • Conventional method to increase heat flux rates: – extended surfaces such as fins and micro-channels – increasing flow rates increases pumping power. • However, current design solutions already push available technology to its limits. • NEW Technologies and new, advanced fluids with potential to improve flow & thermal characteristics are of critical importance. • Nanofluids are promising to meet and enhance the challenges.
Concept of Nanofluids Thermal conductivity (W/m-K) • Conventional heat transfer fluids have 2500 inherently poor thermal conductivity 1-Engine Oil 2-Ethylene Glycol compared to solids. 2000 3-Water • Conventional fluids that contain mm- or 4-Alumina 5-Silicon 1500 m-sized particles do not work with the 6-Aluminum 7-Copper emerging “miniaturized” technologies 8-Silver 1000 because they can clog the tiny channels of 9-Carbon these devices. 500 • Modern nanotechnology provides opportunities to produce nanoparticles. 0 0.15 0.25 0.61 1 2 3 4 5 6 7 8 9 • Argonne National Lab (Dr. Choi’s team) Material developed the novel concept of nanofluids. Thermal conductivity of typical materials • Nanofluids are a new class of advanced heat-transfer fluids engineered by dispersing nanoparticles smaller than 100 Solids have thermal conductivities nm (nanometer) in diameter in that are orders of magnitude larger than those of conventional heat conventional heat transfer fluids. transfer fluids.
10 m 1m Laptop Computer 0.1 m 1 cm 1 mm Microchannel 100 µm Sensors 10 µm Bacteria 1 µm 100 nm Viruses/ NPs 10 nm 1 nm Small molecules 0.1 nm
Why Use Nanoparticles? • The basic concept of dispersing solid particles in fluids to enhance thermal conductivity can be traced back to Maxwell in the 19th Century. • Studies of thermal conductivity of suspensions have been confined to mm- or mm-sized particles. • The major challenge is the rapid settling of these particles in fluids. • Nanoparticles stay suspended much longer than micro-particles and, if below a threshold level and/or enhanced with surfactants/stabilizers, remain in suspension almost indefinitely. • Furthermore, the surface area per unit volume of nanoparticles is much larger (million times) than that of microparticles (the number of surface atoms per unit of interior atoms of nanoparticles, is very large). • These properties can be utilized to develop stable suspensions with enhanced flow, heat- transfer, and other characteristics
Materials for Nanoparticles and Base Fluids Materials for nanoparticles and base fluids are diverse: 1. Nanoparticle materials include: – Oxide ceramics – Al2O3, CuO – Metal carbides – SiC – Nitrides – AlN, SiN – Metals – Al, Cu – Nonmetals – Graphite, carbon nanotubes – Layered – Al + Al2O3, Cu + C – PCM – S/S – Functionalized nanoparticles 2. Base fluids include: – Water – Ethylene- or tri-ethylene-glycols and other coolants – Oil and other lubricants – Bio-fluids – Polymer solutions – Other common fluids
Methods for Producing Nanoparticles/Nanofluids Two nanofluid production methods has been developed in ANL to allow selection of the most appropriate nanoparticle material for a particular application. • In two-step process for oxide nanoparticles (“Kool-Aid” method), nanoparticles are produced by evaporation and inert-gas condensation processing, and then dispersed (mixed, including mechanical agitation and sonification) in base fluid. • A patented one-step process (see schematic) simultaneously makes and disperses nanoparticles directly into base fluid; best for metallic nanofluids. Other methods: Chem. Vapor Evaporation; Chem. Synthesis; new methods…
Four Characteristic Features of Nanofluids • Pioneering nanofluids research in ANL has inspired physicists, chemists, and engineers around the world. • Promising discoveries and potentials in the emerging field of nanofluids have been reported. • Nanofluids have an unprecedented combination of the four characteristic features desired in energy systems (fluid and thermal systems): – Increased thermal conductivity (TC) at low nanoparticle concentrations – Strong temperature-dependent TC – Non-linear increase in TC with nanoparticle concentration – Increase in boiling critical heat flux (CHF) • These characteristic features of nanofluids make them suitable for the next generation of flow and heat-transfer fluids.
Temperature-Dependent Conductivity • Das et al. (*) explored the temperature dependence of the thermal conductivity of nanofluids containing Al2O3 or CuO nanoparticles. • Their data show a two- to four-fold increase in thermal conductivity enhancement over a small temperature range, 20 C to 50 C. • The strong temperature dependence of thermal conductivity may be due to the motion of nanoparticles. Temperature dependence of thermal conductivity enhancement for Al2O3-in- water nanofluids (*) J. Heat Transfer, 125, 567, 2003.
