Aaberg R. J.
Lit. (1997): Bubble Voltage II.
Aarhaug A.
Lit. (2011): HF Measurements Inside Electrolysis Cell.
Aga B. E.
Ahli N.
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Lit. (2013): Energy and Mass Balance in DX+ Cells.
Alamdari H.
Lit. (2017): Hydrodynamic, Thermoelectric 3D Model for Slotted Carbon Anode Efficiency.
Lit. (2017): FEA: Slot Size Effect on Thermal-Electrical Behaviour of Anode.
Al Jasmi A.
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Lit. (2013): Energy and Mass Balance in DX+ Cells.
Al Zarouni Abdalla
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Lit. (2013): Energy and Mass Balance in DX+ Cells.
Al Zarouni Ali H.A.M.
Thesis: (2011): Minimising Perfluorocarbon Gas Emissions.
Alcorn T. R.
Lit. (1993): Equivalent Ratio.
Ali M. M.
Lit. (1999): Starving of Søderberg Cells.
Anson J.
Lit. (2017): Impact Anode Size, Amperage Creep on Anode Management.
Antille J.
Lit.(2014): Anode Management Options during Smelter Capacity Creep.
Lit.(2013): Impact of MHD and Bubbles Forces on Alumina Concentration.
Lit. (2005): Simulation of Bubble Layer.
Arkhipov A.
Lit. (2013): Energy and Mass Balance in DX+ Cells.
Arora V. A.
Lit. (2008): Method of Measuring the Liquidus and Bath Temperature.
Baiteche M.
Lit. (2017): Hydrodynamic, Thermoelectric 3D Model for Slotted Carbon Anode Efficiency.
Lit. (2017): FEA: Slot Size Effect on Thermal-Electrical Behaviour of Anode.
Ban Yungang (班允刚)
Lit. (2011): HEEP (High Energy Efficiency Pot) Technology.
Lit. (2007): Electrical Conductivity of Na3AlF6-AlF3-Al2O3-CaF2-LiF(NaCl)
Baokuan Li
Lit. (2018): Effect of Steel Multi-Collector Bars.
Basquin JL.
Lit. (2001): AP50 Pechiney 500 kA Cell.
Bastaki M.
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Lit. (2013): Energy and Mass Balance in DX+ Cells.
Batista E.
Lit. (2011): Active Pot Control with Alcoa STARProbe.
Bearne G.
Book (2013): Essential Readings, Aluminum Reduction Technology.
Bécasse S.
Lit. (2013): Rio Tinto Alcan AP4X Low Energy Cell.
Beheregaray T.
Lit. (2001): AP50 Pechiney 500 kA Cell.
Benkahla B.
Lit. (2009): AP50 Performances and New Development.
Lit. (2008): Last Development in AP50 Cell.
Benninghoff P.
Lit. (1996): Liquidus Temperature, Superheat Sensor.
Berezin A. I.
Lit. (2007): Superheat, Aluminum Fluoride Control, MITELIK-System.
Besson O.
Lit.(2013): Impact of MHD and Bubbles Forces on Alumina Concentration.
Bing Wu
see Wu Bing.
Bingliang Gao
see Gao Bingliang.
Blais A.
Lit. (2013): Rio Tinto Alcan AP4X Low Energy Cell.
Bohner H. O.
Lit. (2008): Method of Measuring the Liquidus and Bath Temperature.
Bojarevics V.
Lit. (2020): Demo Retrofit of Chinese Cell.
Bouvet S.
Lit. (2002): Visualizing Gas Evolution
Bradley B. F.
Bratland D.
Lit. (1983): Surface Tension Na3AlF6 - Al2O3, Na3AlF6 - CaF2.
Brooks G.
Lit. (2013): Electrolytic Bubble Behaviour.
Brown J. J. (Jr.)
Lit. (1984): Liquidus Temperature.
Bruggeman J.
Lit. (2008): Warren Haupin Technical Contributions.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Lit. (1998): Pot Heat Balance Fundamentals.
Bugnion L.
Lit.(2014): Anode Management Options during Smelter Capacity Creep.
Bui R. T.
Lit. (1999): Modelling of Gas Bubble Growth.
Bullard G. L.
Equation Liquidus Temperature.
Lit. (1986): Liquidus Temperature.
Burkartsky O.
Lit. (2008): Sayanogorsk Amperage Increase.
Burkin A. R. (Editor)
Book (1987): Production of Aluminum and Alumina.
Buzunov V.
Lit. (2008): Sayanogorsk Amperage Increase.
Lit. (2002): Crystallization of Cryolite and Alumina at Metal-Bath Interface.
Caratini Y.
Lit. (2008): Last Development in AP50 Cell.
Chai Dengpeng
see Dengpeng Chai.
Chaouki H.
Lit. (2017): Hydrodynamic, Thermoelectric 3D Model for Slotted Carbon Anode Efficiency.
Lit. (2017): FEA: Slot Size Effect on Thermal-Electrical Behaviour of Anode.
Chartrand P.
Lit. (2012): Thermodynamic Models for Better Understanding and Optimizing.
Lit. (2002): Predictive Thermodynamic Model for Al-NaF-AlF3-CaF2-Al2O3.
Cassayre L.
Lit. (2002): Visualizing Gas Evolution
Chen J.
