Review on thermal energy storage with phase change: materials, heat transfer analysis and applications

Abhat, 1983, Low temperature latent heat thermal energy storage: heat storage materials, Solar Energy, 30, 313, 10.1016/0038-092X(83)90186-X

Lane, 1983

Lane, 1986

Dincer, 2002

Royon, 1997, Investigation of heat transfer in a polymeric phase change material for low level heat storage, Energy Convers. Mgmt., 38, 517, 10.1016/S0196-8904(96)00070-2

Heckenkamp, 1997, Latentwärmespeicher, Sonderdruck aus Nachrichten, 11, 1075

Naumann, 1989, Results of thermal analysis for investigation of salt hydrates as latent heat-storage materials, J. Thermal Analysis, 35, 1009, 10.1007/BF02057256

G. Belton, F. Ajami, Thermochemistry of salt hydrates, Report No. NSF/RANN/SE/GI27976/TR/73/4, Philadelphia (Pennsylvania, USA), 1973

Hawes, 1993, Latent heat storage in building materials, Energy Buildings, 20, 77, 10.1016/0378-7788(93)90040-2

K. Nagano, T. Mochida, K. Iwata, H. Hiroyoshi, R. Domanski, Thermal performance of Mn(NO3)2·6H2O as a new PCM for cooling system, 5th Workshop of the IEA ECES IA Annex 10, Tsu (Japan), 2000

Lane, 1980, Low temperature heat storage with phase change materials, Int. J. Ambient Energy, 1, 155, 10.1080/01430750.1980.9675731

M. Telkes, Thermal storage for solar heating and cooling, Proceedings of the Workshop on Solar Energy Storage Subsystems for the Heating and Cooling of Buildings, Charlottesville (Virginia, USA), 1975

Lindner, 1996, Wärmespeicherung mit Salzen und Salzhydraten, Ki Luft- und Kältetechnik, 10, 462

Wada, 1982, Studies on salt hydrate for latent heat storage. I. Crystal nucleation of sodium acetate trihydrate catalysed by tetrasodium pyrophosphate decahydrate, Bul. Chem. Soc. Jpn., 55, 3603, 10.1246/bcsj.55.3603

Wada, 1983, Studies on salt hydrate for latent heat storage. IV. Crystallization in the binary system CH3CO2Na-H2O, Bul. Chem. Soc. Jpn., 56, 3827, 10.1246/bcsj.56.3827

Wada, 1984, Studies on salt hydrate for latent heat storage. V. Preheating effect on crystallization of sodium acetate trihydrate from aqueous solution with a small amount of sodium pyrophosphate decahydrate, Bul. Chem. Soc. Jpn., 57, 557, 10.1246/bcsj.57.557

Wada, 1984, Studies on salt hydrate for latent heat storage. VI. Preheating effect on crystallization of sodium acetate trihydrate from aqueous solution with a small amount of disodium hydrogenphosphate, Bul. Chem. Soc. Jpn., 57, 561, 10.1246/bcsj.57.561

Wada, 1984, Equilibria in the aqueous ternary system containing Na+, CH3CO2−, and P2O74− between 38 and 85 °C, Bul. Chem. Soc. Jpn., 57, 1671, 10.1246/bcsj.57.1671

Wada, 1984, Equilibria in the aqueous ternary system containing Na+, CH3CO2−, and HPO42− between 38 and 75 °C, Bul. Chem. Soc. Jpn., 57, 2021, 10.1246/bcsj.57.2021

Wada, 1985, Studies on salt hydrate for latent heat storage. VII. The relation between activation process of crystal nucleation catalysts for sodium acetate trihydrate and their deactivation temperatures, Bul. Chem. Soc. Jpn., 58, 919, 10.1246/bcsj.58.919

D. Heine, F. Heess, Chemische uns physikalische Eigenschaften von Latentwärmespeichermaterialien für Solarkraftwerke, Proceedings of the 3rd International Solarforum, Hamburg (Germany), 1980

Pilkington Solar International, Survey of thermal storage for parabolic trough power plants, Report NREL1EC24 (2002)

F. Graeter, J. Rheinländer, Thermische Energiespeicherung mit Phasenwechsel im Bereich von 150 bis 400 °C, Proceedings of the Wärmespeicherung Workshop, Cologne (Germany) (2001)

Wada, 1983, Studies on salt hydrate for latent heat storage. II. Eutectic mixture of pseudo-binary system CH3CO2Na·3H2O–CO(NH2)2, Bul. Chem. Soc. Jpn., 56, 1223, 10.1246/bcsj.56.1223

Li, 1991, Investigation of a eutectic mixture of sodium acetate trihydrate and urea as latent heat storage, Solar Energy, 47, 443, 10.1016/0038-092X(91)90112-A

Schröder, 1975, Thermal energy storage and control, J. Eng. Industry Aug., 893, 10.1115/1.3438700

Wada, 1983, Studies on salt hydrate for latent heat storage. III. Pseudo-binary system, CH3CO2Na·3H2O–HCONH2, Bul. Chem. Soc. Jpn., 56, 1575, 10.1246/bcsj.56.1575

Farid, 1998, Phase change cool storage using dimethyl-sulfoxide, Energy Convers. Mgmt., 39, 819

