TY - GEN
T1 - Waste heat recovery from high temperature off-gases from electric arc furnaces
AU - Nimbalkar, Sachin
AU - Thekdi, Arvind
AU - Keiser, James
AU - Storey, John
PY - 2014
Y1 - 2014
N2 - This article presents a study and review of available waste heat in high temperature Electric Arc Furnace (EAF) off gases and heat recovery techniques/methods from these gases. It gives details of the quality and quantity of the sensible and chemical waste heat in typical EAF exhaust gas, the energy savings potential by recovering part of this heat, a comprehensive review of currently used waste heat recovery methods, and the potential for the use of advanced designs to achieve a much higher level of heat recovery including scrap preheating, steam production and electric power generation. Based on our preliminary analysis, currently, for all electric arc furnaces used in the US steel industry, the energy savings potential is equivalent to approximately 31 trillion Btu per year or 32.7 peta Joules per year (approximately $182 million US dollars/year). This article describes the EAF off-gas enthalpy model developed at Oak Ridge National Laboratory (ORNL) to calculate available and recoverable heat energy for a given stream of exhaust gases coming out of one or multiple EAF furnaces. This Excel based model calculates sensible and chemical enthalpy of the EAF off-gases during tap to tap time accounting for variation in quantity and quality of off gases. The model can be used to estimate energy saved through scrap preheating and other possible uses such as steam generation and electric power generation using off gas waste heat. This article includes a review of the historical development of existing waste heat recovery methods, their operations, and advantages/limitations of these methods. This paper also describes a program to develop and test advanced concepts for scrap preheating, steam production and electricity generation through use of waste heat recovery from the chemical and sensible heat contained in the EAF off gases with addition of minimum amount of dilution or cooling air upstream of pollution control equipment such as bag houses.
AB - This article presents a study and review of available waste heat in high temperature Electric Arc Furnace (EAF) off gases and heat recovery techniques/methods from these gases. It gives details of the quality and quantity of the sensible and chemical waste heat in typical EAF exhaust gas, the energy savings potential by recovering part of this heat, a comprehensive review of currently used waste heat recovery methods, and the potential for the use of advanced designs to achieve a much higher level of heat recovery including scrap preheating, steam production and electric power generation. Based on our preliminary analysis, currently, for all electric arc furnaces used in the US steel industry, the energy savings potential is equivalent to approximately 31 trillion Btu per year or 32.7 peta Joules per year (approximately $182 million US dollars/year). This article describes the EAF off-gas enthalpy model developed at Oak Ridge National Laboratory (ORNL) to calculate available and recoverable heat energy for a given stream of exhaust gases coming out of one or multiple EAF furnaces. This Excel based model calculates sensible and chemical enthalpy of the EAF off-gases during tap to tap time accounting for variation in quantity and quality of off gases. The model can be used to estimate energy saved through scrap preheating and other possible uses such as steam generation and electric power generation using off gas waste heat. This article includes a review of the historical development of existing waste heat recovery methods, their operations, and advantages/limitations of these methods. This paper also describes a program to develop and test advanced concepts for scrap preheating, steam production and electricity generation through use of waste heat recovery from the chemical and sensible heat contained in the EAF off gases with addition of minimum amount of dilution or cooling air upstream of pollution control equipment such as bag houses.
KW - EAFs
KW - Electric arc furnace
KW - Scrap preheating
KW - Waste heat recovery
UR - http://www.scopus.com/inward/record.url?scp=84905845568&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84905845568
SN - 9781935117421
T3 - AISTech - Iron and Steel Technology Conference Proceedings
SP - 1113
EP - 1123
BT - AISTech 2014 - Proceedings of the Iron and Steel Technology Conference
PB - Association for Iron and Steel Technology, AISTECH
T2 - AISTech 2014 Iron and Steel Technology Conference
Y2 - 5 May 2014 through 8 May 2014
ER -