Lit. (2013): Electrolytic Bubble Behaviour.
Chen J. J. J.
Lit. (2014): Melting Behaviour of Crust.
Lit. (2013): Composition and Thermal Analysis of Crust.
Lit. (2008): Resistance Due to Gas Bubbles.
Lit. (1992): Thermochemical Energy Calculations.
Chen Xiping
see Xiping Chen.
Choudhary G.
Equation Electrical Conductivity.
Lit. (1973): Electrical Conductivity.
Chrenková M.
Equation Electrical Conductivity.
Lit. (1996): Density, Electrical Conductivity, Viscosity of Baths.
Lit. (1993): Electrolyte Density.
Cooksey M. A.
Thesis: (2012): Method of Measuring Ohmic Resistance.
Lit. (2012): Numerical Investigation of Bubble Resistance.
Lit. (2008): Resistance Due to Gas Bubbles.
Coté J.
Lit. (2012): Thermodynamic Models for Better Understanding and Optimizing.
Côté P.
Lit. (2013): Rio Tinto Alcan AP4X Low Energy Cell.
Cotton D.
Lit. (2013): Composition and Thermal Analysis of Crust.
Coursol P.
Lit. (2012): Thermodynamic Models for Better Understanding and Optimizing.
Danek V.
Lit. (1996): Density, Electrical Conductivity, Viscosity of Baths.
Danielik V.
Lit. (2010): Solubility of Aluminum.
Dengpeng Chai
Lit. (2014): NiFe2O4-Based Cermet Inert Anodes.
Lit. (2012): Techno Economic Optimization Model.
de Nora V.
Lit. (2006): de Nora Inert Anode: Technical and Economical Evaluation.
Dewing E. W.
Equation Liquidus Temperature.
Lit. (1974): Chemistry of the Alumina Reduction.
Lit. (1970): Liquidus Temperature.
Ding Fengqi
see Fengqi Ding.
Ding Jilin (丁吉林)
Lit. (2014): Chinese 400kA Reduction Cell.
Dingxiong Lu
Lit. (2011): HEEP (High Energy Efficiency Pot) Technology.
Donehue S.
Lit. (2001): Stability of A817 Pot at Portland Aluminum.
Dong Hui
see Hui Dong.
Dongfang Zhou
see Zhou Dongfang.
Drengstig T.
Lit. (2002): Impact of Conductivity on Control of Cells.
Dufour G.
Lit. (2012): Thermodynamic Models for Better Understanding and Optimizing.
Dupuis C.
Dupuis M.
Lit. (2020): Demo Retrofit of Chinese Cell.
Lit. (2019): Break the 10kWh/kg Barrier.
Lit. (2018): Extended Energy Balance.
Lit. (2018): Very Low Energy Consumption Cell Design.
Lit. (2017): Cells for the Future.
Lit. (2016): Modeling Gravity Wave in 3D with Regular and Irregular Cathode Surfaces.
Book (2013): Essential Readings, Aluminum Reduction Technology.
Lit. (2005): Design of a 740 kA Cell.
Lit. (1996): Process Simulation of Aluminum Reduction Cells.
Eggen T.
Lit. (1997): Current Efficiency: Experimental and Modelling Studies.
Lit. (1994): Laboratory Study of Current Efficiency.
Einarsrud K. E.
Lit. (2011): Anodic Voltage Oscillations.
El-Dawi F. M.
Lit. (1999): Starving of Søderberg Cells.
Entner P. M.
Lit. (2019) HHCellVolt: an Improved Software Tool.
Lit. (2018): Extended Energy Balance.
Lit. (2010): ATab, Optimisation Anode Table Layout.
Lit. (1999): Education and Training Tool.
Lit. (1998): About ElyseSem/ElysePrg.
Lit. (1996): Control Bath Temperature.
Lit. (1995): Control Bath Temperature.
Fafard M.
Lit. (2017): Hydrodynamic, Thermoelectric 3D Model for Slotted Carbon Anode Efficiency.
Lit. (2017): FEA: Slot Size Effect on Thermal-Electrical Behaviour of Anode.
Fardeau S.
Lit. (2008): Last Development in AP50 Cell.
Fellner P.
Lit. (2010): Solubility of Aluminum.
Book (2001): Aluminium Electrolysis.
Lit. (1994): Electrical Conductivity.
Lit. (1993):Electrolyte Density.
Feng Yuging
Lit. (2012): Numerical Investigation of Bubble Resistance.
Fengqi Ding
Lit. (2014): 530kA Potline in North-Western China.
Fengqin Liu
Lit. (2012): Chinese Energy Saving Technologies.
Ferro C. M.
Lit. (1983): Surface Tension Na3AlF6 - Al2O3, Na3AlF6 - CaF2.
Figue J-P.
Lit. (2015): Arvida AP60 Development of Technology.
Fiot L.
Lit. (2013): Rio Tinto Alcan AP4X Low Energy Cell.
Fischer J-C.
Lit.(2014): Anode Management Options during Smelter Capacity Creep.
Fischer W. K.
Lit.(2014): Anode Management Options during Smelter Capacity Creep.
Lit.(2007): Production, Performance of Slotted Anodes.
Lit. (1999): Carbon Dust Generation.
Forté M.
Lit. (2015): Arvida AP60 Development of Technology.
Friesen K.
Galasiu I.
