Presentation is loading. Please wait.

Presentation is loading. Please wait.

R. HEYD CRMD/UMR 6619 – ORLÉANS/France LPN/ENS – Marrakech/Maroc FFSM/Cadi Ayyad University – Marrakech/Maroc ICNMRE SAFI/MOROCCO July 5-8 2010.

Published byWalter Richardson Modified over 8 years ago

Similar presentations

Presentation on theme: "R. HEYD CRMD/UMR 6619 – ORLÉANS/France LPN/ENS – Marrakech/Maroc FFSM/Cadi Ayyad University – Marrakech/Maroc ICNMRE SAFI/MOROCCO July 5-8 2010."— Presentation transcript:

1 R. HEYD CRMD/UMR 6619 – ORLÉANS/France LPN/ENS – Marrakech/Maroc FFSM/Cadi Ayyad University – Marrakech/Maroc ICNMRE SAFI/MOROCCO July 5-8 2010

2 The problem Liquids are used as heat carriers in: Solar hot water panelsDiesel engine

3 The problem Fourier’s law: How to combine: -flow properties of liquids & -high thermal conductivity of solid metals. Using a new class of nanocomposites: liquid/solid? LiquidsGlycerolWater (W/mK)0.300.58 MetalsIronCopperSilverCNT (W/mK)804004302500 Thermal conductivities, (λ) at RT.

4 Cuprite Nanoparticles/Nanofluid Cu 2 O nanoparticles: -Two extreme diameters were used: synthesized by reverse micelles at CRMD/Orléans (see poster for more details) purchased from Sigma-Aldrich

5 Cuprite Nanoparticles/Nanofluid Nanofluid synthesis: = Objectives: Test the influence of Cu 2 O NP on Glycerol’s transport properties, as a function of: -NP size -NP concentration Glycerol (biocompatible and anti-freezing liquid) + Cu 2 O nanoparticles in stable suspension

6 Rheological properties Experimental/Results – Kinexus rotational Rheometer – General Arrhenius Law:

7 Rheological properties Experimental/Results – Variations of relative viscosity with NP volume fraction at RT

8 Rheological properties Summary: -The addition of NP slightly increases the viscosity, -NP size has little influence, -The studied nanofluids tested exhibit the same general Arrhenius law as glycerol,  Viscosity increases with the NP volume fraction ϕ.

9 Thermal properties Experimental: technique Ref : Development of absolute hot-wire anemometry by the 3ω method, R. Heyd et al, 044901. In Review of Scientific Instruments 81 (4), 2010.

10 Thermal properties Results: Investigations of thermal conductivity and viscosity of nanofluids, S.M.S. Murshed, K.C. Leong, C. Yang, International Journal of Thermal Sciences 47 (2008) 560–568.

11 Thermal properties Results:

12 Thermal properties Summary: – Linear variation of the effective thermal conductivity of nanofluids with temperature, – Significant enhancement of the thermal conductivity with volume fraction and with NP size.

13 Conclusion & Perspectives The influence of increasing temperature on NP Brownian motion is: – Decreasing the viscosity of glycerol and consequently that of the nanofluid – Increasing the micro-convective contribution of the NP and consequently the thermal conductivity increases Influence of NP shape, size and interfacial layer on transport coefficients has to be taken into account. Investigation of electrical properties of nanofluids as a function of NP. Development of a microscopic model to better describe transport phenomena in nanofluids.

Download ppt "R. HEYD CRMD/UMR 6619 – ORLÉANS/France LPN/ENS – Marrakech/Maroc FFSM/Cadi Ayyad University – Marrakech/Maroc ICNMRE SAFI/MOROCCO July 5-8 2010."

Similar presentations

Analysis of Simple Cases in Heat Transfer P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Gaining Experience !!!

Analysis of Simple Cases in Heat Transfer P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Gaining Experience !!!
Transport phenomena in chemical processes part IV * Michał Araszkiewicz PhD * Heat transfer, a modern approach, Martin Becker, Plenum Press, 1986.

Transport phenomena in chemical processes part IV * Michał Araszkiewicz PhD * Heat transfer, a modern approach, Martin Becker, Plenum Press, 1986.
080125© M. Kostic Prof. M. Kostic Mechanical Engineering NORTHERN ILLINOIS UNIVERSITY Effective Thermal Conductivity Errors by Assuming Unidirectional.