B. Zalba, Almacenamiento térmico de energı́a mediante cambio de fase, Procedimiento experimental, Ph.D. Thesis, University of Zaragoza (Spain), 2002

Sasaguchi, 1989, Phase change heat transfer during melting and resolidification of melt aroung cylindrical heat source(s)/sink(s), J. Energy Resources Technol., 111, 43, 10.1115/1.3231400

H. Kakiuchi, M. Yamayaki, M. Yabe, S. Chihara, Y. Terunuma, Y. Sakata, T. Usami, A study of erythritol as phase change material, 2nd Workshop of the IEA ECES IA Annex 10, Sofia (Bulgaria), 1998

M. Kamimoto, Y. Abe, S. Sawata, T. Tani, T. Ozawa, Latent heat storage unit using form-stable high density polyethylene for solar thermal applications, Proceedings of the International Symposium on Thermal Application of Solar Energy, Hakone (Kanagawa, Japan), 1985

Y. Iwamoto, S. Ikai, New polymeric material for latent heat thermal energy storage, 5th Workshop of the IEA ECES IA Annex 10, Tsu (Japan), 2000

Feldman, 1986, Organic phase change materials for thermal energy storage, Solar Energy Mater., 13, 1, 10.1016/0165-1633(86)90023-7

Dimaano, 2002, The capric–lauric acid and pentadecane combination as phase change material for cooling applications, Appl. Thermal Eng., 22, 365, 10.1016/S1359-4311(01)00095-3

Dimaano, 2002, The capric and lauric acid mixture with chemical additives as latent heat storage materials for cooling application, Energy, 27, 869, 10.1016/S0360-5442(02)00024-5

Sari, 2001, Thermal performance of mystiric acid as a phase change material for energy storage application, Renew. Energy, 24, 303, 10.1016/S0960-1481(00)00167-1

Sari, 2002, Thermal performance of palmitic acid as a phase change energy storage material, Energy Convers. Mgmt., 43, 863, 10.1016/S0196-8904(01)00071-1

Sari, 2001, Thermal energy storage system using some fatty acids as latent heat energy storage materials, Energy Sources, 23, 275, 10.1080/00908310151134004

Sari, 2001, Thermal energy storage system using stearic acid as a phase change material, Solar Energy, 71, 365, 10.1016/S0038-092X(01)00075-5

Available from <www.cristopia.com>

Available from <www.teappcm.com>

H. Kakiuchi, Mitsubishi Chemical Corporation, private communication, 2002

Available from <www.climator.com>

Available from <www.rubitherm.de>

Farid, 1986, Solar energy storage with phase change, J. Solar Energy Res., 4, 11

I.O. Salyer, A.K. Sircar, R.P. Chartoff, Analysis of crystalline paraffinic hydrocarbons for thermal energy storage by differential scanning calorimetry; Part 1, Pure hydrocarbons, 15th North American Thermal Analysis Society Conference, Cincinnati, OH, 1986

Hadjieva, 1992, Thermophysical properties of some paraffins applicable to thermal energy storage, Solar Energy Mater. Solar Cells, 27, 181, 10.1016/0927-0248(92)90119-A

J.P. Bardon, E. Vrignaud, D. Delaunay, Etude expérimentale de la fusion et de la solidification périodique d’une plaque de paraffine, Rev. Gén. Therm., 212–213 (1979)

EI-Dessouky, 1999, Heat transfer in vertically aligned phase change energy storage systems, J. Solar Energy Eng., Trans. ASME, 121, 98, 10.1115/1.2888158

Himran, 1994, Characterization of alkanes and paraffin waxes for application as phase change energy storage medium, Energy Sources, 16, 117, 10.1080/00908319408909065

Kemink, 1981, Heat transfer coefficients for melting about a vertical cylinder with or without subcooling and for open or closed containment, Int. J. Heat Mass Transfer, 24, 1699, 10.1016/0017-9310(81)90078-8

Samai, 1993, An optimization method using an adjoint equation to identify solidification front location, Numer. Heat Transfer, Part B, 23, 67, 10.1080/10407799308914890

M.A. Cuevas-Diarte, T. Calvet-Pallas, J.L. Tamarit, H.A.J. Oonk, D. Mondieig, Y. Haget, Nuevos materiales termoajustables, Mundo Cientı́fico, June 2000

M.A. Cuevas-Diarte, Y. Haget, D. Mondieig, Nuevos materiales para el almacenamiento de energı́a térmica: las aleaciones moleculares, El Instalador April (1996) 87

Espeau, 1997, ‘Active’ package for thermal protection of food products, Packag. Technol. Sci., 10, 253, 10.1002/(SICI)1099-1522(199709/10)10:5<253::AID-PTS403>3.0.CO;2-L

Espeau, 1996, Mise au point sur le comportement énergétique et cristallographique des n-alcanes. I. Série de C8H18 àC21H44, J. Chim. Phys, 93, 1217, 10.1051/jcp/1996931217

P. Espeau, Syncristallisation dans la famille des alcanes de C8H18 a C17H36. Conception, elaboration et caracterisation de nouveaux materiaux a changement de phases a base d’alliages moleculaires (MCPAM). Application a la protection thermique dans le domaine agro-alimentaire, Thesis at the University of Burdeos I, 1995

Métivaud, 1998, Solid-solid and solid–liquid equilibria in the heneicosane–docosane binary system, Chem. Mater., 11, 117, 10.1021/cm980737b

