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Volumn 179, Issue , 2016, Pages 284-301

Thermal energy storage (TES) for industrial waste heat (IWH) recovery: A review

Author keywords

Excess heat; Industrial waste heat; Industry; Manufacture; Phase change material; Thermal energy storage

Indexed keywords

CARBON DIOXIDE; ELECTRIC ENERGY STORAGE; ENERGY CONSERVATION; ENERGY STORAGE; HEAT STORAGE; INDUSTRIAL WASTES; INDUSTRY; MANUFACTURE; PHASE CHANGE MATERIALS; RECOVERY; STORAGE (MATERIALS); THERMAL ENERGY; WASTE HEAT; WASTE HEAT UTILIZATION;

EID: 84978173377     PISSN: 03062619     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apenergy.2016.06.147     Document Type: Review
Times cited : (500)

References (83)
  • 1
    • 78649810454 scopus 로고    scopus 로고
    • 2 emissions and economic growth in Europe
    • 2 emissions and economic growth in Europe. Energy 35 (2010), 5412–5420.
    • (2010) Energy , vol.35 , pp. 5412-5420
    • Acaravci, A.1    Ozturk, I.2
  • 2
    • 84979087323 scopus 로고    scopus 로고
    • European Environment Agency (EEA). <> [accessed 13.05.16].
    • [2] European Environment Agency (EEA). < http://www.eea.europa.eu/> [accessed 13.05.16].
  • 3
    • 84978942259 scopus 로고    scopus 로고
    • European Commission. Eurostat. <> [accessed 13.05.16].
    • [3] European Commission. Eurostat. < http://ec.europa.eu/eurostat> [accessed 13.05.16].
  • 4
  • 5
    • 84902656647 scopus 로고    scopus 로고
    • Methods to estimate the industrial waste heat potential of regions – a categorization and literature review
    • [5] Brueckner, S., Miro, L., Cabeza, L.F., Pehnt, M., Laevemann, E., Methods to estimate the industrial waste heat potential of regions – a categorization and literature review. Renew Sustain Energy Rev 38 (2014), 164–171.
    • (2014) Renew Sustain Energy Rev , vol.38 , pp. 164-171
    • Brueckner, S.1    Miro, L.2    Cabeza, L.F.3    Pehnt, M.4    Laevemann, E.5
  • 6
    • 84979011411 scopus 로고    scopus 로고
    • US Department of Energy. Waste heat recovery: technology and opportunities in US Industry; 2008.
    • [6] US Department of Energy. Waste heat recovery: technology and opportunities in US Industry; 2008.
  • 7
    • 84937579845 scopus 로고    scopus 로고
    • Mapping and discussing Industrial Waste Heat (IWH) potentials for different countries
    • [7] Miro, L., Brueckner, S., Cabeza, L.F., Mapping and discussing Industrial Waste Heat (IWH) potentials for different countries. Renew Sustain Energy Rev 51 (2015), 847–855.
    • (2015) Renew Sustain Energy Rev , vol.51 , pp. 847-855
    • Miro, L.1    Brueckner, S.2    Cabeza, L.F.3
  • 8
    • 84979070141 scopus 로고    scopus 로고
    • Die Nutzungindustrieller Abwärme-technisch-wirtschaftliche Potenziale und energiepolitische Umsetzung Wissenschaftliche Begleitforschung zu uebergreifendentechnischen, oekologischen, oekonomischen und strategischen Aspekten des nationalen Teils der Klimaschutzinitiative FKZ03KSW016AundB; 2010.
    • [8] Pehnt M, Boedekery J, Arens M, Jochem E, Idrissora F. Die Nutzungindustrieller Abwärme-technisch-wirtschaftliche Potenziale und energiepolitische Umsetzung Wissenschaftliche Begleitforschung zu uebergreifendentechnischen, oekologischen, oekonomischen und strategischen Aspekten des nationalen Teils der Klimaschutzinitiative FKZ03KSW016AundB; 2010.
    • Pehnt, M.1    Boedekery, J.2    Arens, M.3    Jochem, E.4    Idrissora, F.5
  • 9
    • 84928716801 scopus 로고    scopus 로고
    • Indsutrial waste heat recovery technologies: an economic analysis of heat transformation technologies
    • [9] Brueckner, S., Liu, S., Miro, L., Radspieler, M., Cabeza, L.F., Laevemann, E., Indsutrial waste heat recovery technologies: an economic analysis of heat transformation technologies. Appl Energy 151 (2015), 157–167.
