1
John F Pelton: Gas dispersion apparatus for molten aluminum refining. Praxair Technology, November 15, 1994: US05364078 (77 worldwide citation)

The maximum useful rate of aluminum refining is increased by baffle means positioned across the refining chamber under the rotor of a spinning nozzle in the refining chamber, with open spaces to facilitate cleaning being provided in the vicinity of the side wall of the refining chamber.


2
Pelton John Franklin: Improved gas dispersion apparatus for molten aluminum refining.. Union Carbide Ind Gases Tech, August 26, 1992: EP0500052-A2 (4 worldwide citation)

The maximum useful rate of aluminum refining is substantially increased by the incorporation of baffle means across the refining chamber under the rotor of a spinning nozzle assembly positioned in the refining chamber during aluminum refining operations.


3
John F Pelton: Gas dispersion apparatus for molten aluminum refining. Praxair Technology, Alvin H Fritschler, August 10, 1993: US05234202 (4 worldwide citation)

The maximum useful rate of aluminum refining is substantially increased by the incorporation of baffle means across the refining chamber under the rotor of a spinning nozzle assembly positioned in the refining chamber during aluminum refining operations.


4
John Franklin Pelton: Gas dispersion apparatus for molten aluminum refining. Foseco International, Nixon & Vanderhye P C, May 9, 2000: US06060014 (1 worldwide citation)

The maximum useful rate of aluminum refining is substantially increased by the incorporation of baffle means across the refining chamber under the rotor of a spinning nozzle assembly positioned in the refining chamber during aluminum refining operations.


5
Pelton John Franklin: Improved gas dispersion apparatus for molten aluminum refining.. Praxair Technology, August 24, 1994: EP0611830-A1 (1 worldwide citation)

The maximum useful rate of aluminum refining is increased by baffle means positioned across the refining chamber under the rotor of a spinning nozzle in the refining chamber, with open spaces to facilitate cleaning being provided in the vicinity of the side wall of the refining chamber.


6
Pelton John Franklin: Appareil de dispersion du gaz pour laffinage de laluminium fondu, Gas dispersion apparatus for molten aluminum refining. Foseco International, SIM & MCBURNEY, February 6, 1996: CA2061417

The maximum useful rate of aluminumrefining is substantially increased by theincorporation of baffle means across the refiningchamber under the rotor of a spinning nozzleassembly positioned in the refining chamber duringaluminum refining operations.


7
John Franklin Pelton: Improved gas dispersion apparatus for molten aluminum refining. Praxair Technology, YANG SONGLING, March 19, 1997: CN96103785

The maximum useful rate of aluminum refining is substantially increased by the incorporation of baffle means across the refining chamber under the rotor of a spinning nozzle assembly positioned in the refining chamber during aluminum refining operations.


8
John Franklin Pelton: Improved gas dispersion apparatus for molten aluminum refining. Union Carbide Industrial Gases Technology, YANG SONGLING, September 9, 1992: CN92101126

The maximum useful rate of aluminum refining is substantially increased by the incorporation of baffle means across the refining chamber under the rotor of a spinning nozzle assembly positioned in the refining chamber during aluminum refining operations.


9
Pelton John F: Improvement of gas dispersion apparatus for molten aluminum refining. Union Carbide Ind Gases Technol, June 27, 1995: JP1995-166258

PURPOSE: To embody an increase of an aluminum refining rate without the excessive surface flow of aluminum. CONSTITUTION: A rotary nozzle 18 having a stator 19 and a rotor 21 is installed into a refractory material lined refining chamber 13 housing molten aluminum. The size of the air bubbles advanc ...