Curbing global warming with phase change materials for energy storage

Renewable and Sustainable Energy Reviews

Volumn 18, Issue , 2013, Pages 23-30

  Anisur, M R ^a   Mahfuz, M H ^a   Kibria, M A ^a   Saidur, R ^a   Metselaar, I H S C ^a   Mahlia, T M I ^b  

^a UNIVERSITY OF MALAYA   (Malaysia)

^b Universiti Tenaga Nasional   (Malaysia)

Author keywords

Energy saving; Fossil fuel consumption; Greenhouse gas emission; Phase change material; Thermal energy storage

Indexed keywords

COLD START; EMISSION REDUCTION; GLOBAL ENVIRONMENTAL PROBLEMS; GREENHOUSE-GAS EMISSIONS; HEAT MANAGEMENT; IN-BUILDINGS; PERFORMANCE IMPROVEMENTS; PHASE CHANGE MATERIAL (PCM); SOLAR THERMAL POWER; THERMAL ENERGY STORAGE SYSTEMS;

CARBON DIOXIDE; EMISSION CONTROL; ENERGY CONSERVATION; ENERGY UTILIZATION; FOSSIL FUELS; GAS EMISSIONS; GLOBAL WARMING; GREENHOUSE GASES; GREENHOUSES; HEAT STORAGE; THERMAL ENERGY; WASTE HEAT;

PHASE CHANGE MATERIALS;

EID: 84868231351     PISSN: 13640321     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.rser.2012.10.014     Document Type: Review

References (83)

