Skip to main navigation
Skip to search
Skip to main content
TU Delft Research Portal Home
Help & FAQ
Home
Research units
Researchers
Research output
Datasets
Projects
Equipment
Press/Media
Prizes
Activities
Search by expertise, name or affiliation
Bridging intermittency: with iron electrodes
B. Weninger
ChemE/Materials for Energy Conversion and Storage
Research output
:
Thesis
›
Dissertation (TU Delft)
122
Downloads (Pure)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Bridging intermittency: with iron electrodes'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
INIS
iron
100%
electrodes
100%
hydrogen
66%
electricity
41%
storage
35%
energy
21%
oxygen
17%
output
17%
hydrogen storage
17%
hydrogen production
15%
gases
13%
production
9%
density
9%
configuration
9%
nickel
7%
electrochemistry
7%
electrochemical cells
7%
devices
7%
doped materials
7%
solutions
7%
power
5%
accumulation
5%
synthetic fuels
5%
decoupling
5%
curtailments
5%
iron-air batteries
3%
operation
3%
air
3%
electrolytes
3%
capacity
3%
supply
3%
efficiency
3%
recharge
3%
values
3%
bridges
3%
oxides
3%
metals
3%
hydrogen generation
3%
phase transformations
3%
performance
3%
charges
3%
control
1%
hypothesis
1%
production (hydrogen)
1%
harvesting
1%
sulfur
1%
sinks
1%
zirconium oxides
1%
units
1%
risks
1%
reduction
1%
switches
1%
oxidation
1%
nickel hydroxides
1%
corrosion
1%
aluminium oxides
1%
energy storage
1%
power generation
1%
neutron diffraction
1%
diagrams
1%
scaling
1%
energy systems
1%
ionic conductivity
1%
casings
1%
comparative evaluations
1%
energy costs
1%
space
1%
valves
1%
synthesis
1%
iron hydroxides
1%
cost
1%
safety
1%
tools
1%
industry
1%
side effects
1%
battery charging
1%
availability
1%
Material Science
Electrode
100%
Iron
100%
Battery (Electrochemical Energy Engineering)
17%
Gas
13%
Nickel
9%
Density
9%
Materials
7%
Air
7%
Devices
7%
Electrochemical Cell
7%
Electronic Circuit
5%
Synthetic Fuel
5%
Doping (Additives)
3%
Electrolyte
3%
Hydrogen Evolution
3%
Metal Oxide
1%
Deterioration
1%
Zirconia
1%
Switch
1%
Oxide Compound
1%
Oxygen Evolution
1%
Ionic Conductivity
1%
Neutron Diffraction
1%
Corrosion
1%
Metal
1%
Bar (Metal)
1%
Oxidation Reaction
1%
Battery Charging
1%
Aluminum Oxide
1%
Chemical Engineering
Iron
100%
Hydrogen
100%
Oxygen
20%
Nickel
11%
Hydrogen Production
6%
Oxide
4%
Alumina
2%
Zirconium Oxide
2%
Operando
2%
Keyphrases
Iron Storage
15%
Iron-air Battery
10%
Sulfur-free
5%
Electricity Curtailment
5%
Volumetric Storage
5%
Compressed Hydrogen Storage
5%
Gas Output
5%
Charge-shift
5%
Independent Circuit
5%
Rechargeability
5%
Hydrogen Storage Density
5%
Ionic Resistance
5%
Bifunctional Electrode
5%
Electrochemical Hydrogen
5%
Iron-air
5%
Engineering
Compressed Hydrogen Storage
2%
Low Discharge Rate
2%
Hydrogen Side
2%
Oxygen Storage
2%