Energies 2019 , 12 , 247
21of 22
24. King, C.W.; Hall, C.A.S. Relating financial and energy return on investment. Sustainability 2011 , 3 , 1810–1832. [CrossRef] 25. Hall, C.A.S. Introduction to special issue on new studies in EROI (Energy Return on Investment). Sustainability 2011 , 3 , 1773–1777. [CrossRef] 26. Hall, C.A.S. New Studies in EROI (Energy Return on Investment). Sustainability 2011 , 2496–2499. [CrossRef] 27. Poisson, A.; Hall, C.A.S. Time series EROI for Canadian oil and gas. Energies 2013 , 6 , 5940–5959. [CrossRef] 28. Worrell, E.; Cuelenaere, R.F.A.; Blok, K.; Turkenburg, W.C. Energy consumption by industrial process in the European Union. Energy 1994 , 19 , 1113–1129. [CrossRef] 29. Thollander, P.; Ottosson, M. An energy efficient Swedish pulp and paper industry—Exploring barriers to and driving forces for cost-effective energy efficiency investments. Energy Effic. 2008 , 1 , 21–34. [CrossRef] 30. Rohdin, P.; Thollander, P.; Solding, P. Barriers to and drivers for energy efficiency in the Swedish foundry industry. Energy Policy 2007 , 35 , 672–677. [CrossRef] 31. Thollander, P.; Backlund, S.; Trianni, A.; Cagno, E. Beyond barriers—A case study on driving forces for improved energy efficiency in the foundry industries in Finland, France, Germany, Italy, Poland, Spain, and Sweden. Appl. Energy 2013 , 111 , 636–643. [CrossRef] 32. Trianni, A.; Cagno, E.; Thollander, P.; Backlund, S. Barriers to industrial energy efficiency in foundries: A European comparison. J. Clean. Prod. 2013 , 40 , 161–176. [CrossRef] 33. Brunke, J.C.; Johansson, M.; Thollander, P. Empirical investigation of barriers and drivers to the adoption of energy conservation measures, energy management practices and energy services in the Swedish iron and steel industry. J. Clean. Prod. 2014 , 84 , 509–525. [CrossRef] 34. Thollander, P.; Danestig, M.; Rohdin, P. Energy policies for increased industrial energy efficiency: Evaluation of a local energy programme for manufacturing SMEs. Energy Policy 2007 , 35 , 5774–5783. [CrossRef] 35. Rohdin, P.; Thollander, P. Barriers to and driving forces for energy efficiency in the non-energy intensive manufacturing industry in Sweden. Energy 2006 , 31 , 1500–1508. [CrossRef] 36. Lawrence, A.; Thollander, P.; Karlsson, M. Drivers, barriers, and success factors for improving energy management in the pulp and paper industry. Sustainability 2018 , 10 , 1851. [CrossRef] 37. Swedish Standard Institute. Energy Efficiency and Savings Calculations, Top-down and Bottom-up Methods SS-EN 16212:2012 ; Swedish Standard Institute: Stockholm, Sweden, 2012. 38. Laurijssen, J.; Faaij, A.; Worrell, E. Energy conversion strategies in the European paper industry—A case study in three countries. Appl. Energy 2012 , 98 , 102–113. [CrossRef] 39. Smith, J.M.; Van Ness, H.C. Introduction to Chemical Engineering Thermodynamics , 4th ed.; Rao, S., Morriss, J., Eds.; McGraw-Hill Book Company: New York, NY, USA, 1987; ISBN 0-07-058703-5. 40. Dincer, I.; Rosen, M.A. Exergy: Energy, Environment and Sustainable Development , 2nd ed.; Elsevier Science & Technology: Amsterdam, The Netherlands, 2012. 41. Neelis, M.; Ramirez-Ramirez, A.; Patel, M.; Farla, J.; Boonekamp, P.; Blok, K. Energy efficiency developments in the Dutch energy-intensive manufacturing industry, 1980–2003. Energy Policy 2007 , 35 , 6112–6131. [CrossRef] 42. BillerudKorsnäs. Annual and Sustainability Report [Års- och hållbarhetsredovisning 2016, in Swedish] ; BillerudKorsnäs: Solna, Sweden, 2016. 43. Holmen. Annual Report 2016 [Årsredovisning, in Swedish] ; Holmen AB: Stockholm, Sweden, 2016. 44. Briggs, D.G. Forest Products Measurements and Conversion Factors: With Special Emphasis on the U.S. Pacific Northwest ; The College of Forest Resources, University of Washington: Seattle, WA, USA, 1994. 45. Thollander, P.; Rohdin, P.; Moshfegh, B.; Karlsson, M.; Söderström, M.; Trygg, L. Energy in Swedish industry 2020—Current status, policy instruments, and policy implications. J. Clean. Prod. 2013 , 51 , 109–117. [CrossRef] 46. Kaya, A.; Keyes, A. Energy management technology in pulp, paper, and allied industries. Automation 1983 , 19 , 111–130. [CrossRef] 47. Wilby, M.R.; Rodr í guezGonz á lez, A.B.; Vinagre D í az, J.J. Empirical and dynamic primary energy factors. Energy 2014 , 73 , 771–779. [CrossRef] 48. Swing Gustafsson, M.; Gustafsson, M.; Myhren, J.A.; Dotzauer, E. Primary energy use in buildings in a Swedish perspective. Energy Build. 2016 , 130 , 202–209. [CrossRef] 49. SEA Energy Use in Numbers 2017, [Energiläget i siffror 2017, in Swedish]. Available online: http://www. energimyndigheten.se/nyhetsarkiv/2017/nu-finns-energilaget-i-siffror-2017/ (accessed on 2 June 2017).
Made with FlippingBook Digital Publishing Software