Galasiu R.
Gao Bingliang
Lit. (2015): Effect of Physicochemical Properties and Bath Chemistry on Alumina Dissolution Rate.
Gariepy R.
Lit. (2015): Arvida AP60 Development of Technology.
Gomes A.
Lit. (1996): Process Simulation of Aluminum Reduction Cells.
Gosselin E.
Lit. (2017): Hydrodynamic, Thermoelectric 3D Model for Slotted Carbon Anode Efficiency.
Lit. (2017): FEA: Slot Size Effect on Thermal-Electrical Behaviour of Anode.
Gritsko V. V.
Lit. (2007): Superheat, Aluminum Fluoride Control, MITELIK-System.
Grjotheim K.
Book (1993): Introduction Aluminium Electrolysis.
Lit. (1988): Predicting Bath Properties.
Book (1988): Aluminium Smelter Technology.
Lit. (1986): Model Cell Studies of Gas Induced Resistance.
Book (1982): Aluminium Electrolysis.
Book (1980): Aluminium Smelter Technology.
Gros N.
Lit. (2015): Arvida AP60 Development of Technology.
Groutzo T.
Lit. (2013): Composition and Thermal Analysis of Crust.
Lit. (2009): Aspects of Crust Formation.
Grunspan J.-J.
Lit. (2007): Anode Slots Cutting.
Gu Songqing
see Songqing Gu.
Guðmundsson G. A.
Lit. (1996): Control Bath Temperature.
Guirguis W.
Lit. (2001): Stability of A817 Pot at Portland Aluminum.
Guldbrandsen H.
Lit. (2011): Low Temperature Alumium Electrolysis.
Guo Long
see Long Guo.
Gusberti V.
Thesis (2014): Modelling the Mass and Energy Balance.
Lit. (2012): Modeling Mass and Energy Balance.
Lit. (2007): Modeling Bubble Driven Flow for Slotted Anode Design.
Lit. (2007): Low Water Stability Model for Anode Change Sequence.
Gustavsen Ø. T.
Lit. (2001): Effect of LiF on Vapor Pressure.
Haarberg G. M.
Book (2001): Aluminium Electrolysis.
Lit. (1994): Laboratory Study of Current Efficiency.
Haupin W.
Equation Equivalent Weight Ratio
Lit. (2002): Model Fluorine Evolution.
Lit. (2000): Thermodynamics of Alumina Reduction.
Lit. (1998): Cell Voltage Components.
Lit. (1996): Equivalent Ratio Haupin.
Lit. (1993): Model Fluorine Evolution.
Lit. (1984): Model Fluoride Evolution.
Haverkamp R. G.
Lit. (1994): Thermal Effects and Alumina Feeding.
Heinzmann U.
Lit. (1999): Carbon Dust Generation.
Hertzberg T.
Lit. (1980): Viscosity of molten NaF-AlF3-Al2O3-CaF2 mixtures.
Híveš J.
Book (2001): Aluminium Electrolysis.
Equation Electrical Conductivity.
Lit. (1994): Electrical Conductivity.
Homley G.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Homsi P.
Lit. (2001): AP50 Pechiney 500 kA Cell.
Lit. (2001): Alumina Requirements for Modern Smelters.
Hongliang Zhang
see Zhang Hongliang.
Hongmin Kan
see Kan Hongmin.
Hosler B.
Houston G. J.
Lit. (1988): Predicting Bath Properties.
Hu Xianwei
Lit. (2015): Effect of Physicochemical Properties and Bath Chemistry on Alumina Dissolution Rate.
Hudson A. K.
Lit. (2009): Aspects of Crust Formation.
Hui Dong
Lit. (2011): HEEP (High Energy Efficiency Pot) Technology.
Hulse K. L.
Lit. (1999): Carbon Dust Generation.
Hyde T. M.
Lit. (1997): Bubble Voltage I.
Hyland M. M.
Lit. (2001): Effects of Hydrogen Content of Anodes on HF Emissions.
Iffert M.
Lit. (2008): Challenges in Mass Balance Control.
Thesis (2007): Cell Control and Optimisation.
Lit. (2005): Reduce CO2 Footprint of Aluminum Smelters.
Lit. (2003): 9 Box Matrix Control.
Jacques A.
Lit. (2017): Hydrodynamic, Thermoelectric 3D Model for Slotted Carbon Anode Efficiency.
Lit. (2017): FEA: Slot Size Effect on Thermal-Electrical Behaviour of Anode.
Jensen E. A.
Jensen M.
Lit. (2007): Bubble Noise from Søderberg Pots.
Lit. (2007): Theory of Bubble Noise, Bath Height, Anode Quality.
Jessen S. W.
Thesis (2008): Mathematical Modeling of HH-Cell.
Jianhong Yang
Lit. (2012): Techno Economic Optimization Model.
Jianping Peng
Lit. (2018): Effect of Steel Multi-Collector Bars.
Lit. (2013): Liquidus Temperatures of Na3AlF6 Melts.
Jie Li
see Li Jie.
Jihong Mao
Lit. (2011): HEEP (High Energy Efficiency Pot) Technology.
Jilin Ding
see Ding Jilin.
Jingyi Li
Lit. (2012): Techno Economic Optimization Model.
Johnson A. R.
Jonqua B.
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Kaiyu Zhang
see Zhang Kaiyu.
