Fuel Cells for Transportation
-10%
portes grátis
Fuel Cells for Transportation
Fundamental Principles and Applications
Das, Prodip K.; Barbir, Frano; Wang, Yun; Li, Xianguo; Jiao, Kui
Elsevier Science Publishing Co Inc
05/2023
640
Mole
Inglês
9780323994859
15 a 20 dias
Descrição não disponível.
1. Fuel cells for transportation - an overview
2. Fuel cell fundamentals
3. Fuel cell modeling and optimization
4. Lattice Boltzmann modeling and artificial intelligence
5. Low platinum-based catalysts for fuel cells: status and prospects
6. Platinum group metal-free catalysts for fuel cells: status and prospects
7. Effective transport properties: modeling and experimental characterization
8. Liquid water transport and management
9. Fuel cell stack characterization
10. Power demand for transportation FC systems
11. Bipolar plates and flow field design
12. Heat transport and thermal management
13. Mass transport in the cathode
14. Automotive fuel cell control strategies
15. Fuel cell durability under automotive driving cycles
16. Cold start of fuel cells
17. SOFCs for vehicles
18. Fuel cell-battery hybrid power system optimization and management for transportation application
19. Hydrogen refueling stations/infrastructure
20. Conclusive remarks
2. Fuel cell fundamentals
3. Fuel cell modeling and optimization
4. Lattice Boltzmann modeling and artificial intelligence
5. Low platinum-based catalysts for fuel cells: status and prospects
6. Platinum group metal-free catalysts for fuel cells: status and prospects
7. Effective transport properties: modeling and experimental characterization
8. Liquid water transport and management
9. Fuel cell stack characterization
10. Power demand for transportation FC systems
11. Bipolar plates and flow field design
12. Heat transport and thermal management
13. Mass transport in the cathode
14. Automotive fuel cell control strategies
15. Fuel cell durability under automotive driving cycles
16. Cold start of fuel cells
17. SOFCs for vehicles
18. Fuel cell-battery hybrid power system optimization and management for transportation application
19. Hydrogen refueling stations/infrastructure
20. Conclusive remarks
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Ammonia; Artificial intelligence; Automotive driving cycle; Auxiliary power unit; Bipolar plate; Bipolar plates; Carbon-supported Pt-based electrocatalysts; Cathode; Cell degradation; Computational fluid dynamics; Control; Cooling methods; Degradation mode; Driving cycle; Durability test; Effective properties; Electrode optimization; Electron transport; Energy management strategy; Energy source; Flow field design; Freeze/thaw; Fuel cell; Fuel cell hybrid powertrain; Fuel cell vehicle; Fuel cells; Fuel cell; Fueling; Functionalization of commercial carbon support; Graded design; Heat generation; Heat transport; History of hydrogen; Hybrid systems; Hybrid vehicle; Hydrogen; Hydrogen roadmap; Hydrogen strategy; Ice nucleation; Infrastructure; Lattice Boltzmann model; Lifetime; Liquid water; MATLAB/Simulink; Machine learning; Materials and manufacturing; Metal-supported SOFCs; Modeling; Network; Novel architecture; Optimization; Oxygen transport; PEM fuel cell; PGM-free catalysts; Platinum; Platinum group metal; Polarization curves; Polymer electrolyte fuel cell; Porous transport layers; Postsynthesis treatment; Power profile; Proton exchange membrane fuel cell; Proton transport; Reaction kinetics; Shape; Solid oxide fuel cells; Stack operation; Startup; States of water; Subzero; Supercooled water; Surrogate model; Synthesis; Thermal management; Thermal management control strategies; Thermal management subsystem; Transport processes; Transportation; Two-phase flow; Waste heat; Water and thermal management; Water management; Water transport
1. Fuel cells for transportation - an overview
2. Fuel cell fundamentals
3. Fuel cell modeling and optimization
4. Lattice Boltzmann modeling and artificial intelligence
5. Low platinum-based catalysts for fuel cells: status and prospects
6. Platinum group metal-free catalysts for fuel cells: status and prospects
7. Effective transport properties: modeling and experimental characterization
8. Liquid water transport and management
9. Fuel cell stack characterization
10. Power demand for transportation FC systems
11. Bipolar plates and flow field design
12. Heat transport and thermal management
13. Mass transport in the cathode
14. Automotive fuel cell control strategies
15. Fuel cell durability under automotive driving cycles
16. Cold start of fuel cells
17. SOFCs for vehicles
18. Fuel cell-battery hybrid power system optimization and management for transportation application
19. Hydrogen refueling stations/infrastructure
20. Conclusive remarks
2. Fuel cell fundamentals
3. Fuel cell modeling and optimization
4. Lattice Boltzmann modeling and artificial intelligence
5. Low platinum-based catalysts for fuel cells: status and prospects
6. Platinum group metal-free catalysts for fuel cells: status and prospects
7. Effective transport properties: modeling and experimental characterization
8. Liquid water transport and management
9. Fuel cell stack characterization
10. Power demand for transportation FC systems
11. Bipolar plates and flow field design
12. Heat transport and thermal management
13. Mass transport in the cathode
14. Automotive fuel cell control strategies
15. Fuel cell durability under automotive driving cycles
16. Cold start of fuel cells
17. SOFCs for vehicles
18. Fuel cell-battery hybrid power system optimization and management for transportation application
19. Hydrogen refueling stations/infrastructure
20. Conclusive remarks
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Ammonia; Artificial intelligence; Automotive driving cycle; Auxiliary power unit; Bipolar plate; Bipolar plates; Carbon-supported Pt-based electrocatalysts; Cathode; Cell degradation; Computational fluid dynamics; Control; Cooling methods; Degradation mode; Driving cycle; Durability test; Effective properties; Electrode optimization; Electron transport; Energy management strategy; Energy source; Flow field design; Freeze/thaw; Fuel cell; Fuel cell hybrid powertrain; Fuel cell vehicle; Fuel cells; Fuel cell; Fueling; Functionalization of commercial carbon support; Graded design; Heat generation; Heat transport; History of hydrogen; Hybrid systems; Hybrid vehicle; Hydrogen; Hydrogen roadmap; Hydrogen strategy; Ice nucleation; Infrastructure; Lattice Boltzmann model; Lifetime; Liquid water; MATLAB/Simulink; Machine learning; Materials and manufacturing; Metal-supported SOFCs; Modeling; Network; Novel architecture; Optimization; Oxygen transport; PEM fuel cell; PGM-free catalysts; Platinum; Platinum group metal; Polarization curves; Polymer electrolyte fuel cell; Porous transport layers; Postsynthesis treatment; Power profile; Proton exchange membrane fuel cell; Proton transport; Reaction kinetics; Shape; Solid oxide fuel cells; Stack operation; Startup; States of water; Subzero; Supercooled water; Surrogate model; Synthesis; Thermal management; Thermal management control strategies; Thermal management subsystem; Transport processes; Transportation; Two-phase flow; Waste heat; Water and thermal management; Water management; Water transport
