Sankey-Diagram-based insights into the hydrogen economy of today

[1]  M. Gillott,et al.  The effect of environmental conditions on the operation of a hydrogen refuelling station , 2015 .

[2]  I. Dincer,et al.  Evaluation of a new continuous type hybrid photo-electrochemical system , 2015 .

[3]  I. Dincer,et al.  Review and evaluation of hydrogen production methods for better sustainability , 2015 .

[4]  Ibrahim Dincer,et al.  Comparative cost evaluation of nuclear hydrogen production methods with the Hydrogen Economy Evaluation Program (HEEP) , 2015 .

[5]  Nikolaos Kazantzis,et al.  Natural gas – synergies with hydrogen , 2015 .

[6]  Sib Krishna Ghoshal,et al.  Hydrogen the future transportation fuel: From production to applications , 2015 .

[7]  Jingzheng Ren,et al.  Role prioritization of hydrogen production technologies for promoting hydrogen economy in the current state of China , 2015 .

[8]  Ramchandra Bhandari,et al.  Life cycle assessment of hydrogen production via electrolysis – a review , 2014 .

[9]  P. Parthasarathy,et al.  Hydrogen production from steam gasification of biomass: Influence of process parameters on hydrogen yield – A review , 2014 .

[10]  I. Dincer,et al.  Comparative assessment of hydrogen production methods from renewable and non-renewable sources , 2014 .

[11]  A. M. Efstathiou,et al.  Hydrogen Production Technologies: Current State and Future Developments , 2013 .

[12]  Jenn-Jiang Hwang,et al.  Sustainability study of hydrogen pathways for fuel cell vehicle applications , 2013 .

[13]  D. Njomo,et al.  An overview of hydrogen gas production from solar energy , 2012 .

[14]  I. Dincer,et al.  Sustainable hydrogen production options and the role of IAHE , 2012 .

[15]  Mehmet Kanoglu,et al.  Economics of hydrogen production and liquefaction by geothermal energy , 2012 .

[16]  I. Dincer Green methods for hydrogen production , 2012 .

[17]  I. Khamis,et al.  An overview of the IAEA HEEP software and international programmes on hydrogen production using nuclear energy , 2011 .

[18]  P. Moriarty,et al.  A hydrogen standard for future energy accounting , 2010 .

[19]  Hewu Wang,et al.  Hydrogen flow chart in China , 2010 .

[20]  G. Naterer,et al.  Comparison of sulfur–iodine and copper–chlorine thermochemical hydrogen production cycles , 2010 .

[21]  José Manuel Martínez Duart,et al.  Updated hydrogen production costs and parities for conventional and renewable technologies , 2010 .

[22]  Ibrahim Dincer,et al.  An exergy–cost–energy–mass analysis of a hybrid copper–chlorine thermochemical cycle for hydrogen production , 2010 .

[23]  Damon Honnery,et al.  Hydrogen's role in an uncertain energy future , 2009 .

[24]  Jiyong Kim,et al.  The role of hydrogen in the road transportation sector for a sustainable energy system: A case study of Korea , 2008 .

[25]  T. Nejat Veziroglu,et al.  “Green” path from fossil-based to hydrogen economy: An overview of carbon-neutral technologies , 2008 .

[26]  Greg F. Naterer,et al.  Synergistic roles of off-peak electrolysis and thermochemical production of hydrogen from nuclear energy in Canada , 2008 .

[27]  Peter Hall,et al.  Energy storage : the route to liberation from the fossil fuel economy? , 2008 .

[28]  M. Balat Potential importance of hydrogen as a future solution to environmental and transportation problems , 2008 .

[29]  Mario Schmidt,et al.  The Sankey Diagram in Energy and Material Flow Management , 2008 .

[30]  R. L. Sawhney,et al.  Comparison of environmental and economic aspects of various hydrogen production methods , 2008 .

[31]  Silvio de Oliveira Junior,et al.  Petroleum Refinery Hydrogen Production Unit: Exergy and Production Cost Evaluation , 2008 .

[32]  F. Mueller-Langer,et al.  Techno-economic assessment of hydrogen production processes for the hydrogen economy for the short and medium term , 2007 .

[33]  V. Utgikar,et al.  Transition to hydrogen economy in the United States: A 2006 status report , 2007 .

[34]  P. Moriarty,et al.  Intermittent renewable energy: The only future source of hydrogen? , 2007 .

[35]  G. Marbán,et al.  Towards the hydrogen economy , 2007 .

[36]  Jens Hetland,et al.  In search of a sustainable hydrogen economy: How a large-scale transition to hydrogen may affect the primary energy demand and greenhouse gas emissions , 2007 .

[37]  Ibrahim Dincer,et al.  Key strategies of hydrogen energy systems for sustainability , 2007 .

[38]  M. Lanchi,et al.  Hydrogen/methanol production by sulfur–iodine thermochemical cycle powered by combined solar/fossil energy , 2007 .

[39]  Renato Baciocchi,et al.  Process design and energy requirements for the capture of carbon dioxide from air , 2006 .

[40]  Introduction to the special issue on ‘hydrogen’ in ‘Energy Policy’ , 2006 .

[41]  A. Shenoy,et al.  H2-MHR conceptual designs based on the sulphur–iodine process and high-temperature electrolysis , 2006 .

[42]  A. Banerjee,et al.  A global survey of hydrogen energy research, development and policy , 2006 .

[43]  Gary J. Stiegel,et al.  Hydrogen from coal gasification: An economical pathway to a sustainable energy future , 2006 .

[44]  R. Allen,et al.  A figure of merit assessment of the routes to hydrogen , 2005 .

[45]  T. Veziroglu,et al.  The properties of hydrogen as fuel tomorrow in sustainable energy system for a cleaner planet , 2005 .

[46]  Joan M. Ogden,et al.  Hydrogen as an Energy Carrier: Outlook for 2010, 2030, and 2050 , 2004 .

[47]  Robert S. Cherry,et al.  A hydrogen utopia , 2004 .

[48]  The hydrogen energy economy: an address to the World Economic Forum 2004 , 2004 .