Kalgraf K.
Lit. (2007): Bubble Noise from Søderberg Pots.
Lit. (2007): Theory of Bubble Noise, Bath Height, Anode Quality.
Kan Hongmin (阚洪敏)
Lit. (2007): Electrical Conductivity of Na3AlF6-AlF3-Al2O3-CaF2-LiF(NaCl)
Kasherman D.
Lit. (1991): Bubble Layer Resistivity and Gaseous Volume Fraction.
Kelchtermans R.
Lit. (2003): 9 Box Matrix Control.
Keniry J. T.
Lit. (2008): Aluminum Smelting Greenhouse Footprint.
Kielland V.
Lit. (2001): Effects of Hydrogen Content of Anodes on HF Emissions.
Kim J.
Kiss L. I.
Lit. (2012): Mechanism of Transport between Anode-Bath Interface and Active Bubble Generation Sites.
Lit. (2005): Simulation of Bubble Layer.
Lit. (2005): Bubble Movement under the Anode.
Lit. (2002): Bubble Growth and Voltage Fluctuations.
Lit. (1999): Modelling of Gas Bubble Growth.
Knizhnik V.
Lit. (2008): Mathematical Methods to Optimize Aluminium Production.
Lit. (2008): Numerical Methods for Aluminium Production.
Kobbeltvedt O.
Lit. (1996): Alumina Dissolution
Lit. (1995): Alumina Dissolution
Kolås S.
Equation Liquidus Temperature.
Lit. (2009): Bath Temperature and AlF3 Control.
Lit. (2007): Defining and Verifying the Correlation Line.
Lit. (2002): Impact of Conductivity on Control of Cells.
Krasovitsky A.
Lit. (2008): Sayanogorsk Amperage Increase.
Krohn C.
Book (1982): Aluminium Electrolysis.
Kübler S.
Lit. (1994): Thermal Effects and Alumina Feeding.
Kuschel G. I.
Lit. (2007): Crust and Alumina Powder Dissolution.
Thesis (1990): Effect of Alumina Properties on its Dissolution Behaviour.
Kuzakov A.A.
Lit. (2008): Mathematical Methods to Optimize Aluminium Production.
Kvande H.
Lit. (2011): 20th Century Inventions and Developments.
Lit. (2002): Model Fluorine Evolution.
Book (2001): Aluminium Electrolysis.
Lit. (2000): Thermodynamics of Alumina Reduction.
Book (1993): Introduction Aluminium Electrolysis.
Lit. (1993): Model Fluorine Evolution.
Laflamme F.
Lit. (2013): Rio Tinto Alcan AP4X Low Energy Cell.
Lai Yanqing
Lit. (2014): NiFe2O4-Based Cermet Inert Anodes.
Lit. (2013): Nonlinear Shallow-Water Model.
Laroche F.
Lee S. S.
Equation Liquidus Temperature.
Lit. (1984): Liquidus Temperature.
Lefrançois L.
Lit. (2015): Arvida AP60 Development of Technology.
Lei K.-S.
Lit. (1984): Liquidus Temperature.
Li Baokuan
see Baokuan Li.
Li Jie (李劼)
Lit. (2014): Chinese 400kA Reduction Cell.
Lit. (2014): NiFe2O4-Based Cermet Inert Anodes.
Lit. (2014): 530kA Potline in North-Western China.
Lit. (2013): Virtual Aluminum Reduction Cell.
Lit. (2013): Nonlinear Shallow-Water Model.
Li Linmin
see Linmin Li.
Li Zhiyou
Lit. (2014): NiFe2O4-Based Cermet Inert Anodes.
Liang Xuemin
see Xuemin Liang.
Liangwen Ren
Lit. (2014): 530kA Potline in North-Western China.
Lide D. R. (Editor-in-Chief)
Book (1997): Handbook of Chemistry and Physiscs.
Lifeng Zhang
see Zhang Lifeng.
Lillebuen B.
Lit. (1985): Current Efficiency and Alumina Concentration.
Lit. (1980): Current Efficiency and Back Reaction.
Lindsay S.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Linmin Li
Lit. (2018): Effect of Steel Multi-Collector Bars.
Liu Fengqin
see Fengqin Liu.
Liu Ming
Lit. (2015): Simulation and Measurements on 600 kA Pot.
Lit. (2015): CHINALCO 600 kA Cell Development.
Liu Shiwen
see Shiwen Liu.
Liu Wei
Lit. (2015): Simulation and Measurements on 600 kA Pot.
Lit. (2015): CHINALCO 600 kA Cell Development.
Liu Yafeng
Lit. (2015): Simulation and Measurements on 600 kA Pot.
Liu Yexiang (刘业翔)
Lit. (2014): Chinese 400kA Reduction Cell.
Lit. (2014): NiFe2O4-Based Cermet Inert Anodes.
Liu Youyuan
see Youyuan Liu.
Long Guo
Lit. (2014): 530kA Potline in North-Western China.
Lu Dingxiong
see Dingxiong Lu.
Mackey P.
Lit. (2012): Thermodynamic Models for Better Understanding and Optimizing.
Malinovský M.
Book (1982): Aluminium Electrolysis.
Mann V.
Lit. (2008): Sayanogorsk Amperage Increase.
Mantha I.