080125© M. Kostic Prof. M. Kostic Mechanical Engineering NORTHERN ILLINOIS UNIVERSITY Effective Thermal Conductivity Errors by Assuming Unidirectional.
Atkins’ Physical Chemistry Eighth Edition Chapter 21 – Lecture 2 Molecules in Motion Copyright © 2006 by Peter Atkins and Julio de Paula Peter Atkins Julio.

Atkins’ Physical Chemistry Eighth Edition Chapter 21 – Lecture 2 Molecules in Motion Copyright © 2006 by Peter Atkins and Julio de Paula Peter Atkins Julio.
Convection Convection: transfer of heat by a flowing liquid or gas

Convection Convection: transfer of heat by a flowing liquid or gas
1. Dr.Sarreshtehdari Farhad Abbassi Amiri Shahrood university of technology 2.

1. Dr.Sarreshtehdari Farhad Abbassi Amiri Shahrood university of technology 2.
Flow and Thermal Considerations

Flow and Thermal Considerations
The Applications of Nanofluids in Solar Energy Reporter: Qin Lianwei.

The Applications of Nanofluids in Solar Energy Reporter: Qin Lianwei.
MECHANISMS OF HEAT TRANSFER

MECHANISMS OF HEAT TRANSFER
16/08/20151 INTERNATIONAL Solutions for soil, plant & environmental monitoring www.ictinternational.com.au INTERNATIONAL Solutions for soil, plant & environmental.

16/08/20151 INTERNATIONAL Solutions for soil, plant & environmental monitoring INTERNATIONAL Solutions for soil, plant & environmental.
Wittaya Julklang, Boris Golman School of Chemical Engineering Suranaree University of Technology STUDY OF HEAT AND MASS TRANSFER DURING FALLING RATE PERIOD.

Wittaya Julklang, Boris Golman School of Chemical Engineering Suranaree University of Technology STUDY OF HEAT AND MASS TRANSFER DURING FALLING RATE PERIOD.
Heat Transfer: Physical Origins and Rate Equations

Heat Transfer: Physical Origins and Rate Equations
THE EFFECT OF TYPE OF NANOPARTICLES ON THE QUENCHING PROCESS

THE EFFECT OF TYPE OF NANOPARTICLES ON THE QUENCHING PROCESS
Moulay Youssef El Hafidi and Mohamed El Hafidi Laboratoire “Modélisation et Instrumentation” Faculté des sciences Ben M’sik - Département de Physique Université.

Moulay Youssef El Hafidi and Mohamed El Hafidi Laboratoire “Modélisation et Instrumentation” Faculté des sciences Ben M’sik - Département de Physique Université.
Temperature and Kinetic Theory. Atomic Theory  Atom – smallest piece of mater  Atomic Mass  unit – atomic mass unit – amu  1amu = 1.66 x 10 -27 kg.

Temperature and Kinetic Theory. Atomic Theory  Atom – smallest piece of mater  Atomic Mass  unit – atomic mass unit – amu  1amu = 1.66 x kg.
Thermal Conductivity of Nanofluids Siw, Sin Chien University of Pittsburgh ENERGETICS ME 3007 Oct 27, 2008.

Thermal Conductivity of Nanofluids Siw, Sin Chien University of Pittsburgh ENERGETICS ME 3007 Oct 27, 2008.
Generalization of Einstein’s Theory of Brownian Motion Mahmoud A. Melehy University of Connecticut Storrs, CT 06269-1157.

Generalization of Einstein’s Theory of Brownian Motion Mahmoud A. Melehy University of Connecticut Storrs, CT
High School. SPS5. Students will compare and contrast the phases of matter as they relate to atomic and molecular motion. a. Compare and contrast the.

High School. SPS5. Students will compare and contrast the phases of matter as they relate to atomic and molecular motion. a. Compare and contrast the.
Journal Club 13 July 2011 Tuğrul Çağrı CİNKARA. MIT, mechanical engineering.

Journal Club 13 July 2011 Tuğrul Çağrı CİNKARA. MIT, mechanical engineering.
Atkins’ Physical Chemistry Eighth Edition Chapter 21 – Lecture 1 Molecules in Motion Copyright © 2006 by Peter Atkins and Julio de Paula Peter Atkins Julio.

Atkins’ Physical Chemistry Eighth Edition Chapter 21 – Lecture 1 Molecules in Motion Copyright © 2006 by Peter Atkins and Julio de Paula Peter Atkins Julio.

Similar presentations

Ads by Google