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Improving the performance of solid oxide fuel cell systems: Dissertation
Matias Halinen
VTT Technical Research Centre of Finland
VTT (former employee or external)
Aalto University
Research output
:
Thesis
›
Dissertation
›
Collection of Articles
Overview
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Dive into the research topics of 'Improving the performance of solid oxide fuel cell systems: Dissertation'. Together they form a unique fingerprint.
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INIS
performance
100%
solid oxide fuel cells
100%
design
50%
efficiency
35%
stacks
21%
solutions
14%
cost
14%
market
14%
range
14%
anodes
14%
durability
7%
output
7%
levels
7%
control
7%
applications
7%
environment
7%
balances
7%
carbon
7%
fuels
7%
operation
7%
steady-state conditions
7%
power
7%
recycling
7%
damage
7%
emission
7%
equipment
7%
gases
7%
protection
7%
flexibility
7%
investigations
7%
reliability
7%
lifetime
7%
leakage
7%
power production
7%
start-up
7%
manufacturers
7%
commercialization
7%
subsidies
7%
water supply
7%
fuel systems
7%
Keyphrases
Solid Oxide Fuel Cell System
100%
System Design
45%
Electrical Efficiency
36%
Technical Feasibility
18%
Prototype Concepts
18%
Solid Oxide Fuel Cell Stack
18%
Self-sufficiency
9%
Off-gas
9%
Technical Performance
9%
Solid Oxide Fuel Cell
9%
Power Production
9%
Balance of Plant
9%
Operational Capabilities
9%
Stack Temperature
9%
System Start-up
9%
Fuel Flexibility
9%
Cost Performance
9%
Design Aspects
9%
Operating Environment
9%
Long Lifetime
9%
Power Output
9%
Plant Parts
9%
Operational Aspects
9%
Top Level
9%
Low Emission
9%
Carbon Formation
9%
Fuel Cell Technology
9%
Operational Challenges
9%
System Cost
9%
Water Supply
9%
Performance Durability
9%
Fuel System
9%
Recycling Concept
9%
Efficiency Potential
9%
External Fluid
9%
Government Subsidy
9%
Open Market
9%
Industrial Manufacturers
9%
Operational Reliability
9%
Peripheral Equipment
9%
High Efficiency
9%
Engineering
Solid Oxide Fuel Cell Systems
100%
Electrical Efficiency
36%
Solid Oxide Fuel Cells
27%
Proof-of-Concept
18%
Fuel Cell Stack
18%
Technical Feasibility
18%
Power Production
9%
Operating Environment
9%
Simplifies
9%
Technical Performance
9%
Fuel Cell Technology
9%
System Cost
9%
Durability Performance
9%
Fuel System
9%
Cost Performance
9%
Output Power
9%
Target Level
9%
Research Work
9%
Plant Component
9%
Operational System
9%
Chemical Engineering
Water Supply
100%
Carbon Formation
100%
Material Science
Oxide Compound
100%
Anode
14%