A review on thermal energy storage with eutectic phase change materials: Fundamentals and applications
暂无分享,去创建一个
Guijun Chen | Dongyue Jiang | Tianlin Liu | Mingyang Sun | Jiadian Wang | Tong Liu | Haonan Sha | Mulin Li | Xinlei Wang
[1] H. M. Ali,et al. Passive thermal management system of lithium-ion batteries employing metal foam/ pcm composite for the development of electric vehicles , 2023, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects.
[2] Xuelai Zhang,et al. Review of research progress on corrosion and anti-corrosion of phase change materials in thermal energy storage systems , 2023, Journal of Energy Storage.
[3] Z. Said,et al. Experimental study on sodium acetate trihydrate/glycerol deep eutectic solvent nanofluids for thermal energy storage , 2022, Journal of Molecular Liquids.
[4] Xuelai Zhang,et al. A review of the application of hydrated salt phase change materials in building temperature control , 2022, Journal of Energy Storage.
[5] Nassima Radouane. A Comprehensive Review of Composite Phase Change Materials (cPCMs) for Thermal Management Applications, Including Manufacturing Processes, Performance, and Applications , 2022, Energies.
[6] H. Ali,et al. Phase change materials for thermal management and energy storage: A review , 2022, Journal of Energy Storage.
[7] A. García-Romero,et al. Thermal endurance of xylitol as a phase change material for thermal energy storage applications , 2022, Journal of Energy Storage.
[8] G. Coccia,et al. A review on thermophysical properties and thermal stability of sugar alcohols as phase change materials , 2022, Journal of Energy Storage.
[9] H. Ali. An experimental study for thermal management using hybrid heat sinks based on organic phase change material, copper foam and heat pipe , 2022, Journal of Energy Storage.
[10] K. Jeyasubramanian,et al. LA-PA eutectic/ nano- SiO2 composite phase change material for thermal energy storage application in buildings , 2022, Construction and Building Materials.
[11] Jianlin Ren,et al. Characterization of expanded graphite-based erythritol/urea eutectic phase change material and corresponding mathematical solar heating application analysis , 2022, Applied Thermal Engineering.
[12] Hamed Peyrovedin,et al. Deep Eutectic Solvents as Phase Change Materials in Solar Thermal Power Plants: Energy and Exergy Analyses , 2022, Molecules.
[13] Guijun Chen,et al. A deep supercooling eutectic phase change material for low-temperature battery thermal management , 2022, Journal of Energy Storage.
[14] Jun Wang,et al. Fabrication and characteristics of eutectic hydrated salts/fumed silica composite as form-stable phase change materials for thermal energy storage , 2022, Solar Energy Materials and Solar Cells.
[15] Xiangwei Lin,et al. Development of low-temperature eutectic phase change material with expanded graphite for vaccine cold chain logistics , 2021 .
[16] Richard S. Skifton,et al. Additive Manufacturing of Miniaturized Peak Temperature Monitors for In-Pile Applications , 2021, Sensors.
[17] Chuanchang Li,et al. Review on tailored phase change behavior of hydrated salt as phase change materials for energy storage , 2021, Materials Today Energy.
[18] Xuelai Zhang,et al. Application and research progress of phase change materials in biomedical field. , 2021, Biomaterials science.
[19] Zhengguo Zhang,et al. Battery thermal management based on multiscale encapsulated inorganic phase change material of high stability , 2021, Applied Thermal Engineering.
[20] R. K. Sharma,et al. A comprehensive review on development of eutectic organic phase change materials and their composites for low and medium range thermal energy storage applications , 2021, Solar Energy Materials and Solar Cells.
[21] N. Xie,et al. Development of polyurethane acrylate coated salt hydrate/diatomite form-stable phase change material with enhanced thermal stability for building energy storage , 2020 .
[22] Rui Meng,et al. Thermal performance of galactitol/mannitol eutectic mixture/expanded graphite composite as phase change material for thermal energy harvesting , 2020 .
[23] Tulja Bhavani Korukonda,et al. Experimental studies on photovoltaic module temperature reduction using eutectic cold phase change material , 2020 .
[24] K. Alagar,et al. Performance enhancement of photovoltaic module by integrating eutectic inorganic phase change material , 2020 .
