The Optimal Product Transition In Glass Furnaces

Abstract: Product change in glass furnaces is a common and challenging industrial problem generally associated with long transition times and possible ream defects. A reduction in the product turnover time implies a higher product yield and a reduced energy consumption. This turnover time relies to a large extent on the understanding of furnace dynamics. In this work, the disadvantages of the current transition practice (based on the concepts of minimum residence time and perfect mixing) are discussed. An optimization a… Show more

“…Over the past several decades, catalytic oxidation of CO has attracted considerable attention due to its potential applications in many fields such as automobile exhaust, fuel cell technology, carbon dioxide laser and air purification in an enclosed atmosphere [1][2][3]. Among the catalysts suitable for this purpose, supported noble metals initially seemed to be good candidates.…”

Low temperature molten salt synthesis of porous La1-Sr Mn0.8Fe0.2O3 (0 ≤ x ≤ 0.6) microspheres with high catalytic activity for CO oxidation

“…Over the past several decades, catalytic oxidation of CO has attracted considerable attention due to its potential applications in many fields such as automobile exhaust, fuel cell technology, carbon dioxide laser and air purification in an enclosed atmosphere [1][2][3]. Among the catalysts suitable for this purpose, supported noble metals initially seemed to be good candidates.…”

Low temperature molten salt synthesis of porous La1-Sr Mn0.8Fe0.2O3 (0 ≤ x ≤ 0.6) microspheres with high catalytic activity for CO oxidation

Investigation of flow dynamics of molten glass in different solar glass production units using radiotracer method

Residence time distribution in RO channel