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A human thermal model for improved thermal comfort: Dissertation
Riikka Holopainen
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Dissertation
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Dive into the research topics of 'A human thermal model for improved thermal comfort: Dissertation'. Together they form a unique fingerprint.
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Keyphrases
Thermal Comfort
100%
Human Thermal Model
100%
Thermal Sensation
66%
Human Body
25%
Steady State
16%
Simulation Environment
16%
Clothing
16%
Building Simulation
16%
Building Service Systems
16%
Human Being
16%
Human Thermal Sensation
16%
Heat Balance Model
16%
Thermoregulation System
16%
Heat Exchange
8%
Building Users
8%
Surface Temperature
8%
Design Parameters
8%
Alternative Energy
8%
New Buildings
8%
Heat Transfer
8%
Thermal Environment
8%
Calculation Method
8%
Distribution System
8%
Energy Efficient
8%
Energy Renovation
8%
Building Structure
8%
Metabolism
8%
Heating Power
8%
Surrounding Environment
8%
System Concept
8%
Restricted Conditions
8%
Renovation Measures
8%
Renovated Building
8%
Changing Conditions
8%
Estimation Method
8%
ProB
8%
Internal Parameters
8%
Utilization Rate
8%
Thermal Behavior
8%
Indoor Environment
8%
House Building
8%
Heating-cooling System
8%
Transient Conditions
8%
Nearly Zero Energy Houses
8%
Building Simulation Tools
8%
Very Low Energy
8%
Passive House
8%
Integration Method
8%
Thermal Stimulation
8%
Fanger
8%
Radiation Heat Transfer
8%
Human Thermal Comfort
8%
Metabolic Rate
8%
Warm Environment
8%
External Boundary
8%
Power Demand
8%
Mass Exchange
8%
Indoor Environment Conditions
8%
Coolness
8%
External Structure
8%
Human Thermoregulation
8%
Insulation Level
8%
External Parameters
8%
Surface Radiation
8%
Thermoregulatory System
8%
Model Tissue
8%
Thermokinetics
8%
Operative Temperature
8%
Predicted Mean Vote
8%
Low-energy Homes
8%
Fanger PMV
8%
Heating Distribution
8%
INIS
humans
100%
thermal comfort
100%
environment
47%
simulation
28%
boundary conditions
23%
energy
19%
heating
14%
heat
14%
houses
14%
balances
9%
indoors
9%
design
9%
steady-state conditions
9%
heat transfer
9%
clothing
9%
thermoregulation
9%
tools
4%
levels
4%
surfaces
4%
correlations
4%
tissues
4%
calculation methods
4%
physics
4%
modeling
4%
occupants
4%
distribution
4%
radiations
4%
prediction
4%
people
4%
anatomy
4%
metabolism
4%
connections
4%
stimuli
4%
cooling systems
4%
physiology
4%
measured values
4%
structures (buildings)
4%
coolers
4%
power demand
4%
Engineering
Thermal Model
100%
Thermal Comfort
100%
Boundary Condition
41%
Building Simulation
25%
Transients
25%
Simulation Environment
16%
Simulation Result
16%
Building Service System
16%
Heat Balance
16%
Simulation Tool
8%
Heat Exchange
8%
Building User
8%
Design Parameter
8%
Dimensioning
8%
Measured Value
8%
Do Model
8%
Energy Renovation
8%
Heating Power
8%
Surrounding Environment
8%
Renovation Measure
8%
Changing Condition
8%
Temperature Heat
8%
Radiation Heat Transfer
8%
Mass Exchange
8%
Distribution System
8%
Cooling System
8%
Thermal Behavior
8%
Renewable Energy
8%
Thermal Environment
8%