Optimal Dynamic Routing and Flow Control in Interconnection Networks-on-Chip.
2008
A fuel cell electrical power generation apparatus comprises a fuel cell including a cathode and an anode and an electrolyte matrix containing a quantity of a molten carbonate electrolyte between the cathode and anode; and an electrolyte creepage barrier for substantially preventing electrolyte creepage at the anode of the fuel cell. The electrolyte creepage barrier comprises a relatively thin layer of a material which is poorly wet by the electrolyte disposed in such a way as to substantially prevent electrolyte creepage at the anode of the fuel cell. A related method for blocking creepage of molten carbonate electrolyte in a fuel cell comprises disposing a creepage barrier in such a way as to substantially prevent electrolyte creepage at the anode of the fuel cell.
Keywords:
- Discrete mathematics
- Electricity generation
- Chip
- Anode
- Computer science
- Insulator (electricity)
- Cathode
- Computer network
- Composite material
- Electrolyte
- Flow control (data)
- Interconnection
- Routing domain
- Link-state routing protocol
- Static routing
- Multipath routing
- Routing protocol
- Dynamic Source Routing
- Hierarchical routing
- Zone Routing Protocol
- Correction
- Source
- Cite
- Save
- Machine Reading By IdeaReader
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