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45. Van Berkel, A. Raising Steam for Industry without Emitting CO 2 : Taking the C out of Steam ; Lux Research Inc.: Boston, MA, USA, 2018. 46. Muehlethaler, E.; Starkey, Y.; Salminen, R.; Harding, D. Steam Cycle Washer for Unbleached Pulp: (Final Report DE-FC36-04GO14304) ; DOE: Washington, DC, USA, 2008. 47. Martin, N.G.; Worrell, E.; Ruth, M.; E Price, L.; Elliott, R.; Shipley, A.; Thorne, J.H. Emerging Energy-Efficient Industrial Technologies ; Lawrence Berkeley National Laboratory: Berkeley, CA, USA, 2000. 48. EPA. Available and Emerging Technologies for Reducing Greenhouse Gas Emissions from the Pulp and Paper Manufacturing Industry ;U.S. Environmental Protection Agency: Washington, DC, USA, 2010. 49. Möllersten, K.; Gao, L.; Yan, J. CO 2 Capture in Pulp and Paper Mills: CO 2 Balances and Preliminary Cost Assessment. Mitig. Adapt. Strat. Glob. Chang. 2006 , 11 , 1129–1150. [CrossRef] 50. Lamberg, J.-A.; Ojala, J.; Peltoniemi, M.; Särkkä, T. The Evolution of Global Paper Industry 1800–2050. A Comparative Analysis ; Springer: Dordrecht, The Netherlands, 2012; ISBN 978-94-007-5430-0. 51. Treibhausgasemissionen Von Strom. Empfehlungen zur Öko-Bilanzierung ; Umweltbundesamt GmbH: Vienna, Austria, 2018; ISBN 978-3-99004-472-8. 52. Sejkora, C.; Kianberger, T.; Moser, S.; Hofmann, R.; Haider, M.; Brunner, C. Renewables4Industry Abstimmung des Energiebedarfs von Industriellen Anlagen und der Energieversorgung aus Fluktuierenden Erneuerbaren ; Diskussionspapier (Endberichtsteil 2 von 3); Energieinstitut an der JKU Linz: Linz, Austria, 2018.
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