Mondieig, 1997, Thermoadjustable molecular alloys for energy storage and thermal protection: fundamental aspects and applications, High Temp.–High Pressures, 29, 385, 10.1068/htec206

Rajabalee, 1999, New insights on the crystalline forms in binary systems of n-alkanes: Characterization of the solid ordered phases in the phase diagram tricosane+pentacosane, J. Mater. Res., 14, 2644, 10.1557/JMR.1999.0354

F.A. Rajabalee, Existence et stabilite de sous-familles structurales des cristaux mixtes dans les alcanes normaux (C8H18 à C28H58). Caracterisations cristallographique et thermodynamique. Incidence des desordres de composition, conformation et rotation, Thesis, 1998

Roblès, 1998, Mise au point sur le comportement énergétique et cristallographique des n-alcanes.I I. Série de C22H46 àC27H56, J. Chim. Phys., 95, 92, 10.1051/jcp:1998111

Fath Hassan, 1991, Heat exchanger performance for latent heat thermal energy storage system, Energy Convers. Mgmt., 31, 149, 10.1016/0196-8904(91)90067-S

Strub, 1999, Numerical second law analysis of a refrigeration phase-change storage, Int. J. Appl. Thermodynam., 2

Speyer, 1994

Eckert, 1997, Heat transfer––a review of 1994 literature, Int. J. Heat Trasfer, 40, 3729, 10.1016/S0017-9310(97)00003-3

Inaba, 1997, Evaluation of thermophysical characteristics on shape-stabilized paraffin as a solid–liquid phase change material, Heat Mass Transfer, 32, 307, 10.1007/s002310050126

Flaherty, 1971, Characterisation of waxes by differential scanning calorimetry, J. Appl. Chem. Biotechnol., 21, 10.1002/jctb.5020210507

Giavarini, 1973, Characterization of petroleum products by DSC analysis, J. Thermal Anal., 5, 83, 10.1007/BF01914477

B.M. Gibbs, S.M. Hasnain, DSC study of technical grade phase change heat storage materials for solar heating applications, Proceedings of the 1995 ASME/JSME/JSEJ International Solar Energy. Conference. Part 2, 1995

Yinping, 1999, A simple method, the T-history method, of determining the heat of fusion, specific heat and thermal conductivity of phase-change materials, Measurement Sci. Technol., 10, 201, 10.1088/0957-0233/10/3/015

J.M. Marı́n, B. Zalba, L.F. Cabeza, H. Mehling, Determination of enthalpy–temperature curves of phase change materials with the T-history method––improvement to temperature dependent properties, Measurement Sci. Technol., in press

Delaunay, 1982, Dispositifs de mesure automatique de la conductivité thermique des matériaux à changement de phase, R. Physique Appliquée, 17, 209, 10.1051/rphysap:01982001704020900

Sadasuke, 1991, Heat transfer enhancement by fins in latent heat thermal energy storage devices, Solar Eng., ASME, 223

Bugaje, 1997, Enhancing the thermal response of latent heat storage systems, Int. J. Energy Res., 21, 759, 10.1002/(SICI)1099-114X(199707)21:9<759::AID-ER254>3.0.CO;2-7

A. Manoo, E. Hensel, One-dimensional two-phase moving boundary problem, HTD, Phase Change Heat Transfer, ASME 159 (1991) 97–102

D. Heine, The chemical compatibility of construction materials with latent heat storage materials, Proceedings of the International Conference on Energy Storage, Brighton, UK, 1981

F.S. Pettit, Molten salts, in: Corrosion Test Standards, ASTM, 380

Porisini, 1988, Salt hydrates used for latent heat storage: corrosion of metals and reliability of thermal performance, Solar Energy, 41, 193, 10.1016/0038-092X(88)90136-3

Cabeza, 2001, Immersion corrosion tests on metal-salt hydrate pairs used for latent heat storage in the 32 to 36 °C temperature range, Mater. Corros., 52, 140, 10.1002/1521-4176(200102)52:2<140::AID-MACO140>3.0.CO;2-R

Cabeza, 2001, Middle term immersion corrosion tests on metal-salt hydrate pairs used for latent heat storage in the 32 to 36 °C temperature range, Mater. Corros., 52, 748, 10.1002/1521-4176(200110)52:10<748::AID-MACO748>3.0.CO;2-S

L.F. Cabeza, F. Badia, J. Illa, J. Roca, H. Mehling, F. Ziegler, Corrosion experiments on salt hydrates used as phase change materials in cold storage, IEA ECES IA Annex 17 Kick-off Workshop, Lleida (Spain), 2001

L.F. Cabeza, H. Mehling, S. Hiebler, Immersion corrosion tests on metal-salt hydrate pairs used for latent heat storage in the 48 to 58 °C temperature range, Mater. Corros., in press

Eames, 2002, Freezing and melting of water in spherical enclosures of the type used in thermal (ice) storage systems, Appl. Thermal Eng., 22, 733, 10.1016/S1359-4311(02)00026-1

Bedecarrats, 1997, Etude de la cristallisation de nodules contenant un materiau à changement de phase en vue du stockage par chaleur latent, Int. J. Heat Mass Transfer, 40, 149, 10.1016/S0017-9310(96)00079-8

