A Gas Purging System for Copper and Aluminum Furnaces In this paper, the improvement in the melt processing of two major metals is dis-cussed using the examples of an anode furnace from a Chinese primary copper producer and a melting furnace of an aluminum slug plant in Austria
A Gas Purging System for Copper and Aluminum Furnaces In this paper, the improvement in the melt processing of two major metals is discussed using the examples of an anode furnace from a Chinese primary copper producer and a melting furnace of an aluminum slug plant in Austria
389 389 - onetunnel. org Porous plugs ystems A non-changeable arrangement for the aluminium industry is shown in F gure 1 It consists of the porous plug itself, surrounded by a wel block The changeable porous plug is fixed by a specially designed closing system in combination with a holdi
(12) NACH DEM VERTRAG ÜBER DIE INTERNATIONALE ZUSAMMENARBEIT AUF DEM . . . KG [AT AT]; Wienerbergstrasse 11, 1100 Wien (AT) (72) Erfinder: MANHART, Christian; Birkengasse 11, 8600 Bruck a d Mur (AT) VUKOVIC, Goran; Frömmlgasse 28 8, 1210 Wien (AT) GAMWEGER, Klaus; Edling 29a, 8793 Trofaiach (AT) (74) Anwalt: LUCHS, Willi; LUCHS PARTNER AG, Pa- tentanwälte, Schulhausstrasse 12, 8002 Zürich (CH)
AL KIN - A new generation of fluxing and purging technology for a . . . The process of gas purging in molten aluminium has been an industrial practice in Europe for many years The advantages are a reduction in the hydrogen content and impurities in the melt, as well as a homogenisation of the temperature and chemical analysis in the molten metal
RHI Bulletin 11_KORR - ResearchGate In the following examples, the application of computational fluid dynamic (CFD) model-ling to the non ferrous industry is demonstrated The first calculation illustrates how optimizing the purging
Process optimisation and quality improvement by gas-purging in the Al . . . Antrekowitsch, H , Complojer, M , Gamweger, K , Kraly, A (2005) Process optimisation and quality improvement by gas-purging in the Al-industry in Proc of the 2nd International Light Metals Technology Conference (2005) (S 97-101)