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Experimental validation of the dynamic thermal network approach in modeling buried pipes
Saleh S. Meibodi
, Simon Rees
SCEDT Engineering
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peer-review
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Keyphrases
Network Approach
100%
Experimental Validation
100%
Buried pipe
100%
Dynamic Thermal Network
100%
Pipe System
66%
Heat Flux
50%
Weighting Factor
33%
Thermal Network Method
33%
Computationally Efficient
16%
Flux Response
16%
Conduction Heat Transfer
16%
Time Series Data
16%
Transient Behavior
16%
Numerical Model
16%
Model Dynamics
16%
Validation Experiment
16%
Cooling System
16%
Steady-state Conditions
16%
Heating System
16%
Step Change
16%
Thermal Energy Networks
16%
Ground Heat Exchanger
16%
Numerical Representation
16%
Boundary Temperature
16%
Step Response Time
16%
Response Factor Method
16%
Engineering
Pipe System
100%
Heat Flux
75%
Weighting Factor
50%
Cooling System
25%
Transients
25%
Conduction Heat Transfer
25%
Thermal Energy
25%
Data Series
25%
Numerical Model
25%
Response Time
25%
State Condition
25%
Step Change
25%
Ground Heat Exchanger
25%
Heating System
25%
Step Response
25%
Boundary Temperature
25%