Bedecarrats, 1996, Phase-change thermal energy storage using spherical capsules: performance of a test plant, Int. J. Refrig., 19, 187, 10.1016/0140-7007(95)00080-1

R. Alloncle, Étude en régime périodique d’un accumulateur thermique à chaleur latente. Application à un matériau encapsulé, Revue Générale de thermique Fr. (254) (1983) 161–167

Y. Morikama, H. Suzuki, F. Okagawa, K. Kanki, A development of building elements using PCM, Proceedings of the International Symposium on Thermal Application of Solar Energy, Hakone (Kanagawa, Japan), 1985

I.O. Salyer, Phase change materials incorporated throughout the structure of polymer fibers, US Patent 5,885,475 (1999)

Inaba, 1997, Evaluation of thermophysical characteristics on shape-stabilized paraffin as a solid–liquid phase change material, Heat Mass Transfer, 32, 307, 10.1007/s002310050126

Lee, 1998, Crystalline Morphology in High-Density Polyethylene/Paraffin Blend for Thermal Energy Storage, Polym. Composites, 19, 704, 10.1002/pc.10143

S.T. Revankar, T. Croy, P.J. George, Void distribution in phase-change material capsule of solar latent heat energy storage system, Proceedings of the 35th National Heat Transfer Conference, Anaheim (California, USA), 2001

Brown, 1998, Microencapsulated phase-change materials as heat transfer media in gas-fluidized beds, Powder Technol., 98, 217, 10.1016/S0032-5910(98)00080-1

E. Jahns, Microencapsulated phase change materials, Proceedings of the 4th IEA ECES IEA Annex 10 Workshop, Benediktbeuern (Germany), 1999

Mulligan, 1996, Microencapsulated phase-change material suspensions for heat transfer in spacecraft thermal systems, J. Spacecraft and Rockets, 33, 278, 10.2514/3.26753

Bejan, 1978, Two thermodynamic optima in the design of sensible heat units for energy storage, Trans. ASME, 100, 708, 10.1115/1.3450882

London, 1943, Rate of ice formation, Trans. ASME, 65, 771

N. Shamsundar, R. Srinivasan, Analysis of energy storage by phase change with an array of cylindrical tubes, in: Thermal Energy Storage and Heat Transfer in Solar Energy Systems. American Society of Mechanical Engineers, vol. 35, New York, 1978

Lazaridis, 1970, A numerical solution of the multidimensional solidification (or melting) problem, Int. J. Heat Mass Transfer, 13, 1459, 10.1016/0017-9310(70)90180-8

N. Shamsundar, E.M. Sparrow, Analysis of multidimensional conduction phase change via the enthalpy model, J. Heat Transfer, Trans. ASME, August (1975) 333–340

Shamsundar, 1976, Effect of density change on multidimensional conduction phase change, J. Heat Transfer, Trans. ASME, 98, 550, 10.1115/1.3450599

Goodling, 1975, Results of the numerical solution for outward solidification with flux boundary conditions, J. Heat Transfer, Trans. ASME, 97, 307, 10.1115/1.3450365

Meyer, 1978, The numerical solution of multidimensional Stefan problems––a survey

R. Marshall, Studies of natural convection effects in an annulus containing a phase change material, Proceedings of the UK International Solar Enery Society on Storage in Solar Energy Systems, London, 1978, pp. 11

A.G. Bathelt, P.D. Van Buren, R. Viskanta, Heat transfer during solidification around a cooled horizontal cylinder, AIChE Symp. Series 75 (189) (1979) 103–111

Nicholas, 1983, Thermal storage of a phase change material in a horizontal cylinder, Energy Sources, 351

Shamsundar, 1980, Effectiveness–NTU charts for heat recovery from latent heat storage units, J. Solar Energy Eng., 102

Sparrow, 1981, Analysis of two-dimensional freezing on the outside of a coolant-carrying tube, Int. J. Heat Mass Transfer, 24, 1345, 10.1016/0017-9310(81)90185-X

Shamsundar, 1981, Similarity rule for solidification heat transfer with change in volume, J. Heat Transfer, 103

Shamsundar, 1982, Formulae for freezing outside a circular tube with axial variation of coolant temperature, Int. J. Heat Mass Transfer, 25, 1614, 10.1016/0017-9310(82)90043-6

P. Achard, D. Lecomte, D. Mayer, Etude des transferts thermiques dans un stockage par chaleur latente utilisant un échangeur tubulaire immergé, Revue Générale de thermique Fr. (254) (1983) 169–175

Hunter, 1989, The enthalpy method for heat conduction problems with moving boundaries, J. Heat Transfer, Trans. ASME, 111, 239, 10.1115/1.3250668

M. Amdjadi, B. Fabre, C. Meynadier, Résolution unidimensionnelle d’un problème de Stefan par une méthode à pas de temps variable. Application à une bille de chliarolithe, Revue Générale de thermique Fr. (339) (1990) 129–134

Banaszek, 1999, Experimental study of solid–liquid phase change in a spiral thermal energy storage unit, Appl. Thermal Eng., 19, 1253, 10.1016/S1359-4311(98)00120-3

Banaszek, 2000, Numerical analysis of the paraffin wax-air spiral thermal energy storage unit, Appl. Thermal Eng., 20, 323, 10.1016/S1359-4311(99)00028-9