[25] Peixiang Wang,et al. Preparation and thermal properties of colloidal mixtures of capric acid and Na2HPO4·12H2O as a phase change material for energy storage , 2020 .
[26] Chaoming Wang,et al. Preparation and thermal performances of 1, 10-decanediol-stearic acid eutectic as phase change material , 2020 .
[27] Xuelai Zhang,et al. Development of composite phase change cold storage material and its application in vaccine cold storage equipment , 2020 .
[28] S. Ushak,et al. Thermodynamic modeling and experimental verification of new eutectic salt mixtures as thermal energy storage materials , 2020 .
[29] S. Kalaiselvam,et al. Novel metal coated nanocapsules of ethyl esters fatty acid eutectic mixture as phase change material with enhanced thermal conductivity for energy storage applications , 2020 .
[30] N. Xie,et al. Preparation of a low-temperature nanofluid phase change material: MgCl2–H2O eutectic salt solution system with multi-walled carbon nanotubes (MWCNTs) , 2020 .
[31] L. Maleknia,et al. Fabrication of phase-change core/shell nanofibers based on a eutectic fatty acid mixture to control body temperature fluctuations , 2020 .
[32] Aritra Ghosh,et al. Investigation of a binary eutectic mixture of phase change material for building integrated photovoltaic (BIPV) system , 2020 .
[33] Zhengguo Zhang,et al. Growth of the Phase Change Enthalpy Induced by the Crystal Transformation of an Inorganic–Organic Eutectic Mixture of Magnesium Nitrate Hexahydrate–Glutaric Acid , 2020 .
[34] N. Xie,et al. Preparation and performance of modified expanded graphite/eutectic salt composite phase change cold storage material , 2020 .
[35] Jiasheng Xu,et al. Hyperthermia-triggered UK release nanovectors for deep venous thrombosis therapy. , 2020, Journal of materials chemistry. B.
[36] K. Murugavel,et al. Temperature Regulation of CIS Photovoltaic Module Using Eutectic Salt Hydrate as PCM , 2020 .
[37] S. M. Sadrameli,et al. Application of environmental friendly and eutectic phase change materials for the efficiency enhancement of household freezers , 2020 .
[38] A. Karthick,et al. Building integrated photovoltaic modules and the integration of phase change materials for equatorial applications , 2020, Building Services Engineering Research and Technology.
[39] Changying Zhao,et al. Experimental study on the cycling stability and corrosive property of Al-Si alloys as phase change materials in high-temperature heat storage , 2019 .
[40] Q. Xu,et al. Hydrogen-rich gas production from soybean straw via microwave pyrolysis under CO2 atmosphere , 2019, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects.
[41] S. Kalaiselvam,et al. Enhancement of thermal conductivity and thermal stability of capric-lauric acid eutectic phase change material using carbonaceous materials , 2019, Materials Research Express.
[42] S. Ushak,et al. Design of phase change materials based on salt hydrates for thermal energy storage in a range of 4–40 °C , 2019, Journal of Thermal Analysis and Calorimetry.
[43] Hua Yang,et al. Fabrication, property characterization and thermal performance of composite phase change material plates based on tetradecanol-myristic acid binary eutectic mixture/expanded perlite and expanded vermiculite for building application , 2019, Journal of Central South University.
[44] Dongyi Zhou,et al. Preparation and Performance of Capric-Myristic Acid Binary Eutectic Mixtures for Latent Heat Thermal Energy Storages , 2019, Journal of Nanomaterials.
[45] Veerakumar Chinnasamy,et al. Preparation and thermal properties of lauric acid/myristyl alcohol as a novel binary eutectic phase change material for indoor thermal comfort , 2019, Energy Storage.
[46] K. Tang,et al. The Use of Eutectic Fe-Si-B Alloy as a Phase Change Material in Thermal Energy Storage Systems , 2019, Materials.
[47] Yuta Arai,et al. Thermophysical properties of trimethylolethane (TME) hydrate as phase change material for cooling lithium-ion battery in electric vehicle , 2019, Journal of Power Sources.
[48] A. Sharma,et al. Development of an acetanilide/benzoic acid eutectic phase change material based thermal energy storage unit for a passive water heating system , 2019, Bulletin of Materials Science.
[49] G. Liu,et al. Thermal Property Characterization of a Low Supercooling Degree Binary Mixed Molten Salt for Thermal Energy Storage System , 2019, International Journal of Thermophysics.
