Citations (22)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (6)
Zaaquib Yunus Ahmed, Ilya T’Jollyn, Steven Lecompte, Thomas Schoonjans, Toon Demeester, Wim Beyne, Teun De Raad & Michel De Paepe. (2023) A Truncated Transient Slab Model for a Reheating Furnace. Heat Transfer Engineering 0:0, pages 1-18.
Read now
Read now
Zaaquib Yunus Ahmed, Ilya T’Jollyn, Steven Lecompte, Toon Demeester, Teun De Raad & Michel De Paepe. (2023) Steady-State Heat Flux Prediction to Slabs in a Walking Beam Furnace. Heat Transfer Engineering 44:1, pages 39-56.
Read now
Read now
Nima Bohlooli Arkhazloo, Farzad Bazdidi-Tehrani, Mohammad Jadidi, Jean-Benoît Morin & Mohammad Jahazi. (2022) Determination of Temperature Distribution during Heat Treatment of Forgings: Simulation and Experiment. Heat Transfer Engineering 43:12, pages 1041-1064.
Read now
Read now
Saurav Chakraborty & Prabal Talukdar. (2021) Efficient Modeling and Optimal Design of Coal Fired Pusher Type Reheating Furnace. Heat Transfer Engineering 42:22, pages 1949-1968.
Read now
Read now
Jiin-Yuh Jang & Jun-Bo Huang. (2018) Optimisation of a slab heating pattern with various skid button heights in a walking-beam-type reheating furnace. Ironmaking & Steelmaking 45:9, pages 793-804.
Read now
Read now
Chien-Nan Lin, Yi-Ping Luo, Jiin-Yuh Jang & Chao-Hua Wang. (2018) Novel Approach to Estimate the Optimum Zone Fuel Mass Flow Rates for a Walking Beam Type Reheating Furnace. Heat Transfer Engineering 39:7-8, pages 586-597.
Read now
Read now
Articles from other publishers (16)
Sajad Mirzaei, Nima Bohlooli Arkhazloo, Farzad Bazdidi-Tehrani, Jean-Benoit Morin, Abdelhalim Loucif & Mohammad Jahazi. (2023) Influence of Spacers and Skid Sizes on Heat Treatment of Large Forgings within an Industrial Electric Furnace. Energies 16:7, pages 2936.
Crossref
Crossref
Michal Švantner, Josef Študent & Zdeněk Veselý. (2020) Continuous walking-beam furnace 3D zonal model and direct thermal-box barrier based temperature measurement. Case Studies in Thermal Engineering 18, pages 100608.
Crossref
Crossref
José Salcedo-Hernández, Raul Rivas-Perez & Javier Sotomayor-Moriano. (2020) Design of a Robust H2 State Feedback Temperature Controller for a Steel Slab Reheating Furnace. Applied Sciences 10:5, pages 1731.
Crossref
Crossref
Sergey Andreev. (2019) System of Energy-Saving Optimal Control of Metal Heating Process in Heat Treatment Furnaces of Rolling Mills. Machines 7:3, pages 60.
Crossref
Crossref
Wang Chunsheng, Zhou Yan, Liang Zejun & Yang Fuxiang. (2019) Heat transfer simulation and thermal efficiency analysis of new vertical heating furnace. Case Studies in Thermal Engineering 13, pages 100414.
Crossref
Crossref
Karol Kostur. (2018) Mathematical modelling of rotary-heart furnace. Mathematical modelling of rotary-heart furnace.
Martin Landfahrer, Rene Prieler, Bernhard Mayr, Hannes Gerhardter, Thomas Zmek, Jürgen Klarner & Christoph Hochenauer. (2018) Characterization of the temperature distribution on steel tubes for different operating conditions in a reheating furnace using CFD and three different measuring methods. Applied Thermal Engineering 133, pages 39-48.
Crossref
Crossref
Martin Landfahrer, Rene Prieler, Bernhard Mayr, Hannes Gerhardter, Ronald Schöngrundner, Jürgen Klarner & Christoph Hochenauer. (2017) Development of a numerically efficient CFD model to predict transient temperature distribution of mother tubes moving translative and rotative through a gas fired furnace. Applied Thermal Engineering 123, pages 290-300.
Crossref
Crossref
Zhengguang Xu & Pengfei Xu. (2017) The slab heating furnace temperature presetting model and optimization. The slab heating furnace temperature presetting model and optimization.
S. Defaee Rad, A. Ashrafizadeh & M. Nickaeen. (2017) Numerical simulation of fluid flow and heat transfer in an industrial continuous furnace. Applied Thermal Engineering 117, pages 263-274.
Crossref
Crossref
Saurav Chakraborty, Aviral Rajora, Sandeep Pal Singh & Prabal Talukdar. (2017) Heat transfer and discrete phase modelling of coal combustion in a pusher type reheating furnace. Applied Thermal Engineering 116, pages 66-78.
Crossref
Crossref
Chunsheng Wang, Mingquan Pan & Zijian Liu. (2016) Active compensation control based on the adaptive reset state observer for stochastic disturbance suppression in the billet heating process. Active compensation control based on the adaptive reset state observer for stochastic disturbance suppression in the billet heating process.
Rene Prieler, Bernhard Mayr, Martin Demuth, Burkhardt Holleis & Christoph Hochenauer. (2016) Numerical analysis of the transient heating of steel billets and the combustion process under air-fired and oxygen enriched conditions. Applied Thermal Engineering 103, pages 252-263.
Crossref
Crossref
Zhi Yang & Xiaochuan Luo. (2016) Optimal set values of zone modeling in the simulation of a walking beam type reheating furnace on the steady-state operating regime. Applied Thermal Engineering 101, pages 191-201.
Crossref
Crossref
Jiin-Yuh Jang & Jun-Bo Huang. (2015) Optimization of a slab heating pattern for minimum energy consumption in a walking-beam type reheating furnace. Applied Thermal Engineering 85, pages 313-321.
Crossref
Crossref
Tiago Morgado, Pedro J. Coelho & Prabal Talukdar. (2015) Assessment of uniform temperature assumption in zoning on the numerical simulation of a walking beam reheating furnace. Applied Thermal Engineering 76, pages 496-508.
Crossref
Crossref