Lit. (2015): Arvida AP60 Development of Technology.
Mao Jihong
see Jihong Mao.
Marks J.
Lit. (2006): Calculating PFC Emissions.
Martin O.
Lit. (2009): AP50 Performances and New Development.
Meier M.
Lit. (2014): Anode Management Options during Smelter Capacity Creep.
Lit. (2007): Production, Performance of Slotted Anodes.
Meijia Sun
Lit. (2018): Effect of Steel Multi-Collector Bars.
Mellerud Th.
Lit. (1985): Current Efficiency and Alumina Concentration.
Mezin H.
Lit. (2008): Last Development in AP50 Cell.
Ming Liu
see Liu Ming.
Mishra L.
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Lit. (2013): Energy and Mass Balance in DX+ Cells.
Mohanarangam K.
Lit. (2013): Electrolytic Bubble Behaviour.
Morphett A.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Morsi Y.
Lit. (2013): Electrolytic Bubble Behaviour.
Moura R. R.
Lit. (2007): Modeling Bubble Driven Flow for Slotted Anode Design.
Moxnes B. P.
Müller-Steinhagen H.
Lit. (1994): Thermal Effects and Alumina Feeding.
Myrvold E.
Lit. (2007): Effect of Slotted Anodes on Parameters of PB-Line.
Nahoum F.
Lit. (2001): Stability of A817 Pot at Portland Aluminum.
Naijun Zhou
Lit. (2010): Hologram Simulation of Aluminum Reduction Cells.
Naixiang Feng
Lit. (2013): Liquidus Temperatures of Na3AlF6 Melts.
Nasipuri T. K.
Lit. (2008): Method of Measuring the Liquidus and Bath Temperature.
Osen K. S.
Lit. (2011): HF Measurements Inside Electrolysis Cell.
Østvold T.
Lit. (2001): Effect of LiF on Vapor Pressure.
Lit. (1983): Surface Tension Na3AlF6 - Al2O3, Na3AlF6 - CaF2.
Ouellet B.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Øye H. A.
Lit. (1980): Viscosity of molten NaF-AlF3-Al2O3-CaF2 mixtures.
Pagé M.
Lit (2016): Modeling Gravity Wave in 3D with Regular and Irregular Cathode Surfaces.
Patterson E. C.
Lit. (2001): Effects of Hydrogen Content of Anodes on HF Emissions.
Thesis (2001): Fluoride Emissions.
Pearson T. G.
Lit. (1947): Current Efficiency Loss.
Pedersen T. B.
Lit. (2007): Bubble Noise from Søderberg Pots.
Lit. (2007): Theory of Bubble Noise, Bath Height, Anode Quality.
Pelton A.
Lit. (2002): Predictive Thermodynamic Model for Al-NaF-AlF3-CaF2-Al2O3.
Peng Jianping
see Jianping Peng.
Perron A.
Lit. (2005): Bubble Movement under the Anode.
Perruchoud R. C.
Lit.(2014): Anode Management Options during Smelter Capacity Creep.
Lit.(2007): Production, Performance of Slotted Anodes.
Lit. (1999): Carbon Dust Generation.
Peterson R. D.
Equation Liquidus Temperature.
Lit. (1993): Electrical Conductivity.
Lit. (1991): Dissolved Metals in Cryolite.
Lit. (1991): Influence of Dissolved Metals on Current Efficiency.
Lit. (1987): Liquidus Temperature.
Pietrzyk S.
Lit. (2008): Inert Anodes Anodic Overvoltage.
Lit. (2008): Inert Anodes Effect ACD on Electric Bath Resistivity.
Pinto E. C. V.
Lit. (2007): Modeling Bubble Driven Flow for Slotted Anode Design.
Lit. (2007): Low Water Stability Model for Anode Change Sequence.
Piskazhova T. V.
Lit. (2007): Superheat, Aluminum Fluoride Control, MITELIK-System.
Polyakov P. V.
Lit. (2007): Superheat, Aluminum Fluoride Control, MITELIK-System.
Poncsák S.
Lit. (2012): Mechanism of Transport between Anode-Bath Interface and Active Bubble Generation Sites.
Lit. (2005): Simulation of Bubble Layer.
Lit. (2005): Bubble Movement under the Anode.
Lit. (2002): Bubble Growth and Voltage Fluctuations.
Lit. (1999): Modelling of Gas Bubble Growth.
Porto S.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Potočnik V.
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Lit. (2013): Energy and Mass Balance in DX+ Cells.
Proulx G.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Przybycien D. D.
Lit. (1986): Liquidus Temperature.
Purdie J.
Lit. (2001): Stability of A817 Pot at Portland Aluminum.
Puzanov I.
Lit. (2008): Sayanogorsk Amperage Increase.
Quenn Q. Zhou
see Zhou Quenn Q..
Qi Xiquan
see Xiquan Qi.
Qingchen Yang
Lit. (2011): HEEP (High Energy Efficiency Pot) Technology.
Quinsong Zhang
see Zhang Quinsong.
Qiu Zhuxian (邱竹贤)
Lit. (2007): Electrical Conductivity of Na3AlF6-AlF3-Al2O3-CaF2-LiF(NaCl)
Ramadan Z. M.
Lit. (1999): Starving of Søderberg Cells.
Ranum V.
Lit. (1997): Bubble Voltage II.
