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ENVIRONMENTAL ASPECTS OF STEEL PRODUCTION
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Arens, M. & Worrel, E. & Schleich, J. Energy Intensity Development of the German Iron and Steel Industry between 1991 and 2007, Energy, 2012, vol. 45, no. 1, p. 786-797.
Hasenbeigi, A. & Morrow, W. & Sathaye, J. & Masanet, E. & Tengfang, X. A bottom-up model to estimate the energy efficiency improvement and CO 2 emission reduction potentials in the Chinese ir on and steel industry. Energy, 2013, vol. 50, No. 1, p. 315-325.
Johansson, M. & Soderstrom, M. Options for the Swedish steel industry – Energy efficiency measures and fuel conversion. Energy, 2011, vol. 36, No. 1, p. 191-198.
Karali, N. & Tengfang, X. & Sathaye J. Reducing energy consumption and CO 2 emissions by energy efficiency measures and international trading: A bottom -up modeling for the U.S. iron and steel sector. Applied Energy, 2014, vol. 120, No. 2, p. 133-146.
Milford, R. L. & Pauliuk, S. & Allwood, J. M. & Muller, D.B. The roles of Energy and Material Efficiency in Meeting Steel Industry CO 2 Targets. Environmental Science & Technology, 2013, vol. 47, No. 7, p. 3455–3462.
Pardo, N. & Moya, J. A. Prospective scenarios on energy efficiency and CO 2 emissions in the European Iron & Steel industry. Energy. 2013, vol. 54, No. 2, p. 113-128.
Sonter, L. J. & Barrett, D. J. & Moran, C. J. & Soares-Filho, B. S . Carbon Emissions due to deforestation for the production of charcoal used in Brazil´s steel industry. Nature climate change, 2015, vol. 5, No. 1, p. 359-363.
WORLDSTEEL, Steel production, 2014. [online]. www.wbcsd.org International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Arens, M. & Worrel, E. & Schleich, J. Energy Intensity Development of the German Iron and Steel Industry between 1991 and 2007, Energy, 2012, vol. 45, no. 1, p. 786-797.
Hasenbeigi, A. & Morrow, W. & Sathaye, J. & Masanet, E. & Tengfang, X. A bottom-up model to estimate the energy efficiency improvement and CO 2 emission reduction potentials in the Chinese ir on and steel industry. Energy, 2013, vol. 50, No. 1, p. 315-325.
Johansson, M. & Soderstrom, M. Options for the Swedish steel industry – Energy efficiency measures and fuel conversion. Energy, 2011, vol. 36, No. 1, p. 191-198.
Karali, N. & Tengfang, X. & Sathaye J. Reducing energy consumption and CO 2 emissions by energy efficiency measures and international trading: A bottom -up modeling for the U.S. iron and steel sector. Applied Energy, 2014, vol. 120, No. 2, p. 133-146.
Milford, R. L. & Pauliuk, S. & Allwood, J. M. & Muller, D.B. The roles of Energy and Material Efficiency in Meeting Steel Industry CO 2 Targets. Environmental Science & Technology, 2013, vol. 47, No. 7, p. 3455–3462.
Pardo, N. & Moya, J. A. Prospective scenarios on energy efficiency and CO 2 emissions in the European Iron & Steel industry. Energy. 2013, vol. 54, No. 2, p. 113-128.
Sonter, L. J. & Barrett, D. J. & Moran, C. J. & Soares-Filho, B. S . Carbon Emissions due to deforestation for the production of charcoal used in Brazil´s steel industry. Nature climate change, 2015, vol. 5, No. 1, p. 359-363.
WORLDSTEEL, Steel production, 2014. [online]. www.wbcsd.org International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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