[50] M. Fang,et al. Lauric-stearic acid eutectic mixture/carbonized biomass waste corn cob composite phase change materials: Preparation and thermal characterization , 2019, Thermochimica Acta.
[51] Inamuddin,et al. Recent developments in phase change materials for energy storage applications: A review , 2019, International Journal of Heat and Mass Transfer.
[52] Chaoming Wang,et al. Preparation and Thermal Properties of 1-Hexadecanol-Palmitic Acid Eutectic Mixture/Activated Carbon Composite Phase Change Material for Thermal Energy Storage , 2019, ChemistrySelect.
[53] Guixiang Ma,et al. A novel low-temperature phase change material based on stearic acid and hexanamide eutectic mixture for thermal energy storage , 2019, Chemical Physics Letters.
[54] Guixiang Ma,et al. Preparation and thermal properties of stearic acid-benzamide eutectic mixture/expanded graphite composites as phase change materials for thermal energy storage , 2019, Powder Technology.
[55] Zhaowen Huang,et al. Salt hydrate/expanded vermiculite composite as a form-stable phase change material for building energy storage , 2019, Solar Energy Materials and Solar Cells.
[56] H. Ali,et al. Recent advances on thermal conductivity enhancement of phase change materials for energy storage system: A review , 2018, International Journal of Heat and Mass Transfer.
[57] D. Zeng,et al. A novel eutectic phase-change material: CaCl2·6H2O + NH4Cl + KCl , 2018, Calphad.
[58] Zhonghao Rao,et al. Experimental study on thermal properties and thermal performance of eutectic hydrated salts/expanded perlite form-stable phase change materials for passive solar energy utilization , 2018, Solar Energy Materials and Solar Cells.
[59] T. Akiyama,et al. Microencapsulation of eutectic and hyper-eutectic Al-Si alloy as phase change materials for high-temperature thermal energy storage , 2018, Solar Energy Materials and Solar Cells.
[60] Zeyu Zhang,et al. Characterization of MgCl2·6H2O-Based Eutectic/Expanded Perlite Composite Phase Change Material with Low Thermal Conductivity , 2018, Materials.
[61] X. Dong,et al. Preparation and Thermal Performance Enhancement of Low Temperature Eutectic Composite Phase Change Materials Based on Na2SO4·10H2O , 2018, Materials.
[62] Liwu Fan,et al. Screening of sugar alcohols and their binary eutectic mixtures as phase change materials for low-to-medium temperature latent heat storage. (Ⅰ): Non-isothermal melting and crystallization behaviors , 2018, Energy.
[63] Ya-Ling He,et al. A review of phase change material and performance enhancement method for latent heat storage system , 2018, Renewable and Sustainable Energy Reviews.
[64] S. Kalaiselvam,et al. Bifunctional nanoencapsulated eutectic phase change material core with SiO2/SnO2 nanosphere shell for thermal and electrical energy storage , 2018 .
[65] C. Isaza-Roldan,et al. Evaluation of an integrated household refrigerator evaporator with two eutectic phase-change materials , 2018, International Journal of Refrigeration.
[66] Majid Ali,et al. Fatty acids based eutectic phase change system for thermal energy storage applications , 2018, Applied Thermal Engineering.
[67] Tao Xu,et al. A shape-stabilized MgCl2·6H2O–Mg(NO3)2·6H2O/expanded graphite composite phase change material with high thermal conductivity and stability , 2018, Journal of Applied Electrochemistry.
[68] Khalid M. Saqr,et al. Improving indoor thermal comfort by using phase change materials: A review , 2018 .
[69] Lixian Sun,et al. Preparation and thermal properties of exfoliated graphite/erythritol/mannitol eutectic composite as form-stable phase change material for thermal energy storage , 2018 .
[70] F. Bruno,et al. Novel Na2SO4-NaCl-ceramic composites as high temperature phase change materials for solar thermal power plants (Part I) , 2018 .
[71] Guixiang Ma,et al. Solid-liquid phase equilibria of stearic acid and dicarboxylic acids binary mixtures as low temperature thermal energy storage materials , 2018 .
[72] Qingwen Wang,et al. Preparation and Characterization of Modified Porous Wood Flour/Lauric-Myristic Acid Eutectic Mixture as a Form-Stable Phase Change Material , 2018 .
