PAPERmaking! Vol7 Nr3 2021

Processes 2021 , 9 , 1707

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References 1.

United Nations Climate Change Conferences, 2018. Framework of the United Nations Framework Convection on Climate Change (UNFCCC), Yearly Formal Meeting of the UNFCCC Parties (Conference of Parties, COP Series). April 2018. Available online: www.unfccc.int/topics/education-and-outreach/resources/documents-0 (accessed on 1 March 2019). 2. European Commission. European Commission, Energy, Climate Change, Environment; Climate Action, Climate Change. April 2018. Available online: www.ec.europa.eu/clima/change/causes_en (accessed on 12 October 2018). 3. Ha, W.; Ha, J.; Roh, Y.; Lee, Y. Improvement of Radiant Heat Efficiency of the Radiant Tube Used for Continuous Annealing Line by Application of Additive Manufacturing Technology. Appl. Sci. 2020 , 10 , 8132. [CrossRef] 4. Warguła, Ł.; Krawiec, P.; Walus´, K.J.; Kukla, M. Fuel Consumption Test Results for a Self-Adaptive, Maintenance-Free Wood Chipper Drive Control System. Appl. Sci. 2020 , 10 , 2727. [CrossRef] 5. Wojtkowiak, D.; Talas´ka, K. Determination of the effective geometrical features of the piercing punch for polymer composite belts. Int. J. Adv. Manuf. Technol. 2019 , 104 , 315–332. [CrossRef] 6. Alsyouf, I. Maintenance practices in Swedish industries: Survey results. Int. J. Prod. Econ. 2009 , 121 , 212–223. [CrossRef] 7. Chand, G.; Shirvani, B. Implementing of TPM in cellular manufacture. J. Mater. Process. Technol. 2000 , 103 , 149–154. [CrossRef] 8. Á lvarez Laverde, H. Aspectos intangibles del TPM. Apsoluti Technol. 2009 , 2009 , 1–5. 9. Domingo, R.; Aguado, S. Overall Environmental Equipment Effectiveness as a metric of a Lean and Green Manufacturing System. Sustainability 2015 , 7 , 9031–9047. [CrossRef] 10. Licursi, D.; Antonetti, C.; Martinelli, M.; Ribechini, E.; Zanaboni, M.; Raspolli-Galletti, A.M. Monitoring/characterization of stickies contaminants coming from a papermaking plant—Toward an innovative exploitation of the screen rejects to levulinic acid. Waste Manag. 2016 , 49 , 469–482. [CrossRef] [PubMed] 11. Szpica, D. Fuel dosage irregularity of LPG pulse vapor injectors at different stages of wear. Mechanics 2016 , 22 , 44–50. [CrossRef] 12. Bad í a, F.G.; Berrade, M.D.; Cha, J.H.; Lee, H. Optimal replacement policy under a general failure and repair model: Minimal versus worse than old repair. Reliab. Eng. Syst. Saf. 2018 , 180 , 362–372. [CrossRef] 13. CEPI. Confederation of European Paper Industries. Sustainability Report 2013. 2013. Available online: www.cepi.org/node/16892. (accessed on 12 May 2016). 14. ASPAPEL. Pulp and Paper Sector’s Sustainability Report of Spanish Association of Pulp, Paper and Board Manufacturers (Asociaci ó n Española de Fabricantes de Pasta, Papel y Cart ó n). 2019. Available online: http://www.aspapel.es/en/content/ update-2019-paper-sustainability-report-spanish-only (accessed on 16 December 2020). 15. Intergovernmental Panel on Climate Change. 2019 Refinement to the 2006 IPCC Guidelines for National Greenhouse Gas Inventories. 2020. Available online: https://www.ipcc.ch/working-group/tfi/ (accessed on 16 December 2020). 16. Austin, P. Reducing Energy Consumption in Papermaking Using Advanced Process Control. In Proceedings of the 64th Appita Annual Conference and Exhibition, Melbourne, Australia, 18–21 April 2010; Conference Technical Papers. Appita Inc.: Carlton, Australia, 2010; pp. 323–329, ISBN 9780975746987. 17. Virtanen, E.; Haverin, T.; Mynttinen, S. Energy efficiency, operability and cleanliness: Keys to Productivity in the drying section (Eficiencia energ é tica, operatividad y limpieza: Claves para la productividad en la sequer í a). Rev. T é cnica El Pap. 2010 , 156 , 30–35. 18. Siitonen, S.; Tuomaala, M.; Suomunen, M.; Ahtila, P. Variables affecting energy efficiency and CO 2 emissions in steel industry. Energy Policy 2009 , 38 , 2477–2485. [CrossRef] 19. Moya, J.A.; Pardo, N. The potential for improvements in energy efficiency and CO 2 emissions in the EU27 iron and steel industry under different payback periods. J. Clean. Prod. 2013 , 52 , 71–83. [CrossRef] 20. Stenstrom, S. Drying of paper: A review 2000–2018. Dry. Technol. 2020 , 38 , 825–845. [CrossRef] 21. Calvo, L.M.; Domingo, R. A first approach to the use of CO 2 emissions as a maintenance indicator in industrial plants. Procedia Eng. 2013 , 63 , 678–686. [CrossRef] 22. Siitonen, S.; Ahtila, P. The influence of operational flexibility on the exploitation of CO 2 reduction potential in industrial energy production. J. Clean. Prod. 2010 , 18 , 867–874. [CrossRef] 23. ECOFYS. Methodology for the Free Allocation of Emission Allowances in the EU ETS Post 2012. November 2009. Available online: www.ecofys.com/files/files/091102_pulpandpaper.pdf. (accessed on 16 December 2020). 24. European Commission. Determining Revised Benchmark Values for Free Allocation of Emission Allowances for the Period from 2021 to 2025 Pursuant to Article 10a(2) of Directive 2003/87/EC of the European Parliament and of the Council. 2020. Available online: https://ec.europa.eu/clima/news/draft-implementing-regulation-determining-revised-benchmark-values-period-20 21-2025-open-4-week_en (accessed on 16 December 2020). 25. European Commission. Post-2020 Carbon Leakage Provisions. 2020. Available online: https://ec.europa.eu/clima/policies/ets/ allowances/leakage_en#tab-0-1 (accessed on 16 December 2020). 26. Aguado, S.; Alvarez, R.; Domingo, R. Model of efficient and sustainable improvements in a lean production system through processes of environmental innovation. J. Clean. Prod. 2013 , 47 , 141–148. [CrossRef] 27. Calvo, L.M.; Domingo, R. Influence of process operating parameters on CO 2 emissions in continuous industrial plants. J. Clean. Prod. 2015 , 96 , 253–262. [CrossRef] 28. DelR í oGonz á lez, P. Analysing the factors influencing clean technology adoption: A study of the Spanish pulp and paper industry. Bus. Strateg. Environ. 2005 , 14 , 20–37. [CrossRef]

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