Symposium FB
Hydrogen Production and Storage
Programme Chair:
Amelia MONTONE, ENEA, Italy
Members:
Etsuo AKIBA, Kyushu University, Japan
Marcello BARICCO, Università di Torino, Italy
Ping CHEN, Dalian Institute of Chemical Physics, China
Fermin CUEVAS, Institut Chimie et Matériaux Paris Est - CNRS, France
Bernard DAM, Delft University of Technology, Netherlands
Bill DAVID, Rutherford Appleton Laboratory, UK
Petra E. DE JONGH, Utrecht University, Netherlands
Peter P. EDWARDS, Oxford University, UK
Dan ELIEZER, Ben Gurion University of the Negev, Israel
Yaroslav FILINCHUK, Université Catholique de Louvain, Belgium
George E. FROUDAKIS, University of Crete, Greece
Z. Xiao GUO, University College London, UK
Michael J. HEBEN, University of Toledo & NREL, USA
Michael HIRSCHER, Max Planck Institut for Intelligent Systems, Germany
Jacques HUOT, Université du Québec à Trois-Rivières, Canada
I.P. JAIN, University of Rajasthan, India
Puru JENA, Virginia Commonwealth University, USA
Craig M. JENSEN, University of Hawai at Manoa, USA
Torben René JENSEN, Aarhus University, Denmark
J. Karl JOHNSON, University of Pittsburgh, USA
Yoshitsugu KOJIMA, Hiroshima University, Japan
Michel LATROCHE, ICMPE-CNRS, France
Huen LEE, KAIST, Korea
Jeffrey R. LONG, University of California, Berkeley, USA
G.Q. Max LU, University of Queensland, Australia
Darius MILCIUS, Lithuanian Energy Institute, Lithuania
Nazim MURADOV, University of Central Florida, USA
Yumiko NAKAMURA, AIST, ETRI, Japan
Dag NOREUS, Stockholm University, Sweden
Shin-ichi ORIMO, Tohoku University, Japan
Hongge PAN, Zhejiang University, China
Ewa RONNEBRO, Pacific Northwest National Laboratory, USA
Aldo STEINFELD, ETH Zurich & Paul Scherrer Institut, Switzerland
Ned STETSON, U.S. Department of Energy, USA
Qiang SUN, Peking University, China
Tejs VEGGE, Technical University of Denmark, Denmark
Gavin WALKER, University of Nottingham, UK
Chris WOLVERTON, Northwestern University, USA
Irene YAROVSKY, RMIT University, Australia
Ragaiy ZIDAN, Savannah River National Laboratory, USA
Andreas ZÜTTEL, EMPA, Switzerland
Amelia MONTONE, ENEA, Italy
Members:
Etsuo AKIBA, Kyushu University, Japan
Marcello BARICCO, Università di Torino, Italy
Ping CHEN, Dalian Institute of Chemical Physics, China
Fermin CUEVAS, Institut Chimie et Matériaux Paris Est - CNRS, France
Bernard DAM, Delft University of Technology, Netherlands
Bill DAVID, Rutherford Appleton Laboratory, UK
Petra E. DE JONGH, Utrecht University, Netherlands
Peter P. EDWARDS, Oxford University, UK
Dan ELIEZER, Ben Gurion University of the Negev, Israel
Yaroslav FILINCHUK, Université Catholique de Louvain, Belgium
George E. FROUDAKIS, University of Crete, Greece
Z. Xiao GUO, University College London, UK
Michael J. HEBEN, University of Toledo & NREL, USA
Michael HIRSCHER, Max Planck Institut for Intelligent Systems, Germany
Jacques HUOT, Université du Québec à Trois-Rivières, Canada
I.P. JAIN, University of Rajasthan, India
Puru JENA, Virginia Commonwealth University, USA
Craig M. JENSEN, University of Hawai at Manoa, USA
Torben René JENSEN, Aarhus University, Denmark
J. Karl JOHNSON, University of Pittsburgh, USA
Yoshitsugu KOJIMA, Hiroshima University, Japan
Michel LATROCHE, ICMPE-CNRS, France
Huen LEE, KAIST, Korea
Jeffrey R. LONG, University of California, Berkeley, USA
G.Q. Max LU, University of Queensland, Australia
Darius MILCIUS, Lithuanian Energy Institute, Lithuania
Nazim MURADOV, University of Central Florida, USA
Yumiko NAKAMURA, AIST, ETRI, Japan
Dag NOREUS, Stockholm University, Sweden
Shin-ichi ORIMO, Tohoku University, Japan
Hongge PAN, Zhejiang University, China
Ewa RONNEBRO, Pacific Northwest National Laboratory, USA
Aldo STEINFELD, ETH Zurich & Paul Scherrer Institut, Switzerland
Ned STETSON, U.S. Department of Energy, USA
Qiang SUN, Peking University, China
Tejs VEGGE, Technical University of Denmark, Denmark
Gavin WALKER, University of Nottingham, UK
Chris WOLVERTON, Northwestern University, USA
Irene YAROVSKY, RMIT University, Australia
Ragaiy ZIDAN, Savannah River National Laboratory, USA
Andreas ZÜTTEL, EMPA, Switzerland
Etsuo AKIBA, Kyushu University, Japan
Andreas BORGSCHULTE, EMPA, Switzerland
Ping CHEN, Dalian Institute of Chemical Physics, China
Huub DE GROOT, Leiden University, Netherlands
Petra E. DE JONGH, Utrecht University, Netherlands
Martin DORNHEIM, Helmholtz-Zentrum Geesthacht, Germany
Alexander GOLDBERG, Schrödinger Inc., USA
Nobuko HANADA, University of Tsukuba, Japan
Bjorn HAUBACK, Institute for Energy Technology, Norway
Puru JENA, Virginia Commonwealth University, USA
J. Karl JOHNSON, University of Pittsburgh, USA
Angel LINARES-SOLANO, University of Alicante, Spain
Anthony McDANIEL, Sandia National Laboratories, USA