Nanofluid Structure • Although liquid molecules close to a solid surface are known to form layered structures, little is known about the interactions between this nanolayers and thermo-physical properties of these solid/liquid nano-suspensions. • ANL team (Choi et.al.) proposed that the nanolayer acts as a thermal bridge between a solid nanoparticle and a bulk liquid and so is key to enhancing thermal conductivity. • From this thermally bridging nanolayer Schematic cross section of nanofluid structure consisting of nanoparticles, bulk idea, a structural model of nanofluids liquid, and nanolayers at solid/liquid that consists of solid nanoparticles, a interface. bulk liquid, and solid-like nanolayers is hypothesized.
Summary: Future Research • Little is known about the physical and chemical surface interactions between the nanoparticles and base fluid molecules, in order to understand the mechanisms of enhanced flow and thermal behavior of nanofluids. • Improved theoretical understanding of complex nanofluids will have an even broader impact • Development of new experimental methods for characterizing (and understanding) nanofluids in the lab and in nature. • Nanoscale structure and dynamics of the fluids: using a variety of scattering methods; small-angle x-ray scattering (SAXS), small-angle neutron scattering (SANS), x-ray photon correlation spectroscopy (XPCS), laser based photon correlation spectroscopy (PCS) and static light scattering. • Development of computer based models of nanofluid phenomena including physical and chemical interactions between nanoparticles and base-fluid molecules.

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nano fluids

  • 1. PAPER PRESENTAION ON NANO FLUIDS BY:BHASKAR SUDHAKANTH.V SCSVMV UNIVERSITY(2ND YEAR-MECHANICAL,kanchipuram,tamilnadu)) Cell no:9043505979 EMAIL:bhaskar-v@live.in,bhaskar9295@gmail.com
  • 2. Nanofluids: Suspensions of nanoparticles in base fluids Size does matter: unique transport properties, different from conventional suspensions: do not settle under gravity, do not block flow, etc … Enhancing functions and properties by combining and controlling interactions Combining different nanoparticles (structure, size) in different base-fluids with additives Controlling interactions using different “mixing” methods and thermal-, flow-, catalyst-, and other field-conditions
  • 3. Advanced Flow and Heat-Transfer Challenges • The heat rejection requirements are continually increasing due to trends toward faster speeds (in the multi-GHz range) and smaller features (to <100 nm) for microelectronic devices, more power output for engines, and brighter beams for optical devices. • Cooling becomes one of the top technical challenges facing high-tech industries such as microelectronics, transportation, manufacturing, and metrology. • Conventional method to increase heat flux rates: – extended surfaces such as fins and micro-channels – increasing flow rates increases pumping power. • However, current design solutions already push available technology to its limits. • NEW Technologies and new, advanced fluids with potential to improve flow & thermal characteristics are of critical importance. • Nanofluids are promising to meet and enhance the challenges.
  • 4. Concept of Nanofluids Thermal conductivity (W/m-K) • Conventional heat transfer fluids have 2500 inherently poor thermal conductivity 1-Engine Oil 2-Ethylene Glycol compared to solids. 2000 3-Water • Conventional fluids that contain mm- or 4-Alumina 5-Silicon 1500 m-sized particles do not work with the 6-Aluminum 7-Copper emerging “miniaturized” technologies 8-Silver 1000 because they can clog the tiny channels of 9-Carbon these devices. 500 • Modern nanotechnology provides opportunities to produce nanoparticles. 0 0.15 0.25 0.61 1 2 3 4 5 6 7 8 9 • Argonne National Lab (Dr. Choi’s team) Material developed the novel concept of nanofluids. Thermal conductivity of typical materials • Nanofluids are a new class of advanced heat-transfer fluids engineered by dispersing nanoparticles smaller than 100 Solids have thermal conductivities nm (nanometer) in diameter in that are orders of magnitude larger than those of conventional heat conventional heat transfer fluids. transfer fluids.