    • (2015) Appl Energy , vol.151 , pp. 157-167
    • Brueckner, S.1    Liu, S.2    Miro, L.3    Radspieler, M.4    Cabeza, L.F.5    Laevemann, E.6
  • 10
    • 84978929409 scopus 로고    scopus 로고
    • IEA ECES Annex 19: Optimised industrial process heat and power generation with thermal energy storage; 2010.
    • [10] Tamme R. IEA ECES Annex 19: Optimised industrial process heat and power generation with thermal energy storage; 2010.
    • Tamme, R.1
  • 11
    • 84979068002 scopus 로고    scopus 로고
    • BINE Informationsdienst. Latent heat storage provides process steam. <> [accessed 10.03.16].
    • [11] BINE Informationsdienst. Latent heat storage provides process steam. < http://www.bine.info> [accessed 10.03.16].
  • 13
    • 84978942296 scopus 로고    scopus 로고
    • IEA-ETSAP, Irena. Thermal energy storage: technology brief; 2013.
    • [13] IEA-ETSAP, Irena. Thermal energy storage: technology brief; 2013.
  • 14
    • 84978035194 scopus 로고    scopus 로고
    • Efficient usage of waste heat by applying a seasonal energy storage (BTES) at ITT Water & Wastewater AB, Emmaboda, Sweden
    • [14] Andersson, O., Rydell, L., Algotsson, T., Efficient usage of waste heat by applying a seasonal energy storage (BTES) at ITT Water & Wastewater AB, Emmaboda, Sweden. Effstock conference, 2009.
    • (2009) Effstock conference
    • Andersson, O.1    Rydell, L.2    Algotsson, T.3
  • 15
    • 84979011433 scopus 로고    scopus 로고
    • Energie Speicher Forschungsinitiative der Bundesregierung. Foundry using waste heat of the furnace; 2014. <> [accessed 13.05.16].
    • [15] Energie Speicher Forschungsinitiative der Bundesregierung. Foundry using waste heat of the furnace; 2014. < http://forschung-energiespeicher.info/en/storing-heat/project-list/project-details/108/Giesserei_nutzt_Abwaerme_des_Schmelzofens/> [accessed 13.05.16].
  • 16
    • 84968892147 scopus 로고    scopus 로고
    • Waste heat recovery from castings and scrap preheating by recovered heat using an intermediate heat transfer medium
    • [16] Selvaraj, J., Thenarasu, M., Aravind, S., Ashok, P., Waste heat recovery from castings and scrap preheating by recovered heat using an intermediate heat transfer medium. Appl Mech Mater 813–814 (2015), 776–781.
    • (2015) Appl Mech Mater , vol.813-814 , pp. 776-781
    • Selvaraj, J.1    Thenarasu, M.2    Aravind, S.3    Ashok, P.4
  • 18
    • 84979011427 scopus 로고    scopus 로고
    • Application of thermal energy storage to process and waste heat recovery in the iron and steel industry; 1978.
    • [18] Katter LB, Peterson DJ. Application of thermal energy storage to process and waste heat recovery in the iron and steel industry; 1978.
    • Katter, L.B.1    Peterson, D.J.2
  • 19
    • 84979011436 scopus 로고    scopus 로고
    • Feasibility of waste heat recovery from molten slag. In: China-Japan international academic symposium environmental problem in Chinese iron-steelmaking industries and effective technology transfer; 2000.
    • [19] Akiyama T, Shimada T, Kasai E, Yagi J. Feasibility of waste heat recovery from molten slag. In: China-Japan international academic symposium environmental problem in Chinese iron-steelmaking industries and effective technology transfer; 2000.
    • Akiyama, T.1    Shimada, T.2    Kasai, E.3    Yagi, J.4
  • 20
    • 0000507054 scopus 로고    scopus 로고
    • Development of PCM for recovering high temperature waste heat and utilization for producing hydrogen by reforming reaction of methane
    • [20] Maruoka, N., Sato, K., Yagi, J., Akiyama, T., Development of PCM for recovering high temperature waste heat and utilization for producing hydrogen by reforming reaction of methane. ISIJ Int 42 (2002), 215–219.
    • (2002) ISIJ Int , vol.42 , pp. 215-219
    • Maruoka, N.1    Sato, K.2    Yagi, J.3    Akiyama, T.4
  • 21
    • 33646090609 scopus 로고    scopus 로고
    • Exergy recovery from steelmaking off-gas by latent heat storage for methanol production
    • [21] Maruoka, N., Akiyama, T., Exergy recovery from steelmaking off-gas by latent heat storage for methanol production. Energy 31 (2006), 1632–1642.