Sparrow, 1978, Experiments on the role of natural convection in the melting of solids, J. Heat Transfer, 100, 11, 10.1115/1.3450484

Bathelt, 1979, An experimental investigation of natural convection in the melted region around a heated horizontal cylinder, J. Fluid Mech., 90, 227, 10.1017/S0022112079002172

D. Gobin, Role de la convection thermique dans les processus de fusion-solidification, Ecole d’ete, GUT-CET, Modélisation numérique en thermique, Institut d’etudes scientifiques de Cargèse, 1992

Farid, 1990, An electrical storage heater using the phase change method of heat storage, Energy Convers. Mgmt., 30, 219, 10.1016/0196-8904(90)90003-H

Farid, 1998, Melting and solidification in multi-dimensional geometry and presence of more than one interface, Energy Convers. Mgmt., 39, 809

Rieger, 1983, Heat transfer during melting inside a horizontal tube, J. Heat Transfer, 105, 226, 10.1115/1.3245567

Özisik, 1993, Phase-Change Problems

Yao, 1989, Melting and freezing, Adv. Heat Transfer, 19, 1, 10.1016/S0065-2717(08)70211-9

Ismail, 1999, A parametric study on possible fixed bed models for PCM and sensible heat storage, Appl. Thermal Eng., 19, 757, 10.1016/S1359-4311(98)00081-7

Ismail, 1999, Modeling and solution of the solidification problem of PCM around a cold cylinder, Numer. Heat Transfer, Part A, 36, 95, 10.1080/104077899274912

Furzerland, 1980, A comparative study of numerical methods for moving boundary problems, J. Inst. Math. Appl., 26, 411, 10.1093/imamat/26.4.411

Lacroix, 1989, Computation of heat transfer during melting of a pure substance from an isothermal wall, Numer. Heat Transfer, Part B, 15, 191, 10.1080/10407798908944900

Lacroix, 2001, Contact melting of a phase change material inside a heated parallelepedic capsule, Energy Convers. Mgmt., 42, 35, 10.1016/S0196-8904(00)00047-9

Lacroix, 1990, Finite different solutions of solidification phase change problems: transformed versus fixed grids, Numer. Heat Transfer, Part B, 17, 25, 10.1080/10407799008961731

Shamsundar, 1988, Numerical Methods For Moving Boundary Problems

Shamsundar, 1978, Comparison of numerical methods for diffusion problems with moving boundaries

Costa, 1991, Numerical simulation of solid–liquid phase change phenomena, Comput. Meth. Appl. Mech. Eng., 91, 1123, 10.1016/0045-7825(91)90066-F

Costa, 1997, Three-dimensional numerical study of melting inside an isothermal horizontal cylinder, Numer. Heat Transfer, Part A, 32, 531, 10.1080/10407789708913905

Carey, 1995, The control of ice storage systems, ASHRAE Trans., 101, 1345

Brousseau, 1996, Study of the thermal performance of a multi-layer PCM storage unit, Energy Convers. Mgmt., 37, 599, 10.1016/0196-8904(95)00207-3

Brousseau, 1998, Numerical simulation of a multi-layer latent heat thermal energy storage system, Int. J. Energy Res., 22, 1, 10.1002/(SICI)1099-114X(199801)22:1<1::AID-ER334>3.0.CO;2-L

Binet, 1998, Numerical study of natural-convection dominated melting inside uniformly and discretely heated rectangular cavities, J. Numer. Heat Transfer, Part A, 33, 207, 10.1080/10407789808913935

Binet, 1998, Étude numérique de la fusion dans des enceintes rectangulaires chauffées uniformément ou discrètement par les parois latérales conductrices, Int. J. Thermal Sci., 37, 607

Abhat, 1981, Heat of fusion storage systems for solar heating applications

Morcos, 1990, Investigation of a latent heat thermal energy storage system, Solar Wind Technol., 7, 197, 10.1016/0741-983X(90)90087-I

Costa, 1998, Numerical Simulation of a latent heat thermal energy storage system with enhanced heat conduction, Energy Convers. Mgmt., 39, 319, 10.1016/S0196-8904(96)00193-8

Padmanabhan, 1986, Outward phase change in a cylindrical annulus with axial fins on the inner tube, Int. J. Heat Mass Transfer, 29, 1855, 10.1016/0017-9310(86)90004-9

Velraj, 1997, Experimental analysis and numerical modelling of inward solidification on a finned vertical tube for a latent heat storage unit, Solar Energy, 60, 281, 10.1016/S0038-092X(96)00167-3

Velraj, 1999, Heat transfer enhancement in a latent heat storage system, Solar Energy, 65, 171, 10.1016/S0038-092X(98)00128-5

Ismail, 2001, Numerical and experimental study on the solidification of PCM around a vertical axially finned isothermal cylinder, Appl. Thermal Eng., 21, 53, 10.1016/S1359-4311(00)00002-8

Siegel, 1977, Solidification of low conductivity material containing dispersed high conductivity particles, Int. Heat Mass Transfer, 20, 1087, 10.1016/0017-9310(77)90195-8

Hoogendoorn, 1992, Performance and modelling of latent heat stores, Solar Energy, 48, 53, 10.1016/0038-092X(92)90176-B