  • 5. 10 m 1m Laptop Computer 0.1 m 1 cm 1 mm Microchannel 100 µm Sensors 10 µm Bacteria 1 µm 100 nm Viruses/ NPs 10 nm 1 nm Small molecules 0.1 nm
  • 6. Why Use Nanoparticles? • The basic concept of dispersing solid particles in fluids to enhance thermal conductivity can be traced back to Maxwell in the 19th Century. • Studies of thermal conductivity of suspensions have been confined to mm- or mm-sized particles. • The major challenge is the rapid settling of these particles in fluids. • Nanoparticles stay suspended much longer than micro-particles and, if below a threshold level and/or enhanced with surfactants/stabilizers, remain in suspension almost indefinitely. • Furthermore, the surface area per unit volume of nanoparticles is much larger (million times) than that of microparticles (the number of surface atoms per unit of interior atoms of nanoparticles, is very large). • These properties can be utilized to develop stable suspensions with enhanced flow, heat- transfer, and other characteristics
  • 7. Materials for Nanoparticles and Base Fluids Materials for nanoparticles and base fluids are diverse: 1. Nanoparticle materials include: – Oxide ceramics – Al2O3, CuO – Metal carbides – SiC – Nitrides – AlN, SiN – Metals – Al, Cu – Nonmetals – Graphite, carbon nanotubes – Layered – Al + Al2O3, Cu + C – PCM – S/S – Functionalized nanoparticles 2. Base fluids include: – Water – Ethylene- or tri-ethylene-glycols and other coolants – Oil and other lubricants – Bio-fluids – Polymer solutions – Other common fluids
  • 8. Methods for Producing Nanoparticles/Nanofluids Two nanofluid production methods has been developed in ANL to allow selection of the most appropriate nanoparticle material for a particular application. • In two-step process for oxide nanoparticles (“Kool-Aid” method), nanoparticles are produced by evaporation and inert-gas condensation processing, and then dispersed (mixed, including mechanical agitation and sonification) in base fluid. • A patented one-step process (see schematic) simultaneously makes and disperses nanoparticles directly into base fluid; best for metallic nanofluids. Other methods: Chem. Vapor Evaporation; Chem. Synthesis; new methods…
  • 9. Four Characteristic Features of Nanofluids • Pioneering nanofluids research in ANL has inspired physicists, chemists, and engineers around the world. • Promising discoveries and potentials in the emerging field of nanofluids have been reported. • Nanofluids have an unprecedented combination of the four characteristic features desired in energy systems (fluid and thermal systems): – Increased thermal conductivity (TC) at low nanoparticle concentrations – Strong temperature-dependent TC – Non-linear increase in TC with nanoparticle concentration – Increase in boiling critical heat flux (CHF) • These characteristic features of nanofluids make them suitable for the next generation of flow and heat-transfer fluids.
  • 10. Temperature-Dependent Conductivity • Das et al. (*) explored the temperature dependence of the thermal conductivity of nanofluids containing Al2O3 or CuO nanoparticles. • Their data show a two- to four-fold increase in thermal conductivity enhancement over a small temperature range, 20 C to 50 C. • The strong temperature dependence of thermal conductivity may be due to the motion of nanoparticles. Temperature dependence of thermal conductivity enhancement for Al2O3-in- water nanofluids (*) J. Heat Transfer, 125, 567, 2003.
  • 11. Nanofluid Structure • Although liquid molecules close to a solid surface are known to form layered structures, little is known about the interactions between this nanolayers and thermo-physical properties of these solid/liquid nano-suspensions. • ANL team (Choi et.al.) proposed that the nanolayer acts as a thermal bridge between a solid nanoparticle and a bulk liquid and so is key to enhancing thermal conductivity. • From this thermally bridging nanolayer Schematic cross section of nanofluid structure consisting of nanoparticles, bulk idea, a structural model of nanofluids liquid, and nanolayers at solid/liquid that consists of solid nanoparticles, a interface. bulk liquid, and solid-like nanolayers is hypothesized.
  • 12. Summary: Future Research • Little is known about the physical and chemical surface interactions between the nanoparticles and base fluid molecules, in order to understand the mechanisms of enhanced flow and thermal behavior of nanofluids. • Improved theoretical understanding of complex nanofluids will have an even broader impact • Development of new experimental methods for characterizing (and understanding) nanofluids in the lab and in nature. • Nanoscale structure and dynamics of the fluids: using a variety of scattering methods; small-angle x-ray scattering (SAXS), small-angle neutron scattering (SANS), x-ray photon correlation spectroscopy (XPCS), laser based photon correlation spectroscopy (PCS) and static light scattering. • Development of computer based models of nanofluid phenomena including physical and chemical interactions between nanoparticles and base-fluid molecules.