    • (2006) Energy , vol.31 , pp. 1632-1642
    • Maruoka, N.1    Akiyama, T.2
  • 22
    • 63649137501 scopus 로고    scopus 로고
    • How to recuperate industrial waste heat beyond time and space
    • [22] Zhang, L., Akiyama, T., How to recuperate industrial waste heat beyond time and space. Int J Exergy 6 (2009), 214–227.
    • (2009) Int J Exergy , vol.6 , pp. 214-227
    • Zhang, L.1    Akiyama, T.2
  • 23
    • 84875017734 scopus 로고    scopus 로고
    • Heat exchangers and thermal energy storage concepts for the off-gas heat of steelmaking devices
    • [23] Steinparzer, T., Haider, M., Fleischanderl, A., Hampel, A., Enickl, G., Zauner, F., Heat exchangers and thermal energy storage concepts for the off-gas heat of steelmaking devices. J Phys Conf Ser, 395, 2012, 012158.
    • (2012) J Phys Conf Ser , vol.395 , pp. 012158
    • Steinparzer, T.1    Haider, M.2    Fleischanderl, A.3    Hampel, A.4    Enickl, G.5    Zauner, F.6
  • 24
    • 84979059041 scopus 로고    scopus 로고
    • Siemens Press. Industry Sector Metals Technologies; 2012.
    • [24] Siemens Press. Industry Sector Metals Technologies; 2012.
  • 25
    • 84979046565 scopus 로고    scopus 로고
    • Sustainable steel city: heat storage and industrial heat recovery for a district heating network. In: The 14th international symposium on district heating and cooling; 2014.
    • [25] Raine R, Sharifi V, Swithenbank J, Hinchcliffe V, Segrott A. Sustainable steel city: heat storage and industrial heat recovery for a district heating network. In: The 14th international symposium on district heating and cooling; 2014.
    • Raine, R.1    Sharifi, V.2    Swithenbank, J.3    Hinchcliffe, V.4    Segrott, A.5
  • 26
    • 81155159775 scopus 로고    scopus 로고
    • Energy recovery from high temperature slags
    • [26] Barati, M., Esfahani, S., Utigard, T.A., Energy recovery from high temperature slags. Energy 36 (2011), 5440–5449.
    • (2011) Energy , vol.36 , pp. 5440-5449
    • Barati, M.1    Esfahani, S.2    Utigard, T.A.3
  • 27
    • 84979046569 scopus 로고    scopus 로고
    • 2 emissions in the European non-metallic mineral industry. Energy; 2016 [submitted for publication].
    • 2 emissions in the European non-metallic mineral industry. Energy; 2016 [submitted for publication].
    • Miro, L.1    McKenna, R.2    Jaeger, T.3    Cabeza, L.F.4
  • 28
    • 84978995337 scopus 로고    scopus 로고
    • European Commission. Best available techniques Reference document (BREFs). <> [accessed 13.05.16].
    • [28] European Commission. Best available techniques Reference document (BREFs). < http://eippcb.jrc.ec.europa.eu/reference/> [accessed 13.05.16].
  • 30
    • 84979044239 scopus 로고    scopus 로고
    • EnergieSpeicher. Waste heat used for production of precast concrete. <> [accessed 10.03.16].
    • [30] EnergieSpeicher. Waste heat used for production of precast concrete. < http://forschung-energiespeicher.info> [accessed 10.03.16].
  • 31
    • 84978942319 scopus 로고    scopus 로고
    • Heat storage systems for use in an industrial batch process. In: The tenth international conference on thermal energy storage, Ecostock; 2006.
    • [31] De Boer R, Smeding SF, Bach PW. Heat storage systems for use in an industrial batch process. In: The tenth international conference on thermal energy storage, Ecostock; 2006.
    • De Boer, R.1    Smeding, S.F.2    Bach, P.W.3
  • 32
    • 84936114583 scopus 로고    scopus 로고
    • Design and analysis of heat recovery system in bioprocess plant
    • [32] Anastasovski, A., Raskovic, P., Guzovic, Z., Design and analysis of heat recovery system in bioprocess plant. Energy Convers Manage 104 (2015), 32–43.
    • (2015) Energy Convers Manage , vol.104 , pp. 32-43
    • Anastasovski, A.1    Raskovic, P.2    Guzovic, Z.3
  • 33
    • 84979065724 scopus 로고    scopus 로고
    • Applications of thermal energy storage to process heat storage and recovery in the paper and pulp industry; 1978.
