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SOLID OXIDE FUEL CELLS FROM MATERIALS TO SYSTEM MODELING (HB 2013)

SOLID OXIDE FUEL CELLS FROM MATERIALS TO SYSTEM MODELING (HB 2013)

SOLID OXIDE FUEL CELLS FROM MATERIALS TO SYSTEM MODELING (HB 2013)
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SOLID OXIDE FUEL CELLS FROM MATERIALS TO SYSTEM MODELING (HB 2013) Hardback - 2013

by Meng Ni (Editor); Tim S. Zhao (Editor)

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Details

  • Title SOLID OXIDE FUEL CELLS FROM MATERIALS TO SYSTEM MODELING (HB 2013)
  • Author Meng Ni (Editor); Tim S. Zhao (Editor)
  • Binding Hardback
  • Condition New
  • Pages 523
  • Volumes 1
  • Language ENG
  • Publisher Royal Society of Chemistry
  • Publication date 2013
  • Bookseller's Inventory # BWP-9781849736541
  • ISBN 9781849736541 / 1849736545
  • Weight 2.11 lbs (0.96 kg)
  • Dimensions 9.31 x 6.44 x 1.36 in (23.65 x 16.36 x 3.45 cm)
  • Category Science
  • Quantity available 500

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Reader reviews for SOLID OXIDE FUEL CELLS FROM MATERIALS TO SYSTEM MODELING (HB 2013)

From the publisher

Solid oxide fuel cells (SOFCs) are promising electrochemical power generation devices that can convert chemical energy of a fuel into electricity in an efficient, environmental-friendly, and quiet manner. Due to their high operating temperature, SOFCs feature fuel flexibility as internal reforming of hydrocarbon fuels and ammonia thermal cracking can be realized in SOFC anode.

This book first introduces the fundamental principles of SOFCs and compares SOFC technology with conventional heat engines as well as low temperature fuel cells. Then the latest developments in SOFC R&D are reviewed and future directions are discussed. Key issues related to SOFC performance improvement, long-term stability, mathematical modelling, as well as system integration/control are addressed, including material development, infiltration technique for nano-structured electrode fabrication, focused ion beam - scanning electron microscopy (FIB-SEM) technique for microstructure reconstruction, the Lattice Boltzmann Method (LBM) simulation at pore scale, multi-scale modelling, SOFC integration with buildings and other cycles for stationary applications.

From the rear cover

Solid oxide fuel cells (SOFCs) are promising electrochemical power generation devices that can convert chemical energy of a fuel into electricity in an efficient, environmental-friendly, and quiet manner. Due to their high operating temperature, SOFCs feature fuel flexibility as internal reforming of hydrocarbon fuels and ammonia thermal cracking can be realized in SOFC anode.

This book presents an overview of the SOFC technology with a focus on the recent developments in new technologies and new ideas for addressing the key issues of SOFC development.

This book first introduces the fundamental principles of SOFCs and compares SOFC technology with conventional heat engines as well as low temperature fuel cells. Then the latest developments in SOFC R&D are reviewed and future directions are discussed. Key issues related to SOFC performance improvement, long-term stability, mathematical modelling, as well as system integration/control are addressed, including material development, infiltration technique for nano-structured electrode fabrication, focused ion beam - scanning electron microscopy (FIB-SEM) technique for microstructure reconstruction, the Lattice Boltzmann Method (LBM) simulation at pore scale, multi-scale modelling, SOFC integration with buildings and other cycles for stationary applications.

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