[73] M. White,et al. Prediction of the properties of eutectic fatty acid phase change materials , 2018 .
[74] C. Veerakumar,et al. Preparation, Thermophysical Studies, and Corrosion Analysis of a Stable Capric Acid/Cetyl Alcohol Binary Eutectic Phase Change Material for Cold Thermal Energy Storage , 2018 .
[75] Xing Ju,et al. Selection principles and thermophysical properties of high temperature phase change materials for thermal energy storage: A review , 2018 .
[76] Yushi Liu,et al. Form-stable phase change material based on Na2CO3·10H2O-Na2HPO4·12H2O eutectic hydrated salt/expanded graphite oxide composite: The influence of chemical structures of expanded graphite oxide , 2018 .
[77] Guixiang Ma,et al. Preparation and Properties of Stearic Acid–Acetanilide Eutectic Mixture/Expanded Graphite Composite Phase‐Change Material for Thermal Energy Storage , 2018 .
[78] Zhengguo Zhang,et al. Hydrophilic Modification of Expanded Graphite to Prepare a High-Performance Composite Phase Change Block Containing a Hydrate Salt , 2017 .
[79] Zhengguo Zhang,et al. MgCl2·6H2O-Mg(NO3)2·6H2O eutectic/SiO2 composite phase change material with improved thermal reliability and enhanced thermal conductivity , 2017 .
[80] M. Fang,et al. Form stable composite phase change materials from palmitic-lauric acid eutectic mixture and carbonized abandoned rice: Preparation, characterization, and thermal conductivity enhancement , 2017 .
[81] Z. Ren,et al. Thermal reliability of Al-Si eutectic alloy for thermal energy storage , 2017 .
[82] C. Castaño,et al. Preparation and thermal performance of methyl palmitate and lauric acid eutectic mixture as phase change material (PCM) , 2017 .
[83] Wei Zhao,et al. Preparation and characterization of CA-MA eutectic/silicon dioxide nanoscale composite phase change material from water glass via sol-gel method , 2017, Journal of Wuhan University of Technology-Mater. Sci. Ed..
[84] G. Fang,et al. Synthesis and characterization of microencapsulated myristic acid–palmitic acid eutectic mixture as phase change material for thermal energy storage , 2017 .
[85] M. Segarra,et al. A eutectic salt high temperature phase change material: Thermal stability and corrosion of SS316 with respect to thermal cycling , 2017 .
[86] A. Dixit,et al. Fatty acids/1-dodecanol binary eutectic phase change materials for low temperature solar thermal applications: Design, development and thermal analysis , 2017 .
[87] Younan Xia,et al. A Eutectic Mixture of Natural Fatty Acids Can Serve as the Gating Material for Near‐Infrared‐Triggered Drug Release , 2017, Advanced materials.
[88] Y. Varol,et al. Energy and exergy analysis of a heat storage tank with a novel eutectic phase change material layer of a solar heater system , 2017 .
[89] P. Shukla,et al. Development of sunlight-driven eutectic phase change material nanocomposite for applications in solar water heating , 2017, Resource-Efficient Technologies.
[90] S. McCormack,et al. Investigation of the corrosive properties of phase change materials in contact with metals and plastic , 2017 .
[91] Yan Jing,et al. A thermally stable phase change material with high latent heat based on an oxalic acid dihydrate/boric acid binary eutectic system , 2017 .
[92] Zhengguo Zhang,et al. Fabrication and characterization of form-stable capric-palmitic-stearic acid ternary eutectic mixture/nano-SiO2 composite phase change material , 2017 .
[93] L. Cabeza,et al. Fatty acid eutectic mixtures and derivatives from non-edible animal fat as phase change materials , 2017 .
[94] Guixiang Ma,et al. Thermal properties and stabilities of the eutectic mixture: 1,6-hexanediol/lauric acid as a phase change material for thermal energy storage , 2017 .
[95] A. Gil,et al. Thermal cycling testing of Zn–Mg–Al eutectic metal alloys as potential high-temperature phase change materials for latent heat storage , 2017, Journal of Thermal Analysis and Calorimetry.
[96] Guixiang Ma,et al. Thermal properties and reliability of eutectic mixture of stearic acid-acetamide as phase change material for latent heat storage , 2017 .
