1. Fuel cells for transportation -- an overview<br>2. Fuel cell fundamentals<br>3. Fuel cell modeling and optimization<br>4. Lattice Boltzmann modeling and artificial intelligence<br>5. Low platinum-based catalysts for fuel cells: status and prospects<br>6. Platinum group metal-free catalysts for fuel cells: status and prospects<br>7. Effective transport properties: modeling and experimental characterization<br>8. Liquid water transport and management<br>9. Fuel cell stack characterization<br>10. Power demand for transportation FC systems<br>11. Bipolar plates and flow field design<br>12. Heat transport and thermal management<br>13. Mass transport in the cathode<br>14. Automotive fuel cell control strategies<br>15. Fuel cell durability under automotive driving cycles<br>16. Cold start of fuel cells<br>17. SOFCs for vehicles<br>18. Fuel cell-battery hybrid power system optimization and management for transportation application<br>19. Hydrogen refueling stations/infrastructure<br>20. Conclusive remarks
Note
Description based on online resource; title from digital title page (viewed on September 25, 2023).