Skip to main navigation
Skip to search
Skip to main content
Welcome to DTU Research Database Home
About DTU Orbit
Home
Profiles
Research units
Publications
Activities
Projects
Prizes
Press/Media
Datasets
Search by expertise, name or affiliation
Coordination of Heat and Electricity Systems Under Uncertainty
Mikhail Skalyga
*
*
Corresponding author for this work
Power and Energy Systems
Distributed Energy Systems
Department of Wind and Energy Systems
Research output
:
Book/Report
›
Ph.D. thesis
24
Downloads (Pure)
Overview
Fingerprint
Projects
(1)
Fingerprint
Dive into the research topics of 'Coordination of Heat and Electricity Systems Under Uncertainty'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Physics
Electricity
100%
Heat
100%
Model
27%
Flexibility
27%
Renewable Energy
22%
Networks
22%
Heating
18%
Optimization
18%
Utilization
9%
Information
9%
Increasing
9%
Fossil Fuel
4%
Energy Storage
4%
Performance
4%
Responses
4%
Value
4%
Policy
4%
Sides
4%
Variability
4%
Scheduling
4%
Linearization
4%
Chemistry
Electricity
100%
Heat
100%
Cogeneration Combined Cooling Heating Power
45%
Energy
31%
Flexibility
27%
Optimization
18%
Potential
13%
Heating
13%
Fossil Fuel
4%
Energy Storage
4%
Renewable Energy Source
4%
Heating System
4%
Amount
4%
Flow
4%
Number
4%
Sample
4%
Valve
4%
Engineering
Electricity System
100%
Models
22%
Networks
18%
Market Price
13%
Heating
13%
Energy Systems
13%
Electricity Market
13%
Optimization
9%
Renewable Energy
9%
Renewable Conversion
9%
System Operator
9%
Mechanisms
9%
Electricity Production
4%
Mathematical Model
4%
Optimisation Problem
4%
Reliable Operation
4%
Synergy
4%
Electricity Price
4%
Heat Production
4%
District Heating System
4%
Linearization
4%
Energy Storage
4%
Optimization Approach
4%
Network Model
4%
Historical Data
4%
Side Heat
4%
Sectoral
4%
Coupled System
4%
Operational Efficiency
4%
Control Policy
4%
Potential Loss
4%
Performance
4%
Efficiency
4%
Production
4%
Transmissions
4%
Power Engineering
4%
Illustrates
4%
Economics
4%
Fossil Fuel
4%
Chemical Engineering
Heating
18%