Etude des transferts de chaleur d un fluide frigoporteur diphasique à changement de phase liquide-

6 pages

English

Etude des transferts de chaleur d'un fluide frigoporteur diphasique à changement de phase liquide-

Necher - Demasles , Hélène

Le téléchargement nécessite un accès à la bibliothèque YouScribe
Tout savoir sur nos offres

6 pages

English

Le téléchargement nécessite un accès à la bibliothèque YouScribe
Tout savoir sur nos offres

A propos
Informations
Extrait

Description

Références bibliographiques223224Acrivos, A., Xiaoxing, F. & Mauri, R. On the measurement of the relative viscosity ofsuspensions. Journal of Rheology , 1994, Vol. 38, No. 5, pp. 1285 1296.Ahmad, M. N., Kelly, B. P. & Magee, T. R. MeasuremA. ent of heat transfer coefficientsusing stationary and moving particles in tube flow. Trans IChemE, Septembre 1999, Vol. 77,Part C, pp.213, 222.Ahuja, A. S. Augmentation of heat transport in laminar flow of polystyrene suspensions. I.Experiments and results. , Août 1975, Vol. 46, No. 8.Journal of Applied PhysicsAhuja, A. S. Augmentation of heat transport in laminar flow of polystyI.Analysis of the data. Alisetti, E. L. & Roy, K Forced convect. ion heat transfer to phase change material slurries incircular ducts. Journal of thermophysics and heat transfer, Janvier Mars 2000, Vol.14, No. 1,pp. 115 118.Bedecarrats, J. P. & Dumas J. P. Etude de la cristallisation de nodules contenant unmateriau à changement de phase en vue du stockage par chaleur latente. Int. J. Heat Mass, 1997, Vol. 40, No. 1, pp. 149 157.TransferBel, O. Contribution à l'étude du comportement thermo hydraulique d'un mélange diphasiquedans une boucle frigorifique à stockage d'énergie. Thèse, INSA de Lyon, Lyon, Novembre1996.Ben Lakhdar, M. Comportement thermohydraulique d’un fluide frigoporteur diphasique : lecoulis de glace. Etude théorique et expérimentale. Thèse, INSA de Lyon, Lyon, Novembre1998.Bennett, C. O. & Myers, J. E. Momentum, heat, ...

Informations

Publié par	Necher
Nombre de lectures	61
Langue	English

Extrait

Références bibliographiques

223

224

Acrivos, A., Xiaoxing, F. & Mauri, R. Onthe measurement of the relative viscosity of suspensions.Journal of Rheology, 1994, Vol. 38, No. 5, pp. 1285-1296.

Ahmad, M. N., Kelly, B. P. & Magee, T. R. A.Measurement of heat transfer coefficients using stationary and moving particles in tube flow.Trans IChemE,Septembre 1999, Vol. 77, Part C, pp.213, 222.

Ahuja, A. S.of heat transport in laminar flow of polystyrene suspensions. I. Augmentation Experiments and results.Journal of Applied Physics, Août 1975, Vol. 46, No. 8.

Ahuja, A. S.of heat transport in laminar flow of polystyrene suspensions. II. Augmentation Analysis of the data.Journal of Applied Physics, Août 1975, Vol. 46, No. 8.

Alisetti, E. L. & Roy, K.Forced convection heat transfer to phase change material slurries in circular ducts.Journal of thermophysics and heat transfer,Janvier-Mars 2000, Vol.14, No. 1, pp. 115-118.

Bedecarrats, J. P. & Dumas J. P.Etude de la cristallisation de nodules contenant un materiau à changement de phase en vue du stockage par chaleur latente. Int.J. Heat Mass Transfer, 1997, Vol. 40, No. 1, pp. 149-157.

Bel, O.Contribution à l'étude du comportement thermo-hydraulique d'un mélange diphasique dans une boucle frigorifique à stockage d'énergie. Thèse, INSA de Lyon, Lyon, Novembre 1996.

Ben Lakhdar, M.Comportement thermohydraulique d’un fluide frigoporteur diphasique : le coulis de glace. Etude théorique et expérimentale. Thèse, INSA de Lyon, Lyon, Novembre 1998.

Bennett, C. O. & Myers, J. E.Momentum, heat, and mass transfer. Mc Graw-Hill International editions, 1982, 832 pp.

Bird, B., Stewart, W. E. & Lightfoot E. N.Transport phenomena. John Wiley & Sons, Inc., 1960.