Ren Liangwen
see Liangwen Ren.
Renaudier S.
Lit. (2008): Last Development in AP50 Cell.
Reverdy M.
Lit. (2014): DUBAL Low Energy, High Amperage Cells.
Richards N. E.
Lit. (1994): Electrical Conductivity.
Rieck T.
Lit. (2003): 9 Box Matrix Control.
Ritter Ch.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Robitaille M.
Lit. (2015): Arvida AP60 Development of Technology.
Rodrigo R.
Lit. (2003): 9 Box Matrix Control.
Rogers J. N.
Rolseth S.
Lit. (2011): Low Temperature Alumium Electrolysis.
Lit. (1996): Liquidus Temperatures.
Lit. (1996): Alumina Dissolution
Lit. (1995): Liquidus Temperature.
Lit. (1995): Alumina Dissolution
Lit. (1988): Alumina Dissolution.
Romerio M. V.
Lit.(2013): Impact of MHD and Bubbles Forces on Alumina Concentration.
Røstum A.
Equation Liquidus Temperature.
Lit. (1990): Liquidus Temperature.
Rousar I.
Lit. (1997): Modelling Current Distribution and Anode Shape.
Roy R.R.
Rye K.
Lit. (2007): Effect of Slotted Anodes on Parameters of PB-Line.
Sandnes E.
Lit. (2011): Anodic Voltage Oscillations.
Sayad-Yaghoubi Y.
Lit. (2011): Theromdynamic Data for Carbothermic Smelting.
Schmidt-Hatting W.
Lit. (1999): Carbon Dust Generation.
Schneider A. F.
Lit. (2007): Low Water Stability Model for Anode Change Sequence.
Schwarz M. P.
Lit. (2012): Numerical Investigation of Bubble Resistance.
Severo D. S.
Lit. (2012): Modeling Mass and Energy Balance.
Lit. (2007): Modeling Bubble Driven Flow for Slotted Anode Design.
Lit. (2007): Low Water Stability Model for Anode Change Sequence.
Shi Zhongning (石忠宁)
Lit. (2015): Effect of Physicochemical Properties and Bath Chemistry on Alumina Dissolution Rate.
Lit. (2007): Electrical Conductivity of Na3AlF6-AlF3-Al2O3-CaF2-LiF(NaCl)
Shilin Qiu
Lit. (2012): Techno Economic Optimization Model.
Shiwen Liu
Lit. (2014): 530kA Potline in North-Western China.
Shuai Yang
see Yang Shuai.
Silný A.
Lit. (1996): Density, Electrical Conductivity, Viscosity of Baths.
Lit. (1995): Electrolyte Density.
Lit. (1993): Electrolyte Density.
Skar O.
Lit. (1988): Alumina Dissolution.
Skybakmoen E.
Lit. (2011): HF Measurements Inside Electrolysis Cell.
Lit. (1997): Maximal Alumina Solubility.
Lit. (1997): Current Efficiency: Experimental and Modelling Studies.
Lit. (1996): Liquidus Temperatures.
Lit. (1995): Liquidus Temperature.
Lit. (1994): Laboratory Study of Current Efficiency.
Lit. (1990): Alumina Solubility.
Skyllas-Kazacos M.
Lit. (2012): Modeling Mass and Energy Balance.
Lit. (2009): Reduce CO2 Footprint of Aluminum Smelters.
Lit. (2005): Challenges in Mass Balance Control.
Lit. (1991): Bubble Layer Resistivity and Gaseous Volume Fraction.
Solheim A.
Lit. (2016): Polyvalent Impurities and Current Efficiency (Model).
Lit. (2014): Design Criterion for Alumina Feeders.
Lit. (2014): Current Efficiency: Theories, Models, Concepts, Speculations.
Lit. (2011): HF Measurements Inside Electrolysis Cell.
Lit. (2007): Effect of Slotted Anodes on Parameters of PB-Line.
Lit. (2002): Crystallization of Cryolite and Alumina at Metal-Bath Interface.
Lit. (2000): Electrolyte Density.
Lit. (1999): Activity of Alumina in the System NaF - AlF3 - Al2O3.
Lit. (1997): Maximal Alumina Solubility.
Lit. (1996): Liquidus Temperatures.
Lit. (1995): Liquidus Temperature.
Lit. (1990): Liquidus Temperature.
Lit. (1990): Alumina Solubility.
Lit. (1988): Alumina Dissolution.
Lit. (1986): Model Cell Studies of Gas Induced Resistance.
Equation Liquidus Temperature.
Solli P. A.
Lit. (1997): Current Efficiency: Experimental and Modelling Studies.
Lit. (1994): Laboratory Study of Current Efficiency.
Sommerseth C.
Lit. (2011): HF Measurements Inside Electrolysis Cell.
Songqing Gu
Lit. (2012): Chinese Energy Saving Technologies.
Sterten Å.
Book (2001): Aluminium Electrolysis.
Lit. (1999): Activity of Alumina in the System NaF - AlF3 - Al2O3.
Lit. (1997): Maximal Alumina Solubility.
Lit. (1997): Current Efficiency: Experimental and Modelling Studies.
Lit. (1996): Liquidus Temperatures.
Lit. (1995): Liquidus Temperature.
Lit. (1994): Electrical Conductivity.
