Profesor Leszek Rostwo-Suski (1930–2007) inicjator badań nad ogniwami paliwowymi w Polsce

• Authors: STOCH Leszek

Title variants

EN

Professor Leszek Rostwo-Suski (1930–2007) Initiator of research on fuel cells in Poland

• Conference: SESJA NAUKOWA ZORGANIZOWANA PRZEZ KOMISJĘ HISTORII NAUKI PAU I OBSERWATORIUM ASTRONOMICZNE UJ. W 215. rocznicę założenia przez Jana Śniadeckiego Obserwatorium Astronomicznego (9 V 2007)
• Languages of publication: PL EN

Abstracts

EN

The biography of the professor Leszek Rostwo-Suski, a scientist who specialized in the research on fuel cells and processes taking place in it, have been presented. He was distinguished by the noble personality and strength of character. He was able to combine scientific achievements with successes in sport. He was an Olympian, a swordsman, who won medals in world championships in fencing. His scientific achievements and the single chamber solid oxide fuel cell for gaseous fuels, including biogas, proposed by him have been presented.

• Publisher: Polska Akademia Umiejętności
• Journal: Prace Komisji Historii Nauki PAU
• Year: 2010
• Volume: 10
• Pages: 361-374

Dates

cover

2010

Contributors

author

STOCH Leszek

References

• Suski L., Bieniasz L., Gil A., Wyrwa J., Kinetics of anodic processes in molten carbonate fuel cell. I. Voltammetry of hydrogen on Pt electrodes in molten carbonates + solid matrix electrolytes, Pol. J. Chem., 56, 1465 (1982).
• Bieniasz L., Suski L., Kinetics of anodic processes in molten carbonate fuel cell. II. Nonstationary equations for diffusion controlled second order electrochemical processes: Red + A = Ox1 + Ox2 +ne, Pol. J. Chem., 57, 161 (1983).
• Jewulski J., Suski L., Model of isotropic anode in the molten carbonate fuel cell, J. Appl. Electrochem., 14, 135 (1984).
• Suski L., Wutke A., Simulation of homogeneous water gas shift reaction – kinetics and mechanism, Bull. Acad. Polon. Sci. Chem., 34, 463 (1986).
• Suski L., Obłąkowski J., Tomczyk P., The electrochemical ionization of oxygen and carbon dioxide on the CoO+Li2 O monocrystalline electrode in molten carbonates, Ceramics International, 13, 197 (1987).
• Bieniasz L., Suski L., Simulation of cyclic voltammetry for the linked mechanism of the hydrogen electrode reaction in molten carbonates, J. Electroanal. Chem., 249, 155 (1988).
• Suski L., Tomczyk P., Mordarski G., Obłąkowski J., Oxygen electrode reaction at Au an at semiconductor monocrystalline NiO and CoO electrodes in molten carbonates, Bull. Electrochem., 4, 635 (1988).
• Suski L., Wyrwa J., The addition of aluminum oxide to the nickel anodes for a molten carbonate fuel cell, J. Appl. Electrochem., 20, 625 (1990).
• Suski L., Wyrwa J., Kłusek S., Elektrochemiczny generator prądu z elektrolitem ze stopionych węglanów, Przemysł Chemiczny, 69, 370 (1990).
• Godula-Jopek A., Suski L., Wetting behavior of molten alkali carbonates on Au interface under various gas atmospheres, Pol. J. Chem., 72, 1045 (1998).
• Suski L., Godula-Jopek A., Obłąkowski J., Wetting of Ni and NiO by alternative molten carbonate fuel cell electrolytes. I. Influence of gas atmosphere, J. Electrochem. Soc., 146, 4048 (1999).
• Godula-Jopek A., Suski L., Wetting of Ni and NiO by alternative molten carbonate fuel cell electrolytes. II. Influence of the electrode overpotential, J. Electrochem. Soc., 147, 910 (2000).
• Suski L., Ruggiero M., Electrochemical determination of the thermodissociation equilibrium in molten Li+Na carbonates, Electrochemical and Solid-State Letters, 2, 579 (1999).
• Ruggiero M., Kołacz J., Suski L., Electromotive force of the galvanic cell with double, YSZ/molten alkali carbonates electrolyte, as dependent on CO2 and O2 partial pressures, Molecular Physics Report, 35, 59 (2002).
• Suski L., Tarniowy M., The phase stability of solid LiAlO2 used for the electrolyte matrix of molten carbonate fuel cell, J. Mater. Sci. Chem., 36, 5119 (2001).
• Danek V., Tarniowy M.,. Suski L., Kinetics of the α→γ-phase transformation in LiAlO2 under various atmospheres, within the 1073–1173 K temperature range, J. Mater. Sci. Chem., 39, 2429 (2004).
• Suski L., Kołacz J., Mordarski G., Ruggiero M., Determination of open-circuit-potentials at gas/electrode/YSZ boundary vs. molten carbonate reference electrode at medium temperatures. I. Potentials of Au and Pt electrodes in O2 and H2 +H2 O atmospheres, Electrochim Acta, przyjęte do druku.
• Mordarski G., Suski L., Ruggiero M., Kołacz J., Wyrwa J., Determination of open-circuitpotentials at gas/electrode/YSZ boundary vs. molten carbonate reference electrode at medium temperatures. II. Potential response of Au, Pt and Ni-cermet electrodes in H2+O2 and CH4+O2 gas mixtures, Electrochim Acta, przyjęte do druku.
• Mordarski G., Suski L., Kołacz J., Ruggiero M., Electrode open circuit potentials and oxidation process at Au and Pt electrodes/solid oxide electrolyte interfaces in common methane+air gas mixture, Pol. J. Chem., zgłoszone do druku.
• Jewulski J., Suski L., Chemical Equilibrium diagrams relevant to the molten carbonate Fuell Cell - CHO gas + molten alkali carbonates + metal oxides heterogeneous systems, Thermochemical Data for Technology, Series B, Polish Academy of Sciences – Institute of Physical Chemistry, Warsaw, 1985.
• Suski L., The equilibrium thermodynamics aspects of the molten carbonate fuel cell, Thermochim. Acta, 245, 37 (1994).
• Suski L., Reaction of the hydrogen electrode in molten alkali carbonates, Polish J. Chem., 71, 407 (1997).
• Suski L., Kołacz J., Mordarski G., Ruggiero M., Determination of open-circuit-potentials at gas/electrode/YSZ boundary vs. molten carbonate reference electrode at medium temperatures. I. Potentials of Au and Pt electrodes in O2 and H2 +H2 O atmospheres, Electrochim Acta, przyjęte do druku.
• Mordarski G., Suski L., Ruggiero M., Kołacz J., Wyrwa J., Determination of open-circuitpotentials at gas/electrode/YSZ boundary vs. molten carbonate reference electrode at medium temperatures. II. Potential response of Au, Pt and Ni-cermet electrodes in H2 +O2 and CH4 +O2 gas mixtures, Electrochim Acta, przyjęte do druku.
• Mordarski G., Suski L., Kołacz J., Ruggiero M., Electrode open circuit potentials and oxidation process at Au and Pt electrodes/solid oxide electrolyte interfaces in common methane+air gas mixture, Pol. J. Chem., zgłoszone do druku.