1. N Armaroli, and V Balzani The future of energy supply: challenges and opportunities Angewandte Chemie International Edition 46 1-2 2007 52 66
2. WH Calvin Global fever: how to treat climate change 2008 University of Chicago Press
3. W Krewitt, S Simon, W Graus, S Teske, A Zervos, and O Schäfer The 2 °C scenario - a sustainable world energy perspective Energy Policy 35 10 2007 4969 4980
4. S VijayaVenkataRaman, S Iniyan, and R Goic A review of climate change, mitigation and adaptation Renewable & Sustainable Energy Reviews 16 1 2012 878 897
5. A Alexiadis Global warming and human activity: a model for studying the potential instability of the carbon dioxide/temperature feedback mechanism Ecological Modelling 203 3-4 2007 243 256
6. I Karakurt, G Aydin, and K Aydiner Sources and mitigation of methane emissions by sectors: a critical review Renewable energy 39 1 2012 40 48
7. KW Guo Green nanotechnology of trends in future energy: a review International Journal of Energy Research 36 1 2012 1 17
8. 2 emissions Building and Environment 44 12 2009 2451 2462
9. D Fernandes, F Pitié, G Cáceres, and J Baeyens Thermal energy storage: how previous findings determine current research priorities Energy 39 1 2012 246 257
10. I Dincer, and MA Rosen HÖ Paksoy, Energetic, exergetic, environmental and sustainabilty aspects of thermal energy storage for sustainable energy consumption 2007 Springer Netherlands 23 46
11. I Dinçer, and MA Rosen Energy storage systems, in thermal energy storage 2010 John Wiley & Sons, Ltd. p. 51-82
12. A Sharma, VV Tyagi, CR Chen, and D Buddhi Review on thermal energy storage with phase change materials and applications Renewable & Sustainable Energy Reviews 13 2 2009 318 345
13. I Dinçer, and MA Rosen Thermal energy storage and environmental impact, in thermal energy storage 2010 John Wiley & Sons, Ltd. p. 191-209
14. Lior N The current status and possible sustainable paths to energy generation and Use. In nuclear & renewable energy conference (INREC), 2010 1st International. 2010.
15. J Jeon, JH Lee, J Seo, SG Jeong, and S Kim Application of PCM thermal energy storage system to reduce building energy consumption Journal of Thermal Analysis and Calorimetry 2012 1 10
16. H Mehling, and L Cabeza Phase change materials and their basic properties Thermal energy storage for sustainable energy consumption Vol. 234 2007 Springer Netherlands 257-77
17. D Ewing An investigation of the application of phase change materials in practical thermal management systems 2012 Clemenson University
18. SD Sharma, and K Sagara Latent heat storage materials and systems: a review International Journal of Green Energy 2 1 2005 1 56
19. R Sabbah, R Kizilel, JR Selman, and S Al-Hallaj Active (air-cooled) vs. passive (phase change material) thermal management of high power lithium-ion packs: limitation of temperature rise and uniformity of temperature distribution Journal of Power Sources 182 2 2008 630 638
20. R Baetens, BP Jelle, and A Gustavsen Phase change materials for building applications: a state-of-the-art review Energy and Buildings 42 9 2010 1361 1368
21. VV Tyagi, and D Buddhi PCM thermal storage in buildings: a state of art Renewable & Sustainable Energy Reviews 11 6 2007 1146 1166
22. B Zalba, JM Marn, LF Cabeza, and H Mehling Review on thermal energy storage with phase change: materials, heat transfer analysis and applications Applied Thermal Engineering 23 3 2003 251 283
23. M Kenisarin, and K Mahkamov Solar energy storage using phase change materials Renewable & Sustainable Energy Reviews 11 9 2007 1913 1965
24. M Gumus Reducing cold-start emission from internal combustion engines by means of thermal energy storage system Applied Thermal Engineering 29 4 2009 652 660
25. SA Khateeb, MM Farid, JR Selman, and S Al-Hallaj Design and simulation of a lithium-ion battery with a phase change material thermal management system for an electric scooter Journal of Power Sources 128 2 2004 292 307
26. A Gil, M Medrano, I Martorell, A Lázaro, P Dolado, B Zalba, and LF Cabeza State of the art on high temperature thermal energy storage for power generation. Part 1 - Concepts, materials and modellization Renewable & Sustainable Energy Reviews 14 1 2010 31 55
27. A Kaizawa, H Kamano, A Kawai, T Jozuka, T Senda, N Maruoka, N Okinaka, and T Akiyama Technical feasibility study of waste heat transportation system using phase change material from industry to city ISIJ International 48 4 2008 540 548
28. T Nomura, N Okinaka, and T Akiyama Waste heat transportation system, using phase change material (PCM) from steelworks to chemical plant Resources, Conservation and Recycling 54 11 2010 1000 1006
29. Kim K, Choi K-w, Lee K-h, and Lee K-s, A methodology of an automotive engine cooling using a phase change material. ASME Conference Proceedings, November 13-19, 2009, Lake Buena Vista, Florida, USA 2009; 13: 605-10.
