Molten slag contains a considerable amount of sensible heat which can be recovered provided that a large specific surface area is created to facilitate heat transfer to an ambient gaseous medium. It is preferable to disperse the molten slag into uniformly sized droplets in order to permit a more reliable process design. The basic concept is to distribute a volume of molten material into coherent ligaments or jets which consecutively break into droplets by action of capillary forces. This can be done either radially using centrifugal forces as currently explored in the dry slag granulation process, or vertically by forming cylindrical liquid jets issuing from capillaries or nozzles as proposed in the direct contact droplet heat exchanger (DH...
Computational methods have become reliable tools in many disciplines for research and industrial des...
A high-resolution numerical model was performed for a detailed understanding of packed-bed structure...
Molten slag, which is primarily generated in the blast furnace (BF) cohesive zone, trickles down thr...
Large volumes of slag are produced by metallurgical processes, such as blast furnaces for steel prod...
In many pyrometallurgical applications, subprocesses such as emulsification, droplet, bubble or jet ...
Aiming at the mode of liquid ligament disintegration into droplets in the process of the centrifugal...
The hydrogasodynamics and technology a of melt treatment out of furnace by high-implused jets of neu...
Abstract The technological factors required to improve the operational properties of granulated meta...
AbstractThe blast furnace slag is rich in high-temperature waste heat, however, most of the slag sen...
The competition between inertia and solidification for the high-Reynolds-number flow of molten alumi...
Slags generated in metallurgical industry are high volume by-products or wastes containing a large a...
Molten slags of blast furnace is a second resources with great value of 1600~1 800 MJ sensible heat ...
The solid free-form fabrication (SFF) of arbitrary metallic components is accomplished with control...
It is important to recover heat within the copper–chlorine cycle of hydrogen production to improve i...
The phenomenon of slag layer clearing from the surface of a melt by a top-blown gas jet was assessed...
Computational methods have become reliable tools in many disciplines for research and industrial des...
A high-resolution numerical model was performed for a detailed understanding of packed-bed structure...
Molten slag, which is primarily generated in the blast furnace (BF) cohesive zone, trickles down thr...
Large volumes of slag are produced by metallurgical processes, such as blast furnaces for steel prod...
In many pyrometallurgical applications, subprocesses such as emulsification, droplet, bubble or jet ...
Aiming at the mode of liquid ligament disintegration into droplets in the process of the centrifugal...
The hydrogasodynamics and technology a of melt treatment out of furnace by high-implused jets of neu...
Abstract The technological factors required to improve the operational properties of granulated meta...
AbstractThe blast furnace slag is rich in high-temperature waste heat, however, most of the slag sen...
The competition between inertia and solidification for the high-Reynolds-number flow of molten alumi...
Slags generated in metallurgical industry are high volume by-products or wastes containing a large a...
Molten slags of blast furnace is a second resources with great value of 1600~1 800 MJ sensible heat ...
The solid free-form fabrication (SFF) of arbitrary metallic components is accomplished with control...
It is important to recover heat within the copper–chlorine cycle of hydrogen production to improve i...
The phenomenon of slag layer clearing from the surface of a melt by a top-blown gas jet was assessed...
Computational methods have become reliable tools in many disciplines for research and industrial des...
A high-resolution numerical model was performed for a detailed understanding of packed-bed structure...
Molten slag, which is primarily generated in the blast furnace (BF) cohesive zone, trickles down thr...