The Role of Lower Thermal Conductive Refractory Material in Energy Management Application of Heat Treatment Furnace
Author:
Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-19-4502-1_2
Reference22 articles.
1. Chen WH, Chung YC, Liu JL (2005) Analysis on energy consumption and performance of reheating furnaces in a hot strip mill. Int Commun Heat Mass Transfer 32:695–706
2. Cvinolobov NP, Brovkin VL (2004) Furnaces of ferrous metallurgy: Learner’s guide for universities. Porogi, Dnepropetrovsk, p 154
3. Dubey SK, Srinivasan P (2014) Development of three-dimensional transient numerical heat conduction model with the growth of oxide scale for steel billet reheat simulation. Int J Thermal Sci 84:214–227.Z
4. Han SH, Chang D, Huh C (2011) Efficiency analysis of radiative slab heating in a walking-beam-type reheating furnace. Energy 36:1265–1272
5. https://people.exeter.ac.uk/TWDavies/energy_conversion/Calculation%20of%20CO2%20emissions%20from%20fuels.htm
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