Khan, 1994, Numerical solution to a moving boundary problem in a composite medium, Numer. Heat Transfer, 25, 209, 10.1080/10407789408955945

Tong, 1996, Enhancement of heat transfer by inserting a metal matrix into a phase change material, Numer. Heat Transfer, Part A, 30, 125, 10.1080/10407789608913832

Tong, 1996, Enhancement of heat transfer by inserting a metal matrix into a phase change material, Numer. Heat Transfer, Part A, 30, 125, 10.1080/10407789608913832

C.A. Bauer, R.A. Wirtz, Thermal characteristics of a compact, passive thermal energy storage device, Proceedings of the 2000 ASME IMECE, Orlando (Florida, USA), 2000

P. Satzger, B. Exka, F. Ziegler, Matrix-heat-exchanger for a latent-heat cold-storage, Proceedings of Megastock ’98, Sapporo (Japan), 1998

H. Mehling, S. Hiebler, F. Ziegler, Latent heat storage using a PCM-graphite composite material: advantages and potential applications, Proceedings of the 4th Workshop of IEA ECES IA Annex 10, Bendiktbeuern (Germany), 1999

H. Mehling, S. Hiebler, F. Ziegler, Latent heat storage using a PCM-graphite composite material, Proceedings of Terrastock 2000––8th International Conference on Thermal Energy Storage, Stuttgart (Germany) (2000), pp. 375–380

Cabeza, 2002, Heat transfer enhancement in water when used as PCM in thermal energy storage, Appl. Thermal Eng., 22, 1141, 10.1016/S1359-4311(02)00035-2

Py, 2001, Paraffin/porous-graphite-matrix composite as a high and constant power thermal storage material, Int. J. Heat Mass Transfer, 44, 2727, 10.1016/S0017-9310(00)00309-4

J. Fukai, Y. Morozumi, Y. Hamada, O. Miyatake, Transient response of thermal energy storage unit using carbon fibers as thermal conductivity promoter, Proceedings of the 3rd European Thermal Sciences Conference, Pisa (Italy), 2000

Fukai, 2000, Thermal conductivity enhancement of energy storage media using carbon fibers, Energy Convers. Mgmt., 41, 1543, 10.1016/S0196-8904(99)00166-1

Fukai, 2002, Effect of carbon-fiber brushes on conductive heat transfer in phase change materials, Int. J. Heat Mass Transfer, 45, 4781, 10.1016/S0017-9310(02)00179-5

Xiao, 2001, Thermal performance of a high conductive shape-stabilized thermal storage material, Solar Energy Mater. Solar Cells, 69, 293, 10.1016/S0927-0248(01)00056-3

Goodman, 1958, The heat-balance integral and its application to problems involving a change of phase, Trans. ASME, 335

Saitoh, 1978, Numerical method for multi-dimensional freezing problems in arbitrary domains, J. Heat Transfer, Trans. ASME, 100, 294, 10.1115/1.3450798

Thermal storage, in: ASHRAE (Eds.), ASHRAE Handbook, HVAC Applications, 1999

Available from <www.sedical.com>

Available from <www.baltaircoil.com>

Available from <www.calmac.com>

Dumas, 1992, Influence of undercooling on cold storage systems, ECO’S92

J.P. Dumas, J.P. Bedecarrats, F. Strub, B. Falcon, Modelization of a tank filled with spherical nodules containing a phase change material, 10th International Heat Transfer Conference, Brighton (UK) 7 (1994) 239–244

Cheng, 1988, Effects of natural convection on ice formation around an isothermally cooled horizontal cylinder, J. Heat Transfer, 110, 931, 10.1115/1.3250595

Ismail, 2001, Parametric study of solidification of PCM around a cylinder for ice-bank applications, Int. J. Refrig., 24, 809, 10.1016/S0140-7007(00)00059-1

L.F. Cabeza, J. Roca, M. Nogués, B. Zalba, J.M. Marı́n, Transportation and conservation of temperature sensitive materials with phase change materials: state of the art, IEA ECES IA Annex 17 2nd Workshop, Ljubljana (Slovenia), 2002

M. Dominguez, J.M. Pinillos, J.M. Arias, R. Fuentes, La acumulaciòn de frı́o en el transporte de productos perecederos, Reclien 98, La Habana, 1998

Available from <www.va-q-tec.de>

Available from <www.sogrigam.com>

Available from <www.tcpreliable.com>

Available from <www.pcm-solutions.com>

Pal, 1996, Application of phase change materials for passive thermal control of plastic quad flat packages: a computational study, Numer. Heat Transfer, Part A, 30, 19, 10.1080/10407789608913826

Pal, 1997, Application of phase change materials to thermal control of electronic modules: a computation study, Trans. ASME, 119, 40

Bellettre, 1997, Transient state study of electric motor heating and phase change solid–liquid cooling, Appl. Thermal Eng., 17, 17, 10.1016/1359-4311(96)00026-9

Available from <www.epsltd.co.uk>

N. Malatidis, Wärmespeicher, insbesondere Latentwärmespeicher für Kraftfahrzeuge, Patent DE 39 90 275 C 1 (1988)

R. Strähle, B. Stephan, B. Streicher, Heat accumulator for a motor vehicle, Patent WO 97/06972 (1997)

W. Zobel, R. Strahle, A. Stolz, S. Horz, T. Jantschek, H.T.C. Van Hoof, A.C. De Vuono, R.S. Herrick, S.R. Larrabee, J.A. Logic, A.P. Meissner, J.C. Rogers, M.G. Voss, Heat battery, Patent EP 0 916 918 A2 (1999)