30. M Gumus, and A Ugurlu Application of phase change materials to pre-heating of evaporator and pressure regulator of a gaseous sequential injection system Applied Energy 88 12 2011 4803 4810
31. LL Vasiliev, VS Burak, AG Kulakov, DA Mishkinis, and PV Bohan Latent heat storage modules for preheating internal combustion engines: application to a bus petrol engine Applied Thermal Engineering 20 10 2000 913 923
32. D Zhou, CY Zhao, and Y Tian Review on thermal energy storage with phase change materials (PCMs) in building applications Applied EnergyApplied Energy 92 2012 593 605
33. Y Zhang, G Zhou, K Lin, Q Zhang, and H Di Application of latent heat thermal energy storage in buildings: state-of-the-art and outlook Building and Environment 42 6 2007 2197 2209
34. F Kuznik, D David, K Johannes, and JJ Roux A review on phase change materials integrated in building walls Renewable & Sustainable Energy Reviews 15 1 2011 379 391
35. LF Cabeza, A Castell, C Barreneche, A de Gracia, and AI Fernández Materials used as PCM in thermal energy storage in buildings: a review Renewable & Sustainable Energy Reviews 15 3 2011 1675 1695
36. IEO. International Energy Outlook: Electricity. Retrieved on May, 2012, Available at: 〈http://www.eia.gov/forecasts/ieo/electricity.cfm 〉 2011.
37. I Dinçer, and MA Rosen Thermal energy storage (TES) methods. thermal energy storage 2010 John Wiley & Sons, Ltd. 83-190
38. S Behzadi, and MM Farid Experimental and numerical investigations on the effect of using phase change materials for energy conservation in residential buildings HVAC&R Research 17 3 2011 366 376
39. JF Su, XY Wang, SB Wang, YH Zhao, and Z Huang Fabrication and properties of microencapsulated-paraffin/gypsum-matrix building materials for thermal energy storage Energy Conversion and Management 55 2012 101 107
40. O Alicia Thermal characterization of gypsum boards with PCM included: thermal energy storage in buildings through latent heat Energy and Buildings 48 2012 1 7
41. VV Tyagi, SC Kaushik, SK Tyagi, and T Akiyama Development of phase change materials based microencapsulated technology for buildings: a review Renewable & Sustainable Energy Reviews 15 2 2011 1373 1391
42. I Cerón, J Neila, and M Khayet Experimental tile with phase change materials (PCM) for building use Energy and Buildings 43 8 2011 1869 1874
43. H Li, X Liu, and G Fang Preparation and characteristics of n-nonadecane/cement composites as thermal energy storage materials in buildings Energy and Buildings 42 10 2010 1661 1665
44. A Pasupathy, L Athanasius, R Velraj, and RV Seeniraj Experimental investigation and numerical simulation analysis on the thermal performance of a building roof incorporating phase change material (PCM) for thermal management Applied Thermal Engineering 28 5-6 2008 556 565
45. A Pasupathy, and R Velraj Effect of double layer phase change material in building roof for year round thermal management Energy and Buildings 40 3 2008 193 203
46. A Futane, S Karale, and U Wankhede A review on free cooling through heat pipe by using phase change materials International Journal of Engineering Science 2011 3
47. N Zhu, Z Ma, and S Wang Dynamic characteristics and energy performance of buildings using phase change materials: a review Energy Conversion and Management 50 12 2009 3169 3181
48. M Isaac, and DP Van Vuuren Modeling global residential sector energy demand for heating and air conditioning in the context of climate change Energy Policy 37 2 2009 507 521
49. M Santamouris Passive cooling of buildings Advances of Solar Energy 34 4 2005 33 53
50. Jeon J, Seo J, Jeong SG, and Kim S, PCM application methods for residential building using radiant floor heating systems.
51. N Li, G Calis, and B Becerik-Gerber Measuring and monitoring occupancy with an RFID based system for demand-driven HVAC operations Automation in Construction 24 0 2012 89 99
52. JM Olarte, MD Gracia, JMM Herrero, and BZ Nonay Modelling a radiant floor system with Phase Change Material (PCM) integrated into a building simulation tool Analysis of a case study of a floor heating system coupled to a heat pump 2011
53. R Aringhoff, C Aubrey, G Brakmann, and S Teske Solar thermal power 2020 2003 Greenpeace International/European Solar Thermal Power Industry Association Netherlands
54. F Cavallaro Fuzzy TOPSIS approach for assessing thermal-energy storage in concentrated solar power (CSP) systems Applied Energy 87 2 2010 496 503
55. Peiffer L, Zeigler T, and Guo WG, Auxiliary heating and air conditioning system for a motor vehicle, 1999, Google Patents.
56. Y Kata Thermal energy storage in vehicles for fuel efficiency improvement Proc. Effstock 2009 14 17
57. E Uherek, T Halenka, J Borken-Kleefeld, Y Balkanski, T Berntsen, C Borrego, M Gauss, P Hoor, K Juda-Rezler, and J Lelieveld Transport impacts on atmosphere and climate: land transport Atmospheric Environment 44 37 2010 4772 4816
