Title :
Greening the foundry sector by an innovative method of energy conservation and emission reduction
Author :
Selvaraj, J. ; Ramachandran, K.I. ; Venkatesh, D. ; Devanathan, S.
Author_Institution :
Dept. of Mech. Eng., Amrita Vishwa Vidya Peetham, Coimbatore, India
Abstract :
Foundries are known for their energy intensiveness and environmental pollution. More than 50 % of the energy consumed by the foundries is spent in melting the raw materials and this energy goes waste while molten metal solidifies in sand molds. This paper aims at harvesting that waste heat liberated from molten metal, using the harvested heat to preheat the scraps that are embedded into the sand molds. This preheated scraps when melted for the next batch, the energy consumption in the furnace is reduced by 12 %. This energy conservation is a novel approach and readily gives rise to environmental benefits by reducing energy-related emissions. This method also improves the recyclability of the foundry sand, since the peak sand temperature reduces by more than 100 K, making this method doubly environmental-friendly.
Keywords :
air pollution control; energy consumption; foundries; furnaces; heat recovery; melting; metallurgical industries; recycling; sand; waste heat; energy conservation; energy consumption; energy intensiveness; energy-related emission reduction; environmental benefit; environmental pollution; environmental-friendly method; foundry sand recyclability; foundry sector greening; furnace; molten metal solidification; peak sand temperature; raw material melting; sand mold; scrap preheating; waste heat harvesting; Casting; Furnaces; Heat recovery; Metals; Raw materials; Waste heat; Energy conservation; environmental benefits; payback period; preheating; sand casting;
Conference_Titel :
Intelligent Systems and Control (ISCO), 2014 IEEE 8th International Conference on
Print_ISBN :
978-1-4799-3836-0
DOI :
10.1109/ISCO.2014.7103919