    • [33] Carr JH, Hurley PJ, Martin PJ. Applications of thermal energy storage to process heat storage and recovery in the paper and pulp industry; 1978.
    • Carr, J.H.1    Hurley, P.J.2    Martin, P.J.3
  • 35
    • 84978942280 scopus 로고    scopus 로고
    • Waste heat recovery in the food processing industry. <> [accessed 13.05.16].
    • [35] Lundberg WL, Christenson JA, Wojnar F. Waste heat recovery in the food processing industry. < http://infohouse.p2ric.org/ref/13/12915.pdf> [accessed 13.05.16].
    • Lundberg, W.L.1    Christenson, J.A.2    Wojnar, F.3
  • 36
    • 84960865484 scopus 로고    scopus 로고
    • Performance assessment of a multi-energy system for a food industry
    • [36] Biglia, A., Fabrizio, E., Ferrara, M., Gay, P., Aimonino, D.R., Performance assessment of a multi-energy system for a food industry. Energy Proc 82 (2015), 540–545.
    • (2015) Energy Proc , vol.82 , pp. 540-545
    • Biglia, A.1    Fabrizio, E.2    Ferrara, M.3    Gay, P.4    Aimonino, D.R.5
  • 37
    • 34548289896 scopus 로고    scopus 로고
    • Heat recovery in industrial refrigeration
    • [37] Reindl, D.T., Jekel, T.B., Heat recovery in industrial refrigeration. ASHRAE J, 2007.
    • (2007) ASHRAE J
    • Reindl, D.T.1    Jekel, T.B.2
  • 38
    • 84979059076 scopus 로고    scopus 로고
    • District GeoExchange Systems and waste heat recovery. In: ASHRAE – cold climates conference; 2012.
    • [38] Lohrenz E. District GeoExchange Systems and waste heat recovery. In: ASHRAE – cold climates conference; 2012.
    • Lohrenz, E.1
  • 39
    • 77957293244 scopus 로고    scopus 로고
    • Experimental investigation on heat recovery from diesel engine exhaust using finned shell and tube heat exchanger and thermal storage system
    • [39] Pandiyarajan, V., Pandian, M.C., Malan, E., Velraj, R., Seeniraj, R.V., Experimental investigation on heat recovery from diesel engine exhaust using finned shell and tube heat exchanger and thermal storage system. Appl Energy 88 (2011), 77–87.
    • (2011) Appl Energy , vol.88 , pp. 77-87
    • Pandiyarajan, V.1    Pandian, M.C.2    Malan, E.3    Velraj, R.4    Seeniraj, R.V.5
  • 40
    • 80052732202 scopus 로고    scopus 로고
    • Second law analysis of a diesel engine waste heat recovery with a combined sensible and latent heat storage system
    • [40] Pandiyarajan, V., Chinnappandian, M., Raghavan, V., Velraj, R., Second law analysis of a diesel engine waste heat recovery with a combined sensible and latent heat storage system. Energy Policy 39 (2011), 6011–6020.
    • (2011) Energy Policy , vol.39 , pp. 6011-6020
    • Pandiyarajan, V.1    Chinnappandian, M.2    Raghavan, V.3    Velraj, R.4
  • 41
    • 84979059018 scopus 로고    scopus 로고
    • Experimental investigation of heat recovery from diesel engine exhaust using compact heat exchanger and thermal storage using phase change material. In: International conference on innovations in engineering and technology; 2014.
    • [41] Raja SP, Rajavel R, Navaneethakrishnan D. Experimental investigation of heat recovery from diesel engine exhaust using compact heat exchanger and thermal storage using phase change material. In: International conference on innovations in engineering and technology; 2014.
    • Raja, S.P.1    Rajavel, R.2    Navaneethakrishnan, D.3
  • 43
    • 84941349115 scopus 로고    scopus 로고
    • A study of waste heat recovery from diesel engine exhaust using phase change material
    • [43] Prabu, S.S., Asokan, M.A., A study of waste heat recovery from diesel engine exhaust using phase change material. Int J Chem Tech Res 8 (2015), 711–717.
    • (2015) Int J Chem Tech Res , vol.8 , pp. 711-717
    • Prabu, S.S.1    Asokan, M.A.2
  • 44
    • 77953006092 scopus 로고    scopus 로고
    • Thermodynamic analysis of a diesel engine integrated with a PCM based energy storage system
    • [44] Gopal, K.N., Subbarao, R., Pandiyarajan, V., Velraj, R., Thermodynamic analysis of a diesel engine integrated with a PCM based energy storage system. Int J Thermodyn 13 (2010), 15–21.
