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Hydronic radiant building surfaces for space heating
Simeon Oxyzidis
University of Brighton
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Dive into the research topics of 'Hydronic radiant building surfaces for space heating'. Together they form a unique fingerprint.
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Keyphrases
Radiant
100%
Hydronic
100%
Space Heating
100%
Building Surfaces
100%
Thermal Comfort
66%
Energy Efficiency
66%
Heat Emitter
66%
Solar Thermal
66%
Heating System
33%
Energy Consumption
33%
Renewable Energy
33%
Indoor Air
33%
Cooling System
33%
Radiant Heating System
33%
Building Elements
33%
Electricity-driven
33%
Heat Emission
33%
Low-temperature Heating
33%
Thermal Comfort in Buildings
33%
Indoor Thermal Comfort
33%
Thermal Energy Storage
33%
Thermal Wind
33%
Energy Storage Facility
33%
Generated Power
33%
Solar Thermal Collector
33%
Engineering
Thermal Comfort
100%
Space Heating
100%
Heating System
50%
Energy Conservation
50%
Energy Efficiency
50%
Floors
25%
Energy Engineering
25%
Energy Storage
25%
Thermal Energy Storage
25%
Indoor Air
25%
Renewable Energy
25%
Cooling System
25%
Generated Electricity
25%
Low-Temperature
25%
Heat Emission
25%
Radiant Heating
25%
Storage Facility
25%
Solar Thermal Electricity
25%
Solar Thermal Energy
25%
Building Element
25%
Solar Thermal Collector
25%
Ceilings
25%