Jürgen Antrekowitsch
131 - 140 out of 285Page size: 10
Research output
- Published
Pyrometallurgische Raffination von RESH-Verbrennungsrückständen zu Wertstoffen
Konetschnik, S. & Antrekowitsch, J., 2008Research output: Book/Report › Commissioned report › Transfer › peer-review
- Published
Recovery of PGMs from spent catalyst material with a new HCl – H2SO4 leaching process
Konetschnik, S., Offenthaler, D., Antrekowitsch, J. & Sitter, J., 2007, Horizons of Sustainable Growth of the Non-ferrous Metals Production. p. 679-690Research output: Chapter in Book/Report/Conference proceeding › Conference contribution
- Published
Thermische Vorbehandlung PGM-haltiger Katalysatoren für die hydrometallurgische Aufarbeitung
Konetschnik, S., Antrekowitsch, J., Offenthaler, D. & Antrekowitsch, H., 2007, In: Berg- und hüttenmännische Monatshefte : BHM. 152, p. 68-75Research output: Contribution to journal › Article › Research › peer-review
- Published
Recovery of chromium from stainless steel slags
Leuchtenmüller, M., Rösler, G. & Antrekowitsch, J., 21 Apr 2016. 9 p.Research output: Contribution to conference › Paper › peer-review
- E-pub ahead of print
A Kinetic Study Investigating the Carbothermic Recovery of Chromium from a Stainless-Steel Slag
Leuchtenmüller, M., Antrekowitsch, J. & Steinlechner, S., 29 Jul 2019, (E-pub ahead of print) In: Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 50.2019, 5, p. 2221-2228 8 p.Research output: Contribution to journal › Article › Research › peer-review
- Published
Carbothermic Reduction of Zinc Containing Industrial Wastes: A Kinetic Model
Leuchtenmüller, M., Legerer, C., Brandner, U. & Antrekowitsch, J., Feb 2021, In: Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 52, 1, p. 548-557 10 p.Research output: Contribution to journal › Article › Research › peer-review
- Published
A METHOD FOR SEPARATING ZINC FROM AN INDUSTRY PRODUCT USING A PYROMETALLURGICAL REACTION
Leuchtenmüller, M. (Inventor) & Antrekowitsch, J. (Inventor), 24 Feb 2022, IPC No. C22B 19/ 30 A I, Patent No. WO2022037781, Priority date 20 Aug 2020, Priority No. WO2020EP73313Research output: Patent
- Published
VERFAHREN ZUM ENTFERNEN VON FLUORID AUS EINER ZINKHALTIGEN LÖSUNG BZW. SUSPENSION, ENTFLUORIDIERTE ZINKSULFAT-LÖSUNG UND DEREN VERWENDUNG SOWIE VERFAHREN ZUR HERSTELLUNG VON ZINK UND VON FLUORWASSERSTOFF BZW. FLUSSSÄURE
Ludewig, F. (Inventor), Steinlechner, S. (Inventor) & Antrekowitsch, J. (Inventor), 11 Oct 2018, IPC No. C22B 19/ 30 A I, Patent No. WO2018184686, Priority date 6 Apr 2017, Priority No. WO2017EP58303Research output: Patent
- Published
Method for removing fluoride from a zinc-containing solution or suspension, defluoridated zinc sulfate solution and use thereof, and method for producing zinc and hydrogen fluoride or hydrofluoric acid
Ludewig, F. (Inventor), Steinlechner, S. (Inventor) & Antrekowitsch, J. (Inventor), 7 Nov 2019, IPC No. C22B 19/ 30 A I, Patent No. AU2017408055, Priority date 6 Apr 2017, Priority No. WO2017EP58303Research output: Patent
- Published
METHOD FOR REMOVING FLUORIDE FROM A ZINC-CONTAINING SOLUTION OR SUSPENSION, DEFLUORIDATED ZINC SULFATE SOLUTION AND USE THEREOF, AND METHOD FOR PRODUCING ZINC AND HYDROGEN FLUORIDE OR HYDROFLUORIC ACID
Ludewig, F. (Inventor), Steinlechner, S. (Inventor) & Antrekowitsch, J. (Inventor), 11 Oct 2018, IPC No. C22B 19/ 30 A I, Patent No. CA3092484, Priority date 6 Apr 2017, Priority No. WO2017EP58303Research output: Patent