Kniep, 1995, Latentwärmespeicher in Kraftfahrzeugen. Speichersalze im Blickpunkt, GIT Fachzeischrift für das Laboratorium, 39, 1137

Heck, 1994, Latentwärmespeicher zur Verkürzung des Motorwarmlaufs, MTZ Motortechnische Zeitschrift, 55, 2

Vasiliev, 2000, Latent heat storage modules for preheating internal combustion engines: application to a bus petrol engine, Appl. Thermal Eng., 20, 913, 10.1016/S1359-4311(99)00061-7

H.G. Barkmann, F.C. Wessling, Use of buildings structural components for thermal storage, Proceedings of the Workshop on Solar Energy Storage Subsystems for the Heating and Cooling of Buildings, Charlottesville (Virginia, USA), 1975

I.O. Salyer, A.K. Sircar, Phase change materials for heating and cooling of residential buildings and other applications, Proceedings of the 25th Intersociety Energy Conversion Engineering Conference––IECEC’90, 1990

H. Mehling, R. Krippner, A. Hauer, Research project on PCM in wood–light weight-concrete, Proceedings of the 2nd Workshop of IEA ECES IA Annex 17, Ljubljana (Slovenia), 2002

T. Haussmann, H.M. Henning, P. Schossig, Phase change materials in wall integrated systems, Proceedings of the 2nd Workshop of IEA ECES IA Annex 17, Ljubljana (Slovenia), 2002

M.M. Shapiro, D. Feldman, D. Hawes, D. Banu, PCM thermal storage in wallboard, Proceedings of the 12th Passive Solar Conference, Portland (Oregon, USA), 1987, pp. 48–58

I.O. Salyer, A.K. Sircar, R.P. Charloff, Advanced phase-change materials for passive solar storage applications, Proceedings of the Solar Building Conference, Silver Spring (Washington D.C., USA), 1985

Peippo, 1991, A multicomponent PCM wall optimized for passive solar heating, Energy Buildings, 17, 259, 10.1016/0378-7788(91)90009-R

Vakilaltojjar, 2001, Analysis and modelling of a phase change storage system for air conditioning applications, Appl. Thermal Eng., 21, 249, 10.1016/S1359-4311(00)00037-5

S.M. Vakilaltojjar, W. Saman, Domestic heating and cooling with thermal storage, Proceedings of Terrastock 2000, Stuttgart (Germany), 2000, pp. 381–386

F. Bruno, W. Saman, Testing of a PCM energy storage system for space heating, Proceedings of the World Renewable Energy Congress WII, Cologne (Germany), 2002

Omer, 2001, Experimental investigation of a thermoelectric refrigeration system employing a phase change material integrated with thermal diode (thermosyphons), Appl. Thermal Eng., 21, 1265, 10.1016/S1359-4311(01)00010-2

Riffat, 2001, A novel thermoelectric refrigeration system employing heat pipes and a phase change material: an experimental investigation, Renew. Energy, 23, 313, 10.1016/S0960-1481(00)00170-1

Ismail, 2001, Thermally effective windows with moving phase change material curtains, Appl. Thermal Eng., 21, 1909, 10.1016/S1359-4311(01)00058-8

Ismail, 2002, Parametric study on composite and PCM glass systems, Energy Convers. Mgmt., 43, 973, 10.1016/S0196-8904(01)00083-8

O. Merker, V. Hepp, A. Beck, J. Fricke, A new PCM-shading system: a study of the thermal charging and discharging process, Proceedings of Eurosun 2002, Bologna (Italy), 2002

O. Merker, F. Hepp, A. Beck, J. Fricke, A new solar shading system with phase change material (PCM), Proceedings of the World Renewable Energy Congress WII, Cologne (Germany), 2002

Cassedy, 2000

A.M. Dermott, G.R. Frysinger, Storage assisted air-conditioning using a new low-cost PCM packaging concept, Proceedings of the Conference of Peak-load Pricing and Thermal Energy Storage, Chicago, Illinois, 1979

H. Mehling, L.F. Cabeza, S. Hippeli, S. Hiebler, Improvement of stratified hot water heat stores using a PCM-module, Proceedings of EuroSun 2002, Bologna (Italy), 2002

Mehling, 2003, PCM-module to improve hot water heat stores with stratification, Renewable Energy, 28, 699, 10.1016/S0960-1481(02)00108-8

Esen, 1998, Geometric design of solar-aided latent heat store depending on various parameters and phase change materials, Solar Energy, 62, 19, 10.1016/S0038-092X(97)00104-7

T. Saitoh, K. Hirose, Spherical capsule-type latent heat thermal energy storage/heat pump system with application to solar system, Proceedings of the International Symposium on Thermal Application of Solar Energy, Hakone (Kanagawa, Japan), 1985

M. Safarik, K. Gramlich, G. Schammler, Solar absorption cooling system with 90 °C-latent heat storage, Proceedings of the World Renewable Energy Congress WII, Cologne (Germany), 2002