    • (2010) Int J Thermodyn , vol.13 , pp. 15-21
    • Gopal, K.N.1    Subbarao, R.2    Pandiyarajan, V.3    Velraj, R.4
  • 45
    • 76649118431 scopus 로고    scopus 로고
    • Temperature optimisation of a diesel engine using exhaust gas heat recovery and thermal energy storage (diesel engine with thermal energy storage)
    • [45] Kauranen, P., Elonen, T., Wikström, L., Heikkinen, J., Laurikko, J., Temperature optimisation of a diesel engine using exhaust gas heat recovery and thermal energy storage (diesel engine with thermal energy storage). Appl Therm Eng, 2010, 631–638.
    • (2010) Appl Therm Eng , pp. 631-638
    • Kauranen, P.1    Elonen, T.2    Wikström, L.3    Heikkinen, J.4    Laurikko, J.5
  • 46
    • 84883416568 scopus 로고    scopus 로고
    • Improved heat storage rate for an automobile coolant waste heat recovery system using phase-change material in a fin–tube heat exchanger
    • [46] Shon, J., Kim, H., Lee, K., Improved heat storage rate for an automobile coolant waste heat recovery system using phase-change material in a fin–tube heat exchanger. Appl Energy 113 (2014), 680–689.
    • (2014) Appl Energy , vol.113 , pp. 680-689
    • Shon, J.1    Kim, H.2    Lee, K.3
  • 47
    • 84947087807 scopus 로고    scopus 로고
    • A preliminary study on the application of thermal storage to merchant ships
    • [47] Baldi, F., Gabrielli, C., Melino, F., Bianchi, M., A preliminary study on the application of thermal storage to merchant ships. Energ Proc 75 (2015), 2169–2174.
    • (2015) Energ Proc , vol.75 , pp. 2169-2174
    • Baldi, F.1    Gabrielli, C.2    Melino, F.3    Bianchi, M.4
  • 48
    • 84960954216 scopus 로고    scopus 로고
    • Integrating compressed air energy storage with a diesel engine for electricity generation in isolated areas
    • [48] Li, Y., Sciacovelli, A., Peng, X., Radcliffe, J., Ding, Y., Integrating compressed air energy storage with a diesel engine for electricity generation in isolated areas. Appl Energy 171 (2016), 26–36.
    • (2016) Appl Energy , vol.171 , pp. 26-36
    • Li, Y.1    Sciacovelli, A.2    Peng, X.3    Radcliffe, J.4    Ding, Y.5
  • 49
    • 84932617182 scopus 로고    scopus 로고
    • Development of a desalination system driven by solar energy and low grade waste heat
    • [49] Elminshawy, N.A.S., Siddiqui, F.R., Sultan, G.I., Development of a desalination system driven by solar energy and low grade waste heat. Energy Convers Manage 103 (2015), 28–35.
    • (2015) Energy Convers Manage , vol.103 , pp. 28-35
    • Elminshawy, N.A.S.1    Siddiqui, F.R.2    Sultan, G.I.3
  • 50
    • 84979065720 scopus 로고    scopus 로고
    • US Environmental Protection Agency. <> [accessed 13.05.16].
    • [50] US Environmental Protection Agency. < http://www3.epa.gov/> [accessed 13.05.16].
  • 51
    • 84978153564 scopus 로고    scopus 로고
    • Thermal energy storage technologies
    • The University of Sheffield
    • [51] Chan, C.W., Russel, N., Thermal energy storage technologies. 2011, The University of Sheffield.
    • (2011)
    • Chan, C.W.1    Russel, N.2
  • 52
    • 84978172967 scopus 로고    scopus 로고
    • Large-scale thermal energy storage. WinterCities’2000
    • [52] Nordell, B., Large-scale thermal energy storage. WinterCities’2000. Energy Environ, 2000.
    • (2000) Energy Environ
    • Nordell, B.1
  • 53
    • 84978995562 scopus 로고    scopus 로고
    • Energy Storage Association. <> [accessed 13.05.16].
    • [53] Energy Storage Association. < http://energystorage.org/compressed-air-energy-storage-caes> [accessed 13.05.16].
  • 54
    • 84864108156 scopus 로고    scopus 로고
    • The thermodynamic effect of thermal energy storage on compressed air energy storage system
    • [54] Zhang, Y., Yang, K., Li, X., Xu, J., The thermodynamic effect of thermal energy storage on compressed air energy storage system. Renew Energy 50 (2013), 227–235.