[97] H. Ke. Phase diagrams, eutectic mass ratios and thermal energy storage properties of multiple fatty acid eutectics as novel solid-liquid phase change materials for storage and retrieval of thermal energy , 2017 .
[98] Yushi Liu,et al. Preparation and thermal properties of Na2CO3·10H2O-Na2HPO4·12H2O eutectic hydrate salt as a novel phase change material for energy storage , 2017 .
[99] Xie Shaolei,et al. A novel medium-temperature form-stable phase change material based on dicarboxylic acid eutectic mixture/expanded graphite composites , 2017 .
[100] Yushi Liu,et al. Use of nano-α-Al2O3 to improve binary eutectic hydrated salt as phase change material , 2017 .
[101] Guixiang Ma,et al. Binary eutectic mixtures of stearic acid-n-butyramide/n-octanamide as phase change materials for low temperature solar heat storage. , 2017 .
[102] Javier Rodríguez-Aseguinolaza,et al. Experimental investigation of Mg-Zn-Al metal alloys for latent heat storage application , 2016 .
[103] Liangzhong YAO,et al. Challenges and progresses of energy storage technology and its application in power systems , 2016 .
[104] M. Farid,et al. A novel calcium chloride hexahydrate-based deep eutectic solvent as a phase change materials , 2016 .
[105] Haiting Wei,et al. Preparation and characterization of capric-myristic-stearic acid eutectic mixture/modified expanded vermiculite composite as a form-stable phase change material , 2016 .
[106] Tao Xu,et al. A capric–palmitic–stearic acid ternary eutectic mixture/expanded graphite composite phase change material for thermal energy storage , 2016 .
[107] Ali C. Kheirabadi,et al. Stable, low-cost phase change material for building applications: The eutectic mixture of decanoic acid and tetradecanoic acid , 2016 .
[108] Eanest B. Jebasingh. Effects of various types of graphite on the thermal conductivity and energy storage properties of ternary eutectic fatty acid-based composite as phase change material , 2016 .
[109] Gang Wang,et al. Influence of intumescent flame retardant on thermal and flame retardancy of eutectic mixed paraffin/polypropylene form-stable phase change materials , 2016 .
[110] Yafei Zhang,et al. Shape-stabilized phase change materials based on fatty acid eutectics/expanded graphite composites for thermal storage , 2015 .
[111] Li Shi,et al. A eutectic mixture of galactitol and mannitol as a phase change material for latent heat storage , 2015 .
[112] G. Fang,et al. Synthesis and thermal properties of fatty acid eutectics and diatomite composites as shape-stabilized phase change materials with enhanced thermal conductivity , 2015 .
[113] Aytunç Erek,et al. Graphite nanoplates loading into eutectic mixture of Adipic acid and Sebacic acid as phase change material , 2015 .
[114] Q. Wei,et al. Fabrication and characterization of capric–lauric–palmitic acid/electrospun SiO2 nanofibers composite as form-stable phase change material for thermal energy storage/retrieval , 2015 .
[115] A. Gil,et al. Mg-Zn-Al Eutectic Alloys as Phase Change Material for Latent Heat Thermal Energy Storage , 2015 .
[116] L. Cabeza,et al. Corrosion of metal containers for use in PCM energy storage , 2015 .
[117] G. Fang,et al. Preparation and properties of shape-stabilized phase change materials based on fatty acid eutectics and cellulose composites for thermal energy storage , 2015 .
[118] A. Sari,et al. Micro/nano encapsulation of some paraffin eutectic mixtures with poly(methyl methacrylate) shell: Preparation, characterization and latent heat thermal energy storage properties , 2014 .
[119] Yanping Yuan,et al. Preparation and properties of palmitic-stearic acid eutectic mixture/expanded graphite composite as phase change material for energy storage , 2014 .
[120] Yanping Yuan,et al. Effect of carbon nanotubes on the thermal behavior of palmitic-stearic acid eutectic mixtures as phase change materials for energy storage , 2014 .
[121] Javier Rodríguez-Aseguinolaza,et al. Thermophysical characterization of Mg–51%Zn eutectic metal alloy: A phase change material for thermal energy storage in direct steam generation applications , 2014 .
[122] Yulong Ding,et al. Multi-walled carbon nanotubes added to Na2CO3/MgO composites for thermal energy storage , 2014 .
