bim show live 2015: link between bim and energy simulation
TRANSCRIPT
BIM Show Live 2015, Manchester
Link between BIM and Energy Simulation
Ir. Arch. Marieline Senave
Dr. Ir. Arch. Stefan Boeykens
9th of April 2015, Stage 2, 9:30 - 10:30 AM
KU Leuven
∞ Founded in 1425∞ More than 53,000 students∞ research-intensive and
internationally oriented
Department of Architecture University Library
Leuven, Belgium
© [1.] © [2.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Marieline Senave Stefan Boeykens
Who we are…
Master of Science in Architectural Engineering (2014)
PhD Student Building Physics Section KU Leuven
Master Dissertation: ‘Link between BIM and Energy Simulation’
Master of Science in Architectural Engineering (1996)
Guest Professor Department of Architecture KU Leuven
PhD in Architectural Engineering (2007)
EDUCATION:
CURRENT EMPLOYMENT:
EDUCATION:
CURRENT EMPLOYMENT:
BIM Specialist D-studio Belgium
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
http://cad-3d.blogspot.com
Content
∞ III. Conclusion
> Case Studies
> Context
> Problem statement
> Purpose statement and Research questions
> Research method
∞ I. Introduction:
∞ II. Results:
> Literature Review
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
BIM Show Live 2