Charunyakorn, P., Sengupta, S., & Roy, K. Forcedconvection heat transfer in microencapsulated phase change material slurries : flow in circular duct.Int. J. Heat Mass Transfer, 1991, Vol. 34, No. 3, pp. 819-833.

Charunyakorn, P., Sengupta, S., & Roy, K.convection heat transfer in Forced microencapsulated phase change material slurries : flow between parallel plates.In General Papers : Phase Change and Convective Heat Transfer,ASME HTD, 1990, Vol. 129, pp. 55-62.

Chen, K., Chen, M. M.An analytical and experimental investigation of the convective heat transfer of phase change suspension flows.In proc. of the International Symposium on Multiphase Flow (II), Zhejiang University Press, 1987, Vol. 2, pp. 496-501.

225

Chen, S. L. & Chen, C. L.Effect of nucleation agents on the freezing probability of supercooled water inside capsules.HVAC&R Research,Octobre 1999, Vol. 5, No. 4, pp. 339-351.

Choi, E. Cho, Y. I. & Lorsch, H.G.Forced convection heat transfer with phase change material slurries : turbulent flow in a circular duct.Int. J. Heat Mass Transfer, 1994, Vol. 37, No. 2, pp. 207-215.

De Vriendt, A. B.La transmission de la chaleur. Volume I, Tome 1. Généralités – La conduction. Gaëtan Morin éditeur, 1989.

Doron, P. & Barnea, D.A three-layer model for solid-liquid flow in horizontal pipes.Int. J. Multiphase Flow,1993, Vol. 19, No. 6, pp. 1029-1043.

Doron, P. Granicca, D. & Barnea, D.Slurry flow in horizontal pipes - Experimental and modeling.Int. J. Multiphase Flow,1987, Vol. 13, No. 4, pp. 535-547.

Fath, H. E. S.Heat exchanger performance for latent heat thermal energy storage system. Energy Convers. Mgmt.,1991, Vol. 31, No. 2, pp. 149-155.

Fomin, S.A. & Saitoh, T.S.Melting of unfixed material in spherical capsule with non-isothermal wall.International Journal of Heat and Mass Transfer, 1999,Vol. 42, pp. 4197-4205.

Goel, M., Roy, S.K. & Sengupta, S.Laminar forced convection heat transfer in microcapsulated phase change material suspensions.Ind. Eng. Chem. Fundam., 1984, Vol. 23, No. 4, pp. 420-425.

Graham, A.L. & Steele, R.D.Particle clusters in concentrated suspensions. 3. Prediction of suspension viscosity.Int. J. Heat Mass Transfer, 1994, Vol. 37, No. 4, pp. 593-604.

Han, Q. & Hunt, J.D.Particle pushing : the concentration of particles near a solid interface during downward flow.Journal of crystal growth,1994, Vol. 140, pp. 398-405.

Hasan, A.Thermal energy storage system with stearic acid as phase change material.Energy Convers. Mgmt.,1994, Vol. 35, No. 10, pp. 843-856.

Huetz, J. & Petit J. P.Notions de transfert thermique par convection – Techniques de l’ingénieur. 1990.

Idel’cik, I. E.Memento des pertes de charge.Edité par Eyrolles Paris,1968.

Imanari, M., Yanadori, M., Hiramatsu, M. & Kasuga, T.Friction factor addition of a surfactant in the transport oh a water/particle slurry in a International Journal, Series B;1997, Vol. 40, No. 3, pp. 402-408.

reduction by pipe. JSME

Inaba, H. & Morita, S.Flow and cold heat-storage characteristics of phase-change emulsion in a coiled double-tube heat exchanger.Journal of heat transfer, Mai 1995, Vol. 117, pp. 440-446.

226

Inaba, H., Takeya, K. & Nozu, S.Fundamental study on continuous ice making using flowing supercooled water.JSME International Journal - Series B (Fluids and Thermal Engineering), Mai 1994, Vol. 37, No. 2, pp. 385-393.

Institut International du Froid.Propriétés thermophysiques des frigoporteurs – Tables et diagrammes pour l’industrie du froid.Edité par Ake Melinder, 1997.

Kasza, K. E. & Chen, M. M. Developmentof enhanced heat transfer/transport/storage slurries for thermal-system improvement.Rapport Argonne Nat. Lab., Juin 1982, ANL 82-50.

Kasza, K. E. & Chen, M. M.Improvement of the performance of solar energy or waste heat utilization systems by using phase-change slurry as an enhanced heat transfer storage fluid. Journal of Solar Energy Engineering,Août 1985, Vol. 107, pp. 229-236.