Buick, 1987, Short-term thermal energy storage as a means of reducing the heat pump capacity required for domestic central heating system, Int. J. Energy Res., 11, 583, 10.1002/er.4440110414

W.W.S. Charters, L. Aye, C. Chaichana, R.W.G. MacDonald, Phase change storage systems for enhanced heat pump performance, Proceedings of the 20th International Congress of Refrigeration, IIR/IIF,Sydney (Australia), 1999

Lorsch, 1997, Improving thermal and flow properties of chilled water––Part 2: facility construction and flow test, ASHRAE Trans., 103, 198

R. Velraj, K. Anbudurai, N. Nallusamy, M. Cheralathan, PCM based thermal storage system for building air-conditioning - Tidel Park, Chennai, Proceedings of the World Renewable Energy Congress WII, Cologne (Germany), 2002

M. Domı́nguez, C. Garcı́a, P. Gutiérrez, R. Fuentes, J. Culubret, La acumulación de calor en los sistemas de climatizaciòn a temperatura por encima de 0 °C, El Instalador (349) (1999) 65–72

K.A.R. Ismail, Ice-banks: fundamentals and modelling, State University of Campinas, Campinas-SP-Brazil, 1998

Hasnain, 1998, Review on sustainable thermal energy storage technologies, Part II: cool themal storage, Energy Convers. Mgmt., 39, 1139, 10.1016/S0196-8904(98)00024-7

H. Kowata, S. Sase, M. Ishii, H. Moriyama, Cold water thermal storage with phase change materials using nocturnal radiative cooling for vegetable cooling, Proceedings of the World Renewable Energy Congress WII, Cologne (Germany), 2002

B.H. Bakenhus, Ice storage project, ASHRAE J. May (2000) 64–66

M. Domı́nguez, J. Culubret, D. Garcı́a, C. Garcı́a, A. Soto, La acumulaciòn de frı́o, importante elemento de seguridad en instalaciones de climatizaciòn, El instalador, Febrero (2000) 5–10

Kürklü, 1998, Energy storage applications in greenhouses by means of phase change materials (PCMs): a review, Renew. Energy, 13, 89, 10.1016/S0960-1481(97)83337-X

Kürklü, 1997, Use of a phase change material (PCM) for the reduction of peak temperatures in a model greenhouse, Acta Horticultura, 443, 105, 10.17660/ActaHortic.1997.443.13

Kürklü, 1998, Short-term thermal performance of a built-in solar storage for frost prevention in a greenhouse, Int. J. Energy Res., 22, 169, 10.1002/(SICI)1099-114X(199802)22:2<169::AID-ER357>3.0.CO;2-G

Sokolov, 1991, Performance indicators for solar pipes with phase change storage, Solar Energy, 47, 339, 10.1016/0038-092X(91)90027-T

Rabin, 1995, Integrated solar collector storage system based on a salt-hydrate phase-change material, Solar Energy, 55, 435, 10.1016/0038-092X(95)00074-2

Enibe, 2002, Performance of a natural circulation air heating system with phase change material energy storage, Renew. Energy, 27, 69, 10.1016/S0960-1481(01)00173-2

S.O. Enibe, Parametric effects on the performance of a passive solar air heater with storage, Proceedings of the World Renewable Energy Congress WII, Cologne (Germany), 2002

J. Tey, R. Fernández, J. Rosell, M. Ibáñez, Solar collector with integrated storage and transparent insulation cover, Proceedings of Eurosun 2002, Bologna (Italy)

Buddhi, 1997, Solar cooker with latent heat storage: design and experimental testing, Energy Convers. Mgmt., 38, 493, 10.1016/S0196-8904(96)00066-0

Blüher, 1991, Latentwärmespeicher erhöht den Fahrkomfort und die Fahrsicherheit, ATZ Automobiltechnische Zeitschrift, 93, 3

M. Yanadori, K. Ogata, T. Kawano, Development of paint-drying system equipped with latent heat storage device storing exhaust heat, Proceedings of the 5th IEA ECES IA Annex 10 Workshop, Tsu (Japan), 2000

D. Hunold, Zur Auslegung and Konstruktion von thermischen Energeispeichern mit einem fest/flüssig Phasenwechsel des Speichermateials für ParabolrinnenSolarkraftwerke, Fortschritt-Berichte VDI, Reihe 6, Nr. 208 (1994)

D. Hunold, R. Ratzesberger, R. Tamme, Heat transfer measurements in alkali metal nitrates used for PCM storage applications, Proceedings of Eurotherm Seminar No. 30, 1992

D. Hunold, R. Ratzesberger, R. Tamme, Heat transfer mechanism in latent-heat thermal energy storage medium temperature application, Proceedings of the 6th International Symposium on Solar Thermal Concentrating Technologies, Mojacar (Spain), 1992

H. Michels, E. Hahne, Cascaded latent heat storage for solar thermal power stations, Proceedings of Eurosun’96, Freiburg (Germany), 1996

H. Michels, E. Hahne, Cascaded latent heat storage process heat, Proceedings of the 8th International Symposium on Solar Thermal Concentrating Technologies, Cologne (Germany), 1996

R. Ratzesberger, B. Beine, E. Hahne, Regeneratoren mit Beton und Phasenwechselmaterial als Speichermasse, VDI-GET Tagung, Leipzig (Germany), 1994