1 184

PAPERmaking! Vol7 Nr3 2021

Processes 2021 , 9 , 1707

19of 20

29. Decision 2010/2/UE, determining, pursuant to Directive 2003/87/EC of the European Parliament and of the Council, a list of sectors and subsectors which are deemed to be exposed to a significant risk of carbon leakage. Off. J. Eur. Union 2010 , 1 , 10–18. 30. Ghose, A.; Chinga-Carrasco, G. Environmental aspects of Norwegian production of pulp fibres and printing paper. J. Clean. Prod. 2013 , 57 , 293–301. [CrossRef] 31. Karlsson, M. Papermaking Part 2, Drying ; Papermaking Science and Technology Series; Finnish Paper Engineers Association; Tappi Press: Peachtree Corners, GA, USA, 2000; Volume 9, ISBN 952-5216-09-08. 32. Hostetler, R.E.; Pelletier, D.; Cloutie, C. Effect of drying conditions on the development of binder strength in double coated SBS paperboard. In Proceedings of the TAPPI Coating Conference, Las Vegas, NV, USA, 25–29 September 2005. 33. Laurijssen, J.; de Gream, F.J.; Worrel, E.; Faaij, A. Optimizing the energy efficiency of conventional multi-cylinder dryers in the paper industry. Energy 2010 , 35 , 3738–3750. [CrossRef] 34. Ruohonen, P.; Hippinen, I.; Tuomaala, M.; Ahtila, P. Analysis of alternative secondary heat uses to improve energy efficiency-case: A Finnish mechanical pulp and paper mill. Resour. Conserv. Recycl. 2010 , 54 , 326–335. [CrossRef] 35. Sivill, L.; Ahtila, P.; Taimisto, M. Thermodynamic simulation of dryer section heat recovery in paper machines. Appl. Therm. Eng. 2005 , 25 , 1273–1292. [CrossRef] 36. Sivill, L.; Ahtila, P. Energy efficiency improvement of dryer section heat recovery systems in paper machines—A case of study. Appl. Therm. Eng. 2009 , 29 , 3663–3668. [CrossRef] 37. Zvolinschi, A.; Johannessen, E.; Kjelstrup, S. The second-law optimal operation of a paper drying machine. Chem. Eng. Sci. 2005 , 61 , 3653–3662. [CrossRef] 38. Kong, L.; Hasanbeigi, A.; Price, L. Assessment of emerging energy-efficiency technologies for the pulp and paper industry: A technical review. J. Clean. Prod. 2016 , 122 , 5–28. [CrossRef] 39. Kong, L.; Hasanbeigi, A.; Price, L.; Huanbin, L. Energy conservation and CO 2 mitigation potentials in the Chinese pulp and paper industry. Resour. Conserv. Recycl. 2017 , 117 , 74–84. [CrossRef] 40. Calvo, L.M.; Domingo, R. CO 2 emissions reduction and energy efficiency improvements in paper making drying process control by sensors. Sustainability 2017 , 9 , 514. [CrossRef] 41. Silvo, K.; Jouttijärvi, T.; Melanen, M. Implications of regulation based on the IPPC directive—A review on the Finnish pulp and paper industry. J. Clean. Prod. 2009 , 17 , 713–723. [CrossRef] 42. Wang, Y.; Liu, J.; Hansson, L.; Zhang, K.; Wang, R. Implementing stricter environmental regulation to enhance eco-efficiency and sustainability: A case study of Shandong Province’s pulp and paper industry, China. J. Clean. Prod. 2011 , 19 , 303–310. [CrossRef] 43. Rodr í guez-Padial, N.; Mar í n, M.; Domingo, R. An approach to integrating tactical decision-making in industrial maintenance balance scorecards using principal components analysis and machine learning. Complexity 2017 , 2017 , 3759514. [CrossRef] 44. Nakajima, S. An Introduction to TPM ; Productivity Press: Cambridge, MA, USA, 1988. 45. European Commission, 2018b. European Commission, Energy, Climate Change, Environment, Climate Action, EU Action; EU Emissions Trading System (EU ETS). April 2018. Available online: https://ec.europa.eu/clima/policies/ets/registry_en#tab-0-1 (accessed on 16 December 2020). 46. Zhang, C.; Liu, C. The impact of ICT industry on CO 2 emissions: A regional analysis in China. Renew. Sustain. Energy Rev. 2015 , 44 , 12–19. [CrossRef] 47. Peng, L.; Zeng, X.; Wang, Y.; Hong, G. Analysis of energy efficiency and carbon dioxide reduction in the Chinese pulp and paper industry. Energy Policy 2015 , 80 , 65–75. [CrossRef] 48. IPCC. The Fifth Assessment Report. Intergovernmental Panel on Climate Change ; IPCC: Geneva, Switzerland, 2014. 49. Fidel, R. The case study method: A case study. Libr. Inf. Sci. Res. 1984 , 6 , 273–288. 50. Flyvbjerg, B. Five misunderstandings about case-study research. Qual. Inq. 2006 , 12 , 219–245. [CrossRef] 51. Maggard, M.; Bailey, L.; Moss, D. Total Productive Maintenance; TPM that works. In Proceedings of the Seventh IEEE/CHMT International Electronic Manufacturing Technology Symposium, San Francisco, CA, USA, 25–27 September 1989; pp. 13–17. [CrossRef] 52. ISO 536, 2012. Paper and Board—Determination of Grammage ; International Organization for Standardization: Geneva, Switzerland, 2012. 53. EN 12953, 2003. Shell Boilers—Part 10: Requirements for Feedwater and Boiler Water Quality ; European Committee for Standardization: Brussels, Belgium, 2003. 54. ECOFYS. European Commission—Climate Action. Methodological Guidelines. 2011. Available online: ec.europa.eu (accessed on 25 May 2021). 55. ECOFYS. European Commission. Benchmarks for Free Allocation. 2013. Available online: ec.europa.eu (accessed on 25 May 2021). 56. European Commission. Guidance Document n ◦ 9 on the Harmonised Free Allocation Methodology for the EU-ETS Post 2020. Final Version Issued on 15 February 2019 and Updated on 29 July 2019. 2020. Available online: https://ec.europa.eu/clima/ policies/ets/allowances_en#tab-0-1 (accessed on 16 December 2020). 57. Kong, L.; Price, L.; Hasanbeigi, A.; Liu, H.; Li, J. Potential for reducing paper mill energy use and carbon dioxide emissions through plant-wide energy audits: A case study in China. Appl. Energy 2013 , 102 , 1334–1342. [CrossRef] 58. R.D. 1315/2005. Royal Decree 1315/2005, Establishing the Bases of the Greenhouse Gas Emissions Monitoring and Verification Systems in Facilities. BOE (Spanish Official State Bulletin) 136 of 4 November 2005. Available online: https://www.boe.es/ buscar/doc.php?id=BOE-A-2005-18425 (accessed on 1 March 2019).

Made with FlippingBook Online document maker