rick kramer –jos van schijndel –henk schellen
TRANSCRIPT
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Rick Kramer –Jos van Schijndel – Henk Schellen
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Contents
• Introduction
• Inverse modeling concept
• Optimization procedure
• Tested models
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• Tested models
• Validation
• Conclusions
Department of the Built Environment, unit BPS
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Introduction: problem statement
Three problems regarding current modeling and simulation approach:
i. Long simulation run timeDue to long simulation period (In climate change projects: years 2000 - 2099 with time step 1h), combined with detailed physical models.
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ii. Detailed modeling of the buildings requires much effortThe monumental buildings are old and protected: blueprints are hard to findand destructive methods to obtain building material properties are often not allowed.
iii. No easy characterization of the indoor climate nor an easy characterization of the energy performance possible
Department of the Built Environment, unit BPS
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Introduction: objective
Objective:
The successful application of inverse modeling on a simplified hygrothermal building model.
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Inverse modeling concept
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Inverse modeling concept
measured data
simulation
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optimize model
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Optimization algorithms
• Optimization algorithms:
• Global Search (local solver from many points) ~hrs
• Pattern search (direct search / gradient free) ~min
• Genetic Algorithm (stochastic / least accurate) ~sec
• Fmincon (gradient based, local solver) ~sec
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• Findings:
• First use GA to narrow down solution space efficiently, then pattern search for thorough
searching, and fmincon for fine-tuning or checking.
Department of the Built Environment, unit BPS
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State Space: fast optimization
• Global optimization algorithm PatternSearch:
⇒ Direct search type that is suitable for discontinuous and non-smooth solution spaces
⇒ In combination with state space model: fast optimization process
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Every dot represents a 1 yearbuilding simulation
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Thermal models
Literature review on simplified building models:Kramer, R., van Schijndel, J., & Schellen, H. (2012). Simplified thermal and hygric building models: A literature review. Frontiers of Architectural Research, 1(4), 318–325.
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Thermal models
Literature review on simplified building models:Kramer, R., van Schijndel, J., & Schellen, H. (2012). Simplified thermal and hygric building models: A literature review. Frontiers of Architectural Research, 1(4), 318–325.
PAGE 921-10-2013Department of the Built Environment, unit BPS
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Used building: Castle of Amerongen
• Castle of Amerongen (Amerongen, Netherlands)
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*22
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King’s chamber
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Thermal models: performance
King’s chamber
model # MSE [°C2] MAE [°C] FIT [%]
1 n.a. n.a. n.a.
2a n.a. n.a. n.a.
2b - - -
3a 4.05* 1.72* 54.57*
3b 0.86 0.72 79.00
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3b 0.86 0.72 79.00
4a 0.63 0.61 82.11
4b 0.91 0.74 78.43
5a 0.95 0.76 84.35
5b 1.00 0.78 83.94
6a 0.96 0.76 84.29
6b 0.69 0.65 86.68
* without fixed temperature
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Thermal models: best thermal model
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• States (3rd order)
• Envelope (Cw)
• Indoor air (Ci)
• Interior part (Cint)
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Thermal models: best thermal model
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• Inputs
• Temperature outdoor (Te)
• Constant temperature (Tfixed), e.g. ground contact
• Solar irradiation
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Thermal models: best thermal model
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• Physical interpretation of Gfast
• Transmission through glazing
• Heat loss by ventilation / infiltration
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Hygric models
PAGE 1521-10-2013Department of the Built Environment, unit BPS
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Hygric models: performance
King’s chamber
model # MSE [Pa2] MAE [Pa] FIT [%]
1 4712 56 82.24
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2 4440 51 82.76
3 3023 45 85.77
4 3016 45 85.79
Department of the Built Environment, unit BPS
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Hygric models: best hygric model
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• Specifications of model:• 2 states (2nd order): envelope, air;• 4 parameters (parameter is Gx/Cx);• 1 input (Pe).
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Validation
The validation consists of:
• Multiple buildings assessment (1 of 10 in this presentation)
• Residual analysis
• Uncertainty analysis (see *)
• Sensitivity analysis (see *)
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* Kramer, R. (2012). From Castle To Binary Code: the application of inverse modeling for the prediction and characterization of indoor climates and energy performances. University of Technology Eindhoven.
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Validation: Saint Bavo’s cathedral
Saint Bavo’s Cathedral (Gent, Belgium)
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South transept
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Validation: Saint Bavo’s cathedral
Short-term dynamics:Long-term dynamics:
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Validation: Saint Bavo’s cathedral
Residuals’ (ɛ) probability distribution:
ɛ = Tisim - Timeas
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Validation: Saint Bavo’s cathedral
Residual analysis:
• whiteness test shows correlation between residuals
• Too much auto-correlation = missing inputs or missing error model
• An error model is lacking so auto-correlation is meaningless
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• An error model is lacking so auto-correlation is meaningless
• independence test shows correlation between residuals and inputs
• Too much cross-correlation = influence of inputs modelled incorrectly
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Validation: Saint Bavo’s cathedral
Residual analysis: independence test shows correlation between residuals and inputs
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1. State Space modeling is very suitable for inverse modeling of free-floating monumental buildings.
2. Developed hygrothermal model performs excellent for most cases (Goodness of Fit > 80%).
Conclusions
3. Identified parameters are effective, not apparent values and are a ratio Gx/Cx: verification is difficult.
PAGE 2421-10-2013Department of the Built Environment, unit BPS
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Thank you!
Rick Kramer, MSc
Tel +31 40 247 5613
Jos van Schijndel, PhD
Henk Schellen, PhD
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Validation: Castle Keukenhof
• Castle Keukenhof’s loft (Lisse, Netherlands)
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loft
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Validation: Castle Keukenhof
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Rain leakage?
Modeling approach for solar irradiance even suitable for lofts (tilted roofs)
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Validation: Castle of Amerongen
• Castle of Amerongen’s washing room (Amerongen, Netherlands)
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washing room
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Validation: Castle of Amerongen
No fixed vapour pressure node
Physical interpretation:
Washing room is adjacent to canal
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With fixed vapour pressure node
Department of the Built Environment, unit BPS
Washing room is adjacent to canal
Increased moisture level possibly due to:
- moisture flow through walls- recent flooding
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Thank you!
Rick Kramer, MSc
Tel +31 40 247 5613
Jos van Schijndel, PhD
Henk Schellen, PhD