Mukhtar, A., Singh, S. N. & Seshadri, V.Pressure drop in a long radius 90° horizontal bend for the flow of multisized heterogeneous slurries.Int. J. Multiphase Flow,1995, Vol. 21, No. 2, pp. 329-334.

Roy, S. K. & Sengupta, S.An evaluation of phase change microcapsules for use in enhanced heat transfer fluids.Int. Comm. Heat Mass transfer,1991, Vol. 18, pp. 495-507.

Roy, S. K. Avanic, B. L.Laminar forced convection heat transfer with phase change material emulsions.Int. Comm. Heat Mass transfer,1997, Vol. 24, No. 5, pp. 653-662.

Royon, L.Réalisation et caractérisation physique, thermique et rhéologique d'un nouveau matériau déstiné au stockage d'énergie à basse température. Thèse, Université Paris VII, Paris, Octobre 1992.

Royon, L., Guiffant, G., Perrot, P., Flaud, P. & Colinard, P. Evaluationdes potentialités d'une dispersion de matériaux à changement de phase pour le stockage et le transport d'énergie èmes thermique à basse température.7 JournéesInternationales de l'Energie Thermique, Marrakech,Avril 1995.

Royon, L., Guiffant, G., Perrot, P. & De Mougins, F.Etude du stockage d'énergie thermique au sein de suspensions de particules à changement de phase liquide-solide.Congrès français de thermique, SFT 2000, Lyon,15-17Mai 2000.

Royon, L., Guiffant, G. & Perrot, P.Forced convection heat transfer in a slurry of phase change material in an agitated tank.International Journal Heat Comm Transfer,2000, Vol. 27, No. 8, pp. 1057-1065.

Royon, L. & Guiffant.Modélisation du stockage d’énergie au sein d’une suspension de matériaux à changement de phase en écoulement force.Congrès français de thermique, SFT 2001, Nantes,29-31Mai 2001.

Sastry, S.K., Lima, M., Brim, J., Brunn, T. & Heskitt, B. F.Liquid to particle heat transfer in continuous tube flow.Transport Phenomena in material processing,1990, HTD-Vol. 146.

Shah, R. K. & London, A. L.Laminar flow forced convection in ducts : Advanced in Heat transfer. New York, Academic Press, Inc., 1978, 468 pp.

227

Shook, C. A.Experiments with concentrated slurries of particles with densities near that of the carrier fluid.The Canadian Journal of Chemical Engineering,1985, Vol. 63, Décembre pp. 861-869.

Sohn, C. W. Chen, M. M.Microconvective thermal conductivity in disperse two-phase mixtures as observed in a low velocity couette flow experiment.Journal of heat transfer, Fevrier 1981, Vol. 103, pp. 47-51.

Sohn, C. W. Chen, M. M.Heat transfer enhancement in laminar slurry pipe flows with power law thermal conductivities.Journal of heat transfer, Août 1984, Vol. 106, pp. 539-542.

Sozen, Z. Z., Grace, J. R. & Pinder, K. L.Thermal energy storage by agitated capsules of phase change material. 2. Causes of efficiency loss.Ind. Eng. Chem. Res.,1988, Vol. 27, No. 4, pp. 684-691.

Tao, L. C.Generalized numerical solutions of freezing a saturated liquid in cylinders and spheres.A.I.Ch.E. Journal, Janvier 1967, Vol. 13, No. 1, pp. 165-169.

Thomas, D. G.Transport characteristics of suspension : VIII. A note on the viscosity of Newtonian suspensions of uniform spherical particles.Journal of Colloid Science, 1965, Vol. 20, pp. 267-277.

Turian, R. M. & Yuan, T. F.Flow of slurries in pipelines.A.I.Ch.E. Journal, Mai 1977, Vol. 23, No. 3, pp. 233-243.

Yamagishi Y., Sugeno T., Ishige T., Takeuchi H. & Pyatenko A.T. Anevaluation of mocroencapsulated PCM for use in cold energy transportation medium.Proceedings of the st 31 IntersocietyEnergy Conversion Engineering Conference – IECEC 96, 1996, Vol. 3, pp.2077-2083.

Zhang, Y. & Faghri, A. Analysisof forced convection heat transfer in microencapsulated phase material suspensions.Journal of thermophysics and heat transfer,1995, Vol. 4, No. 9, pp. 727-732.

228