    • (2013) Renew Energy , vol.50 , pp. 227-235
    • Zhang, Y.1    Yang, K.2    Li, X.3    Xu, J.4
  • 55
    • 84888139865 scopus 로고    scopus 로고
    • Compressed air energy storage with waste heat export: an Alberta case study
    • [55] Safei, H., Keith, D.W., Compressed air energy storage with waste heat export: an Alberta case study. Energy Convers Manage 78 (2014), 114–124.
    • (2014) Energy Convers Manage , vol.78 , pp. 114-124
    • Safei, H.1    Keith, D.W.2
  • 56
    • 84912085336 scopus 로고    scopus 로고
    • Energy storage for desalination processes powered by renewable energy and waste heat sources
    • [56] Gude, V.G., Energy storage for desalination processes powered by renewable energy and waste heat sources. Appl Energy 137 (2015), 877–898.
    • (2015) Appl Energy , vol.137 , pp. 877-898
    • Gude, V.G.1
  • 57
    • 84884206150 scopus 로고    scopus 로고
    • Numerical simulation study on optimizing charging process of the direct contact mobilized thermal energy storage
    • [57] Guo, S., Li, H., Zhao, J., Li, X., Yan, J., Numerical simulation study on optimizing charging process of the direct contact mobilized thermal energy storage. Appl Energy 112 (2013), 1416–1423.
    • (2013) Appl Energy , vol.112 , pp. 1416-1423
    • Guo, S.1    Li, H.2    Zhao, J.3    Li, X.4    Yan, J.5
  • 58
    • 84978172971 scopus 로고    scopus 로고
    • IEA ECES Annex 18 Final report: transportation of energy by utilization of thermal energy storage technology
    • [accessed 13.05.16]
    • [58] Hauer, A., Gschwander, S., Kato, Y., Martin, V., Schossig, P., Setterwall, F., IEA ECES Annex 18 Final report: transportation of energy by utilization of thermal energy storage technology. , 2010 [accessed 13.05.16].
    • (2010)
    • Hauer, A.1    Gschwander, S.2    Kato, Y.3    Martin, V.4    Schossig, P.5    Setterwall, F.6
  • 59
    • 84942086233 scopus 로고    scopus 로고
    • Thermal energy storage systems for district heating and cooling. In: Cabeza LF, editor. Advances in thermal energy storage systems: methods and applications. Woodhead Publishing. p. 467–478.
    • [59] Gadd H, Werner S. Thermal energy storage systems for district heating and cooling. In: Cabeza LF, editor. Advances in thermal energy storage systems: methods and applications. Woodhead Publishing. p. 467–478.
    • Gadd, H.1    Werner, S.2
  • 60
    • 84946490555 scopus 로고    scopus 로고
    • A hybrid optimization model of biomass trigeneration system combined with pit thermal energy storage
    • [60] Dominkovic, D.F., Cosic, B., Medic, Z.B., Duic, N., A hybrid optimization model of biomass trigeneration system combined with pit thermal energy storage. Energy Convers Manage 104 (2015), 90–99.
    • (2015) Energy Convers Manage , vol.104 , pp. 90-99
    • Dominkovic, D.F.1    Cosic, B.2    Medic, Z.B.3    Duic, N.4
  • 61
    • 84979011457 scopus 로고    scopus 로고
    • Svensk Fjärrvärme. Transport av industriell överskottsvärme; 2009.
    • [61] Svensk Fjärrvärme. Transport av industriell överskottsvärme; 2009.
  • 62
    • 84979011458 scopus 로고    scopus 로고
    • Cost-effectiveness of a heat energy distribution system based on mobile storage units: two case studies. In: Ecostock conference; 2006.
    • [62] Storch G, Hauer A. Cost-effectiveness of a heat energy distribution system based on mobile storage units: two case studies. In: Ecostock conference; 2006.
    • Storch, G.1    Hauer, A.2
  • 63
    • 84870870350 scopus 로고    scopus 로고
    • Economic assessment of the mobilized thermal energy storage (M-TES) system for distributed heat supply
    • [63] Li, H., Wang, W., Yan, J., Dahlquist, E., Economic assessment of the mobilized thermal energy storage (M-TES) system for distributed heat supply. Appl Energy 104 (2013), 178–186.
    • (2013) Appl Energy , vol.104 , pp. 178-186
    • Li, H.1    Wang, W.2    Yan, J.3    Dahlquist, E.4
  • 64
    • 84894197470 scopus 로고    scopus 로고
    • Economic efficiency of mobile latent heat storages
    • [64] Deckert, M., Scholz, R., Binder, S., Hornung, A., Economic efficiency of mobile latent heat storages. Energy Proc 46 (2014), 171–177.