[123] Yuan Zhou,et al. The preparation, characterization and modification of a new phase change material: CaCl2·6H2O–MgCl2·6H2O eutectic hydrate salt , 2014 .
[124] Stefan Hiebler,et al. Three–step method to determine the eutectic composition of binary and ternary mixtures , 2014, Journal of Thermal Analysis and Calorimetry.
[125] Teuku Meurah Indra Mahlia,et al. Sodium laurate enhancements the thermal properties and thermal conductivity of eutectic fatty acid as phase change material (PCM) , 2014 .
[126] I. Lasanta,et al. Corrosion of alumina‐forming austenitic steel in molten nitrate salts by gravimetric analysis and impedance spectroscopy , 2014 .
[127] Zhaowen Huang,et al. Thermal property measurement and heat storage analysis of LiNO3/KCl – expanded graphite composite phase change material , 2014 .
[128] P. Schmidt,et al. Development of salt hydrate eutectics as latent heat storage for air conditioning and cooling , 2014 .
[129] W. Tao,et al. Fatty acids as phase change materials: A review , 2014 .
[130] A. Inés Fernández,et al. New Database on Phase Change Materials for Thermal Energy Storage in Buildings to Help PCM Selection , 2014 .
[131] Xiaoxi Yang,et al. Design of new molten salt thermal energy storage material for solar thermal power plant , 2013 .
[132] Noel León,et al. High temperature latent heat thermal energy storage: Phase change materials, design considerations and performance enhancement techniques , 2013 .
[133] Teuku Meurah Indra Mahlia,et al. Phase change material: Optimizing the thermal properties and thermal conductivity of myristic acid/palmitic acid eutectic mixture with acid-based surfactants , 2013 .
[134] Xiangfei Kong,et al. Form-Stable Phase Change Materials Based on Eutectic Mixture of Tetradecanol and Fatty Acids for Building Energy Storage: Preparation and Performance Analysis , 2013, Materials.
[135] Yanping Yuan,et al. Preparation and characterization of lauric–myristic–palmitic acid ternary eutectic mixtures/expanded graphite composite phase change material for thermal energy storage , 2013 .
[136] Li-jiu Wang,et al. Characterization and thermal conductivity of modified graphite/fatty acid eutectic/PMMA form-stable phase change material , 2013, Journal of Wuhan University of Technology-Mater. Sci. Ed..
[137] J. C. Gomez,et al. Ca(NO3)2—NaNO3—KNO3 Molten Salt Mixtures for Direct Thermal Energy Storage Systems in Parabolic Trough Plants , 2013 .
[138] B. Gao,et al. The effects of compounding conditions on the properties of fatty acids eutectic mixtures as phase change materials , 2013 .
[139] Cemil Alkan,et al. Polyurethanes as solid–solid phase change materials for thermal energy storage , 2012 .
[140] F. Bruno,et al. Review on storage materials and thermal performance enhancement techniques for high temperature phase change thermal storage systems , 2012 .
[141] Rebecca I. Dunn,et al. Molten-Salt Power Towers: Newly Commercial Concentrating Solar Storage , 2012, Proceedings of the IEEE.
[142] Haoling Sun,et al. A new kind of shape-stabilized phase change materials , 2011 .
[143] Weizhong Li,et al. Thermal performance of caprylic acid/1-dodecanol eutectic mixture as phase change material (PCM) , 2011 .
[144] Pradeep Bansal,et al. Effect of door opening and defrost cycle on a freezer with phase change panels , 2010 .
[145] Elena Palomo Del Barrio,et al. KNO3/NaNO3 – Graphite materials for thermal energy storage at high temperature: Part I. – Elaboration methods and thermal properties , 2010 .
[146] Xiaoxi Yang,et al. The preparation and properties of multi-component molten salts , 2010 .
[147] Elena Palomo Del Barrio,et al. KNO3/NaNO3 – Graphite materials for thermal energy storage at high temperature: Part II. – Phase transition properties , 2010 .
[148] Li-jiu Wang,et al. Fatty acid eutectic/polymethyl methacrylate composite as form-stable phase change material for thermal energy storage , 2010 .
[149] M. Kenisarin. High-temperature phase change materials for thermal energy storage , 2010 .