Hiroki MIYAOKA, Hiroshima University, Japan
Shin-ichi ORIMO, Tohoku University, Japan
Aldo STEINFELD, ETH Zurich, Switzerland
Myunghyun Paik SUH, Seoul National University, Korea
Roel VAN DE KROL / Fatwa F. ABDI, Helmholtz Zentrum Berlin, Germany
Gavin WALKER, University of Nottingham, UK
Chris WOLVERTON, Northwestern University, USA
Andreas ZÜTTEL, EMPA, Switzerland
Andreas BORGSCHULTE, EMPA, Switzerland
Ping CHEN, Dalian Institute of Chemical Physics, China
Huub DE GROOT, Leiden University, Netherlands
Petra E. DE JONGH, Utrecht University, Netherlands
Martin DORNHEIM, Helmholtz-Zentrum Geesthacht, Germany
Alexander GOLDBERG, Schrödinger Inc., USA
Nobuko HANADA, University of Tsukuba, Japan
Bjorn HAUBACK, Institute for Energy Technology, Norway
Puru JENA, Virginia Commonwealth University, USA
J. Karl JOHNSON, University of Pittsburgh, USA
Angel LINARES-SOLANO, University of Alicante, Spain
Anthony McDANIEL, Sandia National Laboratories, USA
Hiroki MIYAOKA, Hiroshima University, Japan
Shin-ichi ORIMO, Tohoku University, Japan
Aldo STEINFELD, ETH Zurich, Switzerland
Myunghyun Paik SUH, Seoul National University, Korea
Roel VAN DE KROL / Fatwa F. ABDI, Helmholtz Zentrum Berlin, Germany
Gavin WALKER, University of Nottingham, UK
Chris WOLVERTON, Northwestern University, USA
Andreas ZÜTTEL, EMPA, Switzerland
Hydrogen obtained from dissociation of water with renewable energy, nuclear or the water-gas shift reaction in advanced gasification technologies provided with CO2 capture and sequestration, has been identified as one of the strategic technologies for an appealing, clean, abundant, safe and cost effective energy carrier for a low carbon economy.
Implementing hydrogen as an environmentally friendly, sustainable and efficient energy carrier, however requires major problems for its production, storage and use to be solved. Breakthroughs in materials research to find effective robust catalysts and new storage techniques that satisfy weight, volumetric, safety and cost requirements are critical for hydrogen to perform competitively. Crucial is gaining a deeper understanding of the phenomena that govern the interactions of hydrogen with materials, to exploit the enormous opportunities offered by nanotechnology and to develop modelling and simulation strategies for predicting reaction pathways, materials properties and systems behaviours in order to minimise lengthy and expensive trial-and-error experiments.
"Hydrogen Production and Storage" will bring together world leading experts from Physics, Chemistry, Materials Science and Engineering to share up-to-date scientific and technical advances in the field, and to highlight outstanding problems and guidelines for future research. Fundamental aspects of catalysis, separation and purification processes; chemistry and physics of hydrogen bonding, adsorption and release mechanisms; materials synthesis, processing and characterisation; system implementation and performance evaluation including safety and economics issues will be featured.
Implementing hydrogen as an environmentally friendly, sustainable and efficient energy carrier, however requires major problems for its production, storage and use to be solved. Breakthroughs in materials research to find effective robust catalysts and new storage techniques that satisfy weight, volumetric, safety and cost requirements are critical for hydrogen to perform competitively. Crucial is gaining a deeper understanding of the phenomena that govern the interactions of hydrogen with materials, to exploit the enormous opportunities offered by nanotechnology and to develop modelling and simulation strategies for predicting reaction pathways, materials properties and systems behaviours in order to minimise lengthy and expensive trial-and-error experiments.
"Hydrogen Production and Storage" will bring together world leading experts from Physics, Chemistry, Materials Science and Engineering to share up-to-date scientific and technical advances in the field, and to highlight outstanding problems and guidelines for future research. Fundamental aspects of catalysis, separation and purification processes; chemistry and physics of hydrogen bonding, adsorption and release mechanisms; materials synthesis, processing and characterisation; system implementation and performance evaluation including safety and economics issues will be featured.
Session Topics
FB-1 Hydrogen production
FB-2 Hydrogen storage
- FB-2.1 - Metal hydrides
- FB-2.2 - Complex hydrides
- FB-2.3 - Chemical hydrides
- FB-2.4 - Carbon based materials and other high surface area adsorbents
- FB-2.5 - Theoretical modelling; new characterization methods and storage testing