    • (2014) Energy Proc , vol.46 , pp. 171-177
    • Deckert, M.1    Scholz, R.2    Binder, S.3    Hornung, A.4
  • 66
    • 84979059060 scopus 로고    scopus 로고
    • Non-conduit heat distribution using waste heat from a sewage sludge incinerator. In: Proceedings of the water environment federation; 2007.
    • [66] Yabuki Y, Nagumo T. Non-conduit heat distribution using waste heat from a sewage sludge incinerator. In: Proceedings of the water environment federation; 2007.
    • Yabuki, Y.1    Nagumo, T.2
  • 67
    • 43049147308 scopus 로고    scopus 로고
    • Thermal and flow behaviors in heat transportation container using phase change material
    • [67] Kaizawa, A., Kamano, H., Kawai, A., Jozuka, T., Senda, T., Maruoka, N., et al. Thermal and flow behaviors in heat transportation container using phase change material. Energy Convers Manage 49 (2008), 698–706.
    • (2008) Energy Convers Manage , vol.49 , pp. 698-706
    • Kaizawa, A.1    Kamano, H.2    Kawai, A.3    Jozuka, T.4    Senda, T.5    Maruoka, N.6
  • 68
    • 46749136097 scopus 로고    scopus 로고
    • Technical feasibility study of waste heat transportation system using phase change material from industry to city
    • [68] Kaizawa, A., Kamano, H., Kawai, A., Jozuka, T., Senda, T., Maruoka, N., et al. Technical feasibility study of waste heat transportation system using phase change material from industry to city. ISIJ Int 48 (2008), 540–548.
    • (2008) ISIJ Int , vol.48 , pp. 540-548
    • Kaizawa, A.1    Kamano, H.2    Kawai, A.3    Jozuka, T.4    Senda, T.5    Maruoka, N.6
  • 69
    • 78649373238 scopus 로고    scopus 로고
    • Feasibility of an advanced waste heat transportation system using high-temperature phase change material (PCM)
    • [69] Nomura, T., Oya, T., Okinaka, N., Akiyama, T., Feasibility of an advanced waste heat transportation system using high-temperature phase change material (PCM). ISIJ Int 50 (2010), 1326–1332.
    • (2010) ISIJ Int , vol.50 , pp. 1326-1332
    • Nomura, T.1    Oya, T.2    Okinaka, N.3    Akiyama, T.4
  • 70
    • 77955308903 scopus 로고    scopus 로고
    • Waste heat transportation system, using phase change material (PCM) from steelworks to chemical plant
    • [70] Nomura, T., Okinaka, N., Akiyama, T., Waste heat transportation system, using phase change material (PCM) from steelworks to chemical plant. Resour Conserv Recyc 54 (2010), 1000–1006.
    • (2010) Resour Conserv Recyc , vol.54 , pp. 1000-1006
    • Nomura, T.1    Okinaka, N.2    Akiyama, T.3
  • 71
    • 84979037444 scopus 로고    scopus 로고
    • Industrial surplus heat utilization through mobile thermal energy storage with enhanced operating strategy. In: Greenstock the 13th international conference on energy storage; 2015.
    • [71] Chiu JN, Meany BH, Martin V. Industrial surplus heat utilization through mobile thermal energy storage with enhanced operating strategy. In: Greenstock the 13th international conference on energy storage; 2015.
    • Chiu, J.N.1    Meany, B.H.2    Martin, V.3
  • 72
    • 84884208146 scopus 로고    scopus 로고
    • Mobilized thermal energy storage for heat recovery for distributed heating
    • Mälardalen University Press Dissertations No. 92
    • [72] Wang, W., Mobilized thermal energy storage for heat recovery for distributed heating. 2010, Mälardalen University Press Dissertations No. 92.
    • (2010)
    • Wang, W.1
  • 73
    • 84893010381 scopus 로고    scopus 로고
    • Experimental study on the direct/indirect contact energy storage container in mobilized thermal energy system (M-TES)
    • [73] Wang, W., Guo, S., Li, H., Yan, J., Zhao, J., Li, X., et al. Experimental study on the direct/indirect contact energy storage container in mobilized thermal energy system (M-TES). Appl Energy 119 (2014), 181–189.
    • (2014) Appl Energy , vol.119 , pp. 181-189
    • Wang, W.1    Guo, S.2    Li, H.3    Yan, J.4    Zhao, J.5    Li, X.6
  • 74
    • 84922256370 scopus 로고    scopus 로고
    • Experimental study on solving the blocking for the direct contact mobilized thermal energy storage container
    • [74] Guo, S., Zhao, J., Wang, W., Jin, G., Wang, X., An, Q., et al. Experimental study on solving the blocking for the direct contact mobilized thermal energy storage container. Appl Therm Eng 78 (2015), 556–564.