58. R Levinson, H Pan, G Ban-Weiss, P Rosado, R Paolini, and H Akbari Potential benefits of solar reflective car shells: cooler cabins, fuel savings and emission reductions Applied Energy 88 12 2011 4343 4357
59. D Boam Energy audit on a two-litre saloon car driving an ECE 15 cycle from a cold start. Proceedings of the institution of mechanical engineers Part D: Journal of Automobile Engineering 200 1 1986 61 67
60. H Benli, and A Durmuş Performance analysis of a latent heat storage system with phase change material for new designed solar collectors in greenhouse heating Solar Energy 83 12 2009 2109 2119
61. Y Liu, C Chen, H Guo, and H Yue An Application of Phase Change Technology in a Greenhouse 2006
62. YC Weng, HP Cho, CC Chang, and SL Chen Heat pipe with PCM for electronic cooling Applied Energy 88 5 2011 1825 1833
63. 2 emissions from fuel combustion-highlights International Energy Agency 2009
64. D Barlev Innovation in concentrated solar power 2010 University of California Davis: California,United States
65. JF Feldhoff, K Schmitz, M Eck, L Schnatbaum-Laumann, D Laing, F Ortiz-Vives, and J Schulte-Fischedick Comparative system analysis of direct steam generation and synthetic oil parabolic trough power plants with integrated thermal storage Solar Energy 86 1 2012 520 530
66. A Hoshi, DR Mills, A Bittar, and TS Saitoh Screening of high melting point phase change materials (PCM) in solar thermal concentrating technology based on CLFR Solar Energy 79 3 2005 332 339
67. SA Kalogirou Solar thermal collectors and applications Progress in Energy and Combustion Science 30 3 2004 231 295
68. D Laing, C Bahl, T Bauer, D Lehmann, and WD Steinmann Thermal energy storage for direct steam generation Solar Energy 85 4 2011 627 633
69. YQ Li, YL He, ZF Wang, C Xu, and W Wang Exergy analysis of two phase change materials storage system for solar thermal power with finite-time thermodynamics Renewable Energy 39 1 2012 447 454
70. M Medrano, A Gil, I Martorell, X Potau, and LF Cabeza State of the art on high-temperature thermal energy storage for power generation. Part 2 - Case studies Renewable & Sustainable Energy Reviews 14 1 2010 56 72
71. H Michels, and R Pitz-Paal Cascaded latent heat storage for parabolic trough solar power plants Solar Energy 81 6 2007 829 837
72. MJ Montes, A Abánades, and JM Martínez-Val Performance of a direct steam generation solar thermal power plant for electricity production as a function of the solar multiple Solar Energy 83 5 2009 679 689
73. V Morisson, M Rady, E Palomo, and E Arquis Thermal energy storage systems for electricity production using solar energy direct steam generation technology Chemical Engineering and Processing: Process Intensification 47 3 2008 499 507
74. SA Tassou, G De-Lille, and YT Ge Food transport refrigeration - approaches to reduce energy consumption and environmental impacts of road transport Applied Thermal Engineering 29 8-9 2009 1467 1477
75. Korin E, Reshef R, Tshernichovesky D, and Sher E, Reducing cold-start emission from internal combustion engines by means of a catalytic converter embedded in a phase-change material. Proceedings of the institution of mechanical engineers, Part D: Journal of Automobile Engineering, 1999; 213(6): 575-83.
76. M Tucker Can solar cooking save the forests? Ecological Economics 31 1 1999 77 89
77. N Wang, X Zhang, D Zhu, and J Gao The investigation of thermal conductivity and energy storage properties of graphite/paraffin composites Journal of Thermal Analysis and Calorimetry 2012 1 6
78. J Wang, H Xie, Z Xin, Y Li, and L Chen Enhancing thermal conductivity of palmitic acid based phase change materials with carbon nanotubes as fillers Solar Energy 84 2 2010 339 344
79. VA Arasu, AP Sasmito, and AS Mujumdar Numerical performance study of paraffin wax dispersed with alumina in a concentric pipe latent heat storage system Thermo Scientific 2012 4-4
80. S. Zhang, J Wu, CT Tse, and J Niu Effective dispersion of multi-wall carbon nano-tubes in hexadecane through physiochemical modification and decrease of supercooling Solar Energy Materials and Solar Cells 2011
81. S Kalaiselvam, R Parameshwaran, and S Harikrishnan Analytical and experimental investigations of nanoparticles embedded phase change materials for cooling application in modern buildings Renewable Energy 39 1 2012 375 387
82. S Wu, D Zhu, X Zhang, and J Huang Preparation and melting/freezing characteristics of Cu/paraffin nanofluid as phase-change material (PCM) Energy & Fuels 24 3 2010 1894 1898
83. G Song, S Ma, G Tang, Z Yin, and X Wang Preparation and characterization of flame retardant form-stable phase change materials composed by EPDM, paraffin and nano magnesium hydroxide Energy 35 5 2010 2179 2183