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Energies 2020, 13, 6096 20 of 24 80. Wang, C.; He, B.; Sun, S.; Wu, Y.; Na, Y.; Yan, L.; Pei, X. Application of a low-pressure economizer for waste heat recovery from the exhaust flue gas in a 600 MW power plant. Energy 2012, 48, 196–202. [CrossRef] 81. U.S. Department of Energy. An Overview of Industrial Waste Heat Recovery Technologies for Moderate Temperatures Less Than 1000 oF. 2013. Available online: http://www.northwestchptap.org/NwChpDocs/ AnOverviewOfIndustrialWasteHeatRecoveryTechForModerateTemps.pdf (accessed on 28 August 2019). 82. Podbregar, G.; Strmcˇnik, B.; Dodig, V.; Lagler, B.; Žertek, A.; Haddad, C. Waste Heat. Heat to Electricity Techniques. 2019. Available online: https://www.spire2030.eu/sites/default/files/users/user222/epos% 20technology%20focus%2011.pdf (accessed on 28 August 2019). 83. Dou, Y.; Fujii, M.; Fujita, T.; Gomi, K.; Maki, S.; Tanikawa, H. Potential of Waste Heat Exchange Considering Industrial Location Changes: A Case of Shinchi-Soma Region in Fukushima, Japan. J. Jpn. Soc. Civ. Eng. Ser. G. Environ. Res. 2017, 73, 353–363. [CrossRef] 84. Hammond, G.P.; Norman, J.B. Heat recovery opportunities in UK industry. Appl. Energy 2014, 116, 387–397. [CrossRef] 85. Ma, Q.; Luo, L.; Wang, R.Z.; Sauce, G. A review on transportation of heat energy over long distance: Exploratory development. Renew. Sustain. Energy Rev. 2009, 13, 1532–1540. [CrossRef] 86. Economic and Social Added-Value in Energy SYMBIOSis of Waste Heat Valorisation in Industrial Surroundings (SYMBIOS). 2019. Available online: https://agenciaeconomica.amb.cat/en/economia-circular/ detall/-/contactes/economic-and-social-added-value-in-energy-symbiosis-of-waste-heat-valorisation/ 7688421/11708 (accessed on 3 July 2020). 87. INCUBIS: An Energy Symbiosis Incubator for Supporting Waste Heat & Cold Valorization in Industrial Parks, Zones and Districts. 2020. Available online: http://www.incub-is.eu/ (accessed on 3 July 2020). 88. EPOS: Enhanced Energy and Resource Efficiency and Performance in Process Industry Operations Via Onsite and Cross-Sectorial Symbiosis. Available online: https://www.spire2030.eu/projects/outputs/epos- technology-focus-waste-heat (accessed on 3 July 2020). 89. Quintana, J.B.; Sockeel, C.X.; Bredimas, A. SCALER Synergies Socio-Economic Impact Assessment. Industrial Symbiosis Potential and Impacts. 2019. Available online: https://www.scalerproject.eu/wp-content/uploads/ 2019/10/Synergies-socio-economic-impact-assessment-SCALER-D3.4.pdf (accessed on 3 July 2020). 90. Bruckner, S.; Liu, S.; Laia, M.; Radspieler, M.; Cabeza, L.F.; Eberhead, L. Industrial waste heat recovery technologies: An economic analysis of heat transformation technologies. Appl. Energy 2015, 151, 157–167. [CrossRef] 91. Pressure casting spearheads sanitaryware automation. Ceram. Ind. Int. 1996, 18–21. 92. United Nations Framework Convention on Climate Change. Kyoto Protocol Reference Manual on Accounting of Emissions and Assigned Manuals. 2008. Available online: https://unfccc.int/resource/docs/publications/ 08_unfccc_kp_ref_manual.pdf (accessed on 3 July 2020). 93. Commission of the European Communities. Energy Saving Methods in the Ceramic Tiles Industry (Maxi-Brochure). Thermie 1998 Programme Action; Istituto Cooperativo per l’Innovazione for the European Commission, Directorate-General for Energy (DG XVII): Luxembourg, 1993. 94. Walchhuetter, U. Evolution in presses. Am. Ceram. Soc. Bull. 1995, 74, 65–68. 95. Strumiłło, C.; Jones, P.L.; Zyłła, R. Energy Aspects in Drying. In Handbook of Industrial Drying; Taylor & Francis Group: Abingdon, UK, 2014. 96. Ren, H. Industrial microwave drying makes the breakthrough Cfi/ber DKG. Cfi-Ceram. Forum Int. 1995, 72, 230–231. 97. Commission of the European Communities. Energy Saving in the Brick and Tile Industry Industry (Maxi-Brochure). Thermie Programme Action I 227; Istituto Cooperativo per l’Innovazione for the European Commission, Directorate-General for Energy (DG XVII): Luxembourg, 1998. 98. Nasetti, G. New technologies for the rational use of energy in the ceramics industry. Sprechsaal 1992, 125, 495–499. 99. Venmans, F. Triggers and barriers to energy efficiency measures in the ceramic, cement and lime sectors. J. Clean. Prod. 2014, 69, 133–142. [CrossRef] 100. Caglayan,H.;Caliskan,H.Thermo-ecologicalanalysisofindustrialkilns.J.Env.Manag.2019,241,149–155. [CrossRef]PDF Image | Ceramic Sector Focusing on Waste Heat Recovery
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