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Batteries in Smart Microgrids
Bart Homan
Mathematics of Operations Research
Computer Architecture Design and Test for Embedded Systems
Research output
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Thesis
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PhD Thesis - Research UT, graduation UT
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Dive into the research topics of 'Batteries in Smart Microgrids'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Electric Battery
100%
State
57%
Model
52%
Electricity
42%
Fossil Fuel
23%
Neighborhood
23%
Prediction
19%
Lithium
19%
Acid
14%
Accuracy
14%
Ion
14%
Night
9%
Amount
9%
Sunlight
9%
Difference
9%
Tool
9%
Smart Grid
9%
Simulation
9%
Behavior
9%
Show
9%
Energy Management
9%
Heat
9%
Moment
4%
Energy Production
4%
Subject
4%
Bandwidth
4%
Fossil
4%
Research
4%
Panel
4%
Datum
4%
Wind
4%
Prevention
4%
Energy Consumption
4%
Solar Wind
4%
Storage Battery
4%
Anode
4%
Investigation
4%
Society
4%
Comparison
4%
Wind Velocity
4%
Electricity Generation
4%
Global Climate Change
4%
Risk
4%
Counter
4%
Description
4%
Thesis
4%
Health and Safety
4%
Coal
4%
Time
4%
Revision
4%
Volume
4%
Decision
4%
Construction
4%
Court
4%
Diffusion
4%
Renewable Energy
4%
Ratio
4%
Support
4%
Consolidation
4%
Combustion
4%
Oil
4%
Utilization
4%
Alternative
4%
Aspect
4%
Iron
4%
Dendrite
4%
Park
4%
Phosphate
4%
Engineering
State of Charge
60%
Models
50%
Fossil Fuel
25%
Neighbourhood
25%
Energy Transition
20%
Storage
20%
Accuracy
15%
Energy Engineering
15%
Lithium Ion
15%
Polymer
15%
Measurement
15%
Lead Acid
15%
Wind
15%
Prediction
15%
Applicability
15%
Predicted State
10%
Smart Grid
10%
Integration
10%
Energy Management
10%
Houses
10%
Power Generation
10%
Microgrid
10%
Development
10%
Simulation Tool
5%
Sustainable Energy
5%
Energy Storage
5%
Generate Electricity
5%
Natural Gas
5%
Coal
5%
Diffusion
5%
Research
5%
Lithium
5%
Accurate Prediction
5%
Design
5%
Iron
5%
Real World Application
5%
Supports
5%
Climatic Change
5%
Methods and Tool
5%
Generated Electricity
5%
Volume Ratio
5%
Energy Source
5%
Battery Model
5%
Solar Park
5%
Simulation
5%
Anode
5%
Electricity Demand
5%
Oil
5%
Forming
5%
Secondary Battery
5%
Energy Production
5%
Cogeneration Combined Cooling Heating Power
5%
Chemistry
Battery (Electrochemical Energy Engineering)
100%
Energy
66%
State-of-Charge
57%
Electricity
47%
Storage
23%
Fossil Fuel
23%
Acid
14%
Polymer
14%
Heat
9%
Buffer Solution
9%
Aqueous Solution
9%
Amount
9%
Diffusion
4%
Carbon Dioxide Emission
4%
Safety
4%
Coal
4%
Oil
4%
Anode
4%
Natural Gas
4%
Volume
4%
Weight
4%
Combustion
4%
Iron
4%
Time
4%
Phosphate
4%
Application
4%
Material Science
Fossil Fuel
23%
Polymer
14%
Material
4%
Consolidation
4%
Anode
4%
Coal
4%