References
- Blast furnace phenomena and modelling/committee on reaction within blast furnace. Joint Society on Iron and Steel Basic Research. The Iron and Steel Institute of Japan. 1987.
- Zhong LC, Liu QX, Wang WZ. Computer simulation of heat transfer in regenerative chambers of self-preheating hot blast stoves. ISIJ Int. 2004;44:795–800. doi: 10.2355/isijinternational.44.795
- Zhang YH, Huang X, Houshangi N. Model predictive control via system identification for a hot blast stove. In: Canadian Conference on Electrical and Computer Engineering; 2008. p. 809–813.
- Kimura Y, Takatani K, Otsu N. Three-dimensional mathematical modeling and designing of hot stove. ISIJ Int. 2010;50:1040–1047. doi: 10.2355/isijinternational.50.1040
- Tomas Andres Flen M, Guidi F, Benedetti R, Lefranc G. Modelization and identification of the hot blast stove’s heating cycle. In: 2011 9th IEEE International Conference on Control and Automation (ICCA); 2011. p. 1267–1273.
- Zhang FM, Mao QW, Mei CH, et al. Dome combustion hot blast stove for huge blast furnace. J Iron Steel Res. 2012;19:1–7.
- Qi FS, Liu ZQ, Yao CY, et al. Numerical study and structural optimization of a top combustion hot blast stove. Adv Mech Eng. 2014;7:1–10.
- Zetterholm J, Ji XY, Sundelin B, et al. Model development of a blast furnace stove. Energy Procedia. 2015;75:1758–1765. doi: 10.1016/j.egypro.2015.07.454
- Zetterholm J, Ji X, Sundelin B, et al. Dynamic modelling for the hot blast stove. Appl Energy. 2017;185:2142–2150. doi: 10.1016/j.apenergy.2016.02.128
- Yan K, Cheng SS. Stress and deformation analysis of hot blast stove piping system. The minerals. Met Mat Soc. 2017;82:747–756.
- Yan K, Cheng SS. Stress and deformation analysis of top combustion hot blast stove shell. The minerals. Met Mat Soc. 2017;82:757–765.
- Chen YS, Kim SW. Computation of turbulent flows using an extend k-ε turbulence closure model. NASA CR-179204. Oct. 1987.
- Launder BE, Spalding DB. Lectures in mathematical models for turbulence. London: Academic Press; 1972.
- Refractories handbook. The technical association of refractories. 1998.
- Schacht CA. Refractory linings thermomechanical design and applications. NewYork, Basel, Hongkong: Marcel Dekker, Inc; 1995.
- Lemmon EW, McLinden MO, Friend DG. Thermophysical properties of fluid systems NIST Chem. WebBook. NIST Stand Ref Database Number 69. 2017.
- Thomas FI, Peter EL. Steam and gas tables with computer equations. 1st ed. Orlando: Academic Press; 1984.
- Mason EA, Saxena SC. Approximate formula for the thermal conductivity of gas mixtures. Phys Fluids. 1958;1:361–369. doi: 10.1063/1.1724352
- Wilke CR. A viscosity equation for gas mixtures. J Chem Phys. 1950;18:517–519. doi: 10.1063/1.1747673
- Incropear FP, Dewitt DP, Bergman TL, et al. Principles of heat and mass transfer. International Student Version. Seventh Edition. 2013.
- Carniglia SC, Barna GL. Handbook of industrial refractories technology. Park Ridge (NJ): Noyes Publication; 1993.