[150] S. Fantini,et al. An unusual common ion effect promotes dissolution of metal salts in room-temperature ionic liquids: a strategy to obtain ionic liquids having organic–inorganic mixed cations , 2010 .
[151] S. Vainshtein,et al. The three-component mutual system of Li, Ca//SO4, MoO4 , 2009 .
[152] Ahmet Sarı,et al. Capric–myristic acid/vermiculite composite as form-stable phase change material for thermal energy storage , 2009 .
[153] E. Iskenderov,et al. NaF-NaBr-Na2MoO4 and KF-KCl-KBr ternary systems , 2009 .
[154] A. Sari,et al. Capric–myristic acid/expanded perlite composite as form-stable phase change material for latent heat thermal energy storage , 2008 .
[155] S. C. Solanki,et al. Heat transfer characteristics of thermal energy storage system using PCM capsules: A review , 2008 .
[156] Xiaolan Wei,et al. High‐temperature thermal stability of molten salt materials , 2008 .
[157] A. Sari,et al. Preparation and thermal properties of capric acid/palmitic acid eutectic mixture as a phase change energy storage material , 2008 .
[158] T. V. Gubanova,et al. LiF-LiCl-LiVO3-Li2SO4-Li2MoO4 system , 2007 .
[159] Z. Tan,et al. Heat Storage Performance of Disodium Hydrogen Phosphate Dodecahydrate: Prevention of Phase Separation by Thickening and Gelling Methods , 2007 .
[160] S. Vainshtein,et al. Phase equilibria in the NaCl-NaBr-Na2MoO4 system , 2007 .
[161] I. Garkushin,et al. LiF-LiVO3-Li2SO4-Li2MoO4 four-component system , 2007 .
[162] Lv Shilei,et al. Eutectic mixtures of capric acid and lauric acid applied in building wallboards for heat energy storage , 2006 .
[163] A. Sari. Eutectic mixtures of some fatty acids for latent heat storage: Thermal properties and thermal reliability with respect to thermal cycling , 2006 .
[164] I. Garkushin,et al. The LiF-LiCl-Li2SO4-Li2MoO4 quaternary system , 2006 .
[165] A. Sari. Eutectic mixtures of some fatty acids for low temperature solar heating applications: Thermal properties and thermal reliability , 2005 .
[166] Sedat Keleş,et al. Lauric and myristic acids eutectic mixture as phase change material for low‐temperature heating applications , 2005 .
[167] T. Chuah,et al. Fatty Acids as Phase Change Materials (PCMs) for Thermal Energy Storage: A Review , 2005 .
[168] R. Bradshaw,et al. Corrosion of stainless steels and carbon steel by molten mixtures of commercial nitrate salts , 2004 .
[169] I. Garkushin,et al. Phase equilibria in the LiF-LiCl-LiVO3-Li2CrO4 quaternary system , 2004 .
[170] A. Sari,et al. Phase change and heat transfer characteristics of a eutectic mixture of palmitic and stearic acids as PCM in a latent heat storage system , 2003 .
[171] Aghareed M. Tayeb,et al. Modification of urea-sodium acetate trihydrate mixture for solar energy storage , 2003 .
[172] Q. Jiang,et al. Effect of pressure on melting temperature of silicon , 2003 .
[173] A. Sari. Thermal characteristics of a eutectic mixture of myristic and palmitic acids as phase change material for heating applications , 2003 .
[174] A. Sari,et al. Thermal Performance of a Eutectic Mixture of Lauric and Stearic Acids as PCM Encapsulated in the Annulus of Two Concentric Pipes , 2002 .
[175] A. M. Gasanaliev,et al. Heat-accumulating properties of melts , 2000 .
[176] T. Akiyama,et al. Storage and release of heat in a single spherical capsule containing phase-change material with a high melting point , 1991 .
[177] C. E. Birchenall,et al. New eutectic alloys and their heats of transformation , 1985 .
[178] W. Phillips,et al. Advanced latent heat of fusion thermal energy storage for solar power systems , 1985 .
[179] Yoshiyuki Abe,et al. Peak load coverage by molten salts latent thermal storage , 1984 .
[180] H. Maru,et al. Latent heat thermal energy storage systems above 450 C , 1977 .
[181] R. Littlewood,et al. Thermodynamics of corrosion in fused chlorides , 1960 .