    • (2015) Appl Therm Eng , vol.78 , pp. 556-564
    • Guo, S.1    Zhao, J.2    Wang, W.3    Jin, G.4    Wang, X.5    An, Q.6
  • 75
    • 84979037449 scopus 로고    scopus 로고
    • Fraunhofer Umsicht. Mobile latent heat storage unit, efficient use of waste heat. <> [accessed 13.05.16].
    • [75] Fraunhofer Umsicht. Mobile latent heat storage unit, efficient use of waste heat. < http://www.umsicht-suro.fraunhofer.de/content/dam/umsicht-suro/en/documents/produktblaetter_englisch/mobile_latent_heat_storage_unit.pdf> [accessed 13.05.16].
  • 76
    • 84948460367 scopus 로고    scopus 로고
    • Mobile sorption heat storage in industrial waste heat recovery
    • [76] Kroenauer, A., Laevemann, E., Brueckner, S., Hauer, A., Mobile sorption heat storage in industrial waste heat recovery. Energy Proc 73 (2015), 272–280.
    • (2015) Energy Proc , vol.73 , pp. 272-280
    • Kroenauer, A.1    Laevemann, E.2    Brueckner, S.3    Hauer, A.4
  • 77
    • 84978942345 scopus 로고    scopus 로고
    • Mobile sorption heat storage in industrial waste heat recovery. In: Greenstock the 13th international conference on energy storage; 2015.
    • [77] Kroenauer A, Laevemann E, Hauer A. Mobile sorption heat storage in industrial waste heat recovery. In: Greenstock the 13th international conference on energy storage; 2015.
    • Kroenauer, A.1    Laevemann, E.2    Hauer, A.3
  • 78
    • 84978929002 scopus 로고    scopus 로고
    • EnergieSpeicher. New economical phase change material. <> [accessed 13.05.16].
    • [78] EnergieSpeicher. New economical phase change material. < http://forschung-energiespeicher.info/en/projektschau/gesamtliste/projekt-einzelansicht//Wirtschaftlicher_dank_neuem_Phasenwechselmaterial/> [accessed 13.05.16].
  • 79
    • 84978973853 scopus 로고    scopus 로고
    • Hangzhou Phase Change Technology Co., Ltd. PCM based mobile heat storage truck. <> [accessed 13.05.16].
    • [79] Hangzhou Phase Change Technology Co., Ltd. PCM based mobile heat storage truck. < http://www.feijiepcm.com/en/product/html/?28.html> [accessed 13.05.16].
  • 80
    • 84979037440 scopus 로고    scopus 로고
    • Energie Systeme der Zukunft. Heat in containers. <> [accessed 13.05.16].
    • [80] Energie Systeme der Zukunft. Heat in containers. < http://www.energiesystemederzukunft.at/results.html/id4312> [accessed 13.05.16].
  • 81
    • 78649903139 scopus 로고    scopus 로고
    • Combined heat and power plant integrated with mobilized thermal energy storage (M-TES) system
    • [81] Wang, W., Hu, Y., Yan, J., Nystroem, J., Dahlquist, E., Combined heat and power plant integrated with mobilized thermal energy storage (M-TES) system. Front Energy Power Eng 4 (2010), 469–474.
    • (2010) Front Energy Power Eng , vol.4 , pp. 469-474
    • Wang, W.1    Hu, Y.2    Yan, J.3    Nystroem, J.4    Dahlquist, E.5
  • 82
    • 84919662646 scopus 로고    scopus 로고
    • Technology Roadmap: energy storage
    • [accessed 13.05.16]
    • [82] International Energy Agency, Technology Roadmap: energy storage. , 2014 [accessed 13.05.16].
    • (2014)
    • International Energy Agency1
  • 83
    • 84959431876 scopus 로고    scopus 로고
    • Methodologies to estimate industrial waste heat potential by transferring key figures: a case study for Spain
    • [83] Miró, L., Brueckner, S., McKenna, R., Cabeza, L.F., Methodologies to estimate industrial waste heat potential by transferring key figures: a case study for Spain. Appl Energy 169 (2016), 866–873.
    • (2016) Appl Energy , vol.169 , pp. 866-873
    • Miró, L.1    Brueckner, S.2    McKenna, R.3    Cabeza, L.F.4


* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.