Lit. (1994): Laboratory Study of Current Efficiency.
Lit. (1990): Liquidus Temperature.
Lit. (1990): Alumina Solubility.
Støen L.
Lit. (1996): Liquidus Temperatures.
Lit. (1995): Liquidus Temperature.
Støre T.
Lit. (2009): Bath Temperature and AlF3 Control.
Lit. (2002): Impact of Conductivity on Control of Cells.
Lit. (1996): Liquidus Temperatures.
Lit. (1995): Liquidus Temperature.
Sun Meijia
see Meijia Sun.
Sýkorová A.
Lit. (2010): Solubility of Aluminum.
Tabereaux A. T.
Equation Equivalent Weight Ratio.
Lit. (2019): Innovations Transforming Aluminum Smelting.
Lit. (2011): 20th Century Inventions and Developments.
Lit. (2000): Observations of Anode Overvoltage and Gas Bubbling.
Lit. (2000): Prebake Cell Technology: A Global Review.
Lit. (1994): Electrical Conductivity.
Lit. (1993): Electrical Conductivity.
Lit. (1993): Equivalent Ratio.
Lit. (1991): Dissolved Metals in Cryolite.
Lit. (1987): Liquidus Temperature.
Tabsh I.
Lit. (1996): Process Simulation of Aluminum Reduction Cells.
Tarakanov A. V.
Lit. (2007): Superheat, Aluminum Fluoride Control, MITELIK-System.
Tarcy G. P.
Book (2013): Essential Readings, Aluminum Reduction Technology.
Lit. (2011): 20th Century Inventions and Developments.
Lit. (2011): Active Pot Control with Alcoa STARProbe.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Taylor M. P.
Lit. (2014): Melting Behaviour of Crust.
Lit. (2013): Composition and Thermal Analysis of Crust.
Lit. (2009): Aspects of Crust Formation.
Lit. (2008): Resistance Due to Gas Bubbles.
Lit. (1992): Thermochemical Energy Calculations.
Lit. (1988): Predicting Bath Properties.
Thibeault P.
Lit. (2013): Rio Tinto Alcan AP4X Low Energy Cell.
Thonstad J.
Lit. (2011): Low Temperature Alumium Electrolysis.
Lit. (2010): Solubility of Aluminum.
Book (2001): Aluminium Electrolysis.
Lit. (1997): Modelling Current Distribution and Anode Shape.
Lit. (1996): Alumina Dissolution
Lit. (1995): Alumina Dissolution
Lit. (1994): Electrical Conductivity.
Lit. (1988): Alumina Dissolution.
Book (1982): Aluminium Electrolysis.
Tian Zhongliang
Lit. (2014): NiFe2O4-Based Cermet Inert Anodes.
Toguri J. M.
Tomasino T.
Lit. (2009): AP50 Performances and New Development.
Tørklep K.
Lit. (1980): Viscosity of molten NaF-AlF3-Al2O3-CaF2 mixtures.
Trembley L.
Lit. (1993): Equivalent Ratio.
Trudel R.
Lit. (2017): Impact Anode Size, Amperage Creep on Anode Management.
Utigard T. A.
Lit. (2002): Visualizing Gas Evolution
Lit. (1996): Density, Electrical Conductivity, Viscosity of Baths.
Vanvoren C.
Lit. (2001): AP50 Pechiney 500 kA Cell.
Verstreken P.
Lit. (2001): Liquidus Temperature, Superheat Sensor.
Lit. (1997): Liquidus Temperature, Superheat Sensor.
Lit. (1996): Liquidus Temperature, Superheat Sensor.
Veselkov V.V.
Lit. (2008): Mathematical Methods to Optimize Aluminium Production.
Vilela A. C. F.
Lit. (2007): Low Water Stability Model for Anode Change Sequence.
Vincent B.
Lit. (2017): Impact Anode Size, Amperage Creep on Anode Management.
Volokhov I. N.
Lit. (2007): Superheat, Aluminum Fluoride Control, MITELIK-System.
von Kaenel R.
Lit.(2014): Anode Management Options during Smelter Capacity Creep.
Lit.(2013): Impact of MHD and Bubbles Forces on Alumina Concentration.
Lit.(2006): de Nora Inert Anode: Technical and Economical Evaluation.
Waddington J.
Lit. (1947): Current Efficiency Loss.
Wai-Poi N.
Lit. (1994): Thermal Effects and Alumina Feeding.
Wang Liming
Equation Electrical Conductivity.
Lit. (1994): Electrical Conductivity.
Wang Xiangwen
Equation Electrical Conductivity.
Lit. (2011): Active Pot Control with Alcoa STARProbe.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
Lit. (2000): Observations of Anode Overvoltage and Gas Bubbling.
Lit. (1993): Electrical Conductivity.
Lit. (1991): Dissolved Metals in Cryolite.
Lit. (1991): Influence of Dissolved Metals on Current Efficiency.
Wang Yufeng
Lit. (2009): Fluid Flow and Bubble Behavior.
Wang Zhaowen (王兆文)
Lit. (2015): Effect of Physicochemical Properties and Bath Chemistry on Alumina Dissolution Rate.
Lit. (2012): Numerical Investigation of Bubble Resistance.
Lit. (2007): Electrical Conductivity of Na3AlF6-AlF3-Al2O3-CaF2-LiF(NaCl)
Wangxing Li
Lit. (2012): Techno Economic Optimization Model.
Wei Liu
see Liu Wei.
Welch B. J.
Lit. (2020): Development of Anode Shape, Size and Assembly Designs.
Lit. (2017): Cells for the Future.
Lit. (2012): Specific Energy Consumption and Energy Balance.
Lit. (2012): Developments to Enhance Aluminum Smelting Technology.
Lit. (2012): Crust and Alumina Dissolution.
Lit. (2012): Modeling Mass and Energy Balance.
Lit. (2009): Status of Inert Anodes Material Science.
Lit. (2008): Reduce CO2 Footprint of Aluminum Smelters.
Lit. (2007): Crust and Alumina Powder Dissolution.
Lit. (2005): Challenges in Mass Balance Control.
Lit. (2001): Effects of Hydrogen Content of Anodes on HF Emissions.
Lit. (1997): Bubble Voltage I.
Lit. (1997): Bubble Voltage II.
Lit. (1994): Thermal Effects and Alumina Feeding.
Lit. (1992): Thermochemical Energy Calculations.
Book (1988): Aluminium Smelter Technology.
Book (1980): Aluminium Smelter Technology.
Whelan S.
Lit. (2007): Development, Deployment of Slotted Anode Technology.
White P.
Lit. (2003): 9 Box Matrix Control.
Lit. (2001): Liquidus Temperature, Superheat Sensor.
Williams D. J.
Lit. (1988): Predicting Bath Properties.
Williamson K.
Lit. (1997): Bubble Voltage II.
Witt P.
Lit. (2012): Numerical Investigation of Bubble Resistance.
Wood G.
Lit. (2011): Active Pot Control with Alcoa STARProbe.
Wu Bing
Lit. (2013): Virtual Aluminum Reduction Cell.
Xi Canming
Lit. (2011): Overview High Efficiency Energy Saving.
Lit. (2011): High Efficiency Energy Saving Technologies.
Xianwei Hu
see Hu Xianwei.
Xiaodong Yang
see Yang Xiaodong.
Xiping Chen
Lit. (2014): 530kA Potline in North-Western China.
Xiquan Qi
Lit. (2011): HEEP (High Energy Efficiency Pot) Technology.
Xu P.
Lit. (1984): Liquidus Temperature.
Xu Yujie (徐宇杰)
Lit. (2014): Chinese 400kA Reduction Cell.
Lit. (2013): Nonlinear Shallow-Water Model.
Xuemin Liang
Lit. (2014): 530kA Potline in North-Western China.
Yafeng Liu
see Liu Yafeng.
Yanfang Zhang
Lit. (2012): Techno Economic Optimization Model.
Yang Qingchen
see Qingchen Yang.
Yang Shuai (杨帅)
Lit. (2014): Chinese 400kA Reduction Cell.
Yang W.
Lit. (2013): Electrolytic Bubble Behaviour.
Lit. (2012): Numerical Investigation of Bubble Resistance.
Yang Xiaodong
Lit. (2015): Simulation and Measurements on 600 kA Pot.
Yang Yiandong
Lit. (2013): Composition and Thermal Analysis of Crust.
Yang Youjiang
Lit. (2015): Effect of Physicochemical Properties and Bath Chemistry on Alumina Dissolution Rate.
Yanqing Lai
see Lai Yanqing.
Yexiang Liu
see Liu Yexiang.
Youjiang Yang
see Yang Youjiang.
Youyuan Liu
Lit. (2014): 530kA Potline in North-Western China.
Ytterdahl S. A.
Lit. (1980): Current Efficiency and Back Reaction.
Yuezhong Di
Lit. (2013): Liquidus Temperatures of Na3AlF6 Melts.
Yuging Feng
see Feng Yuging.
Yujie Xu
see Xu Yujie.
Yungang Ban
see Ban Yungang .
Yunbin Bai
Lit. (2013): Liquidus Temperatures of Na3AlF6 Melts.
Zarouni Abdulla
see Al Zarouni Abdalla.
Zelberg B.I.
Lit. (2008): Mathematical Methods to Optimize Aluminium Production.
Zhang Hongliang (张红亮)
Lit. (2014): Chinese 400kA Reduction Cell.
Lit. (2013): Virtual Aluminum Reduction Cell.
Lit. (2013): Nonlinear Shallow-Water Model.
Zhang Kaiyu
Lit. (2012): Numerical Investigation of Bubble Resistance.
Zhang Lifeng
Lit. (2009): Fluid Flow and Bubble Behavior.
Zhang Quinsong
Lit. (2014): Melting Behaviour of Crust.
Lit. (2013): Composition and Thermal Analysis of Crust.
Zhaowen Wang
see Wang Zhaowen.
Zhiyou Li
see Li Zhiyou.
Zhongliang Tian
see Tian Zhongliang.
Zhongning Shi
see Shi Zhongning.
Zhou Dongfang
Lit. (2015): Simulation and Measurements on 600 kA Pot.
Lit. (2015): CHINALCO 600 kA Cell Development.
Zhou Quenn Q.
Lit. (2013): Virtual Aluminum Reduction Cell.
Zhuxian Qiu
see Qiu Zhuxian.
Zoric J.
Lit. (1997): Modelling Current Distribution and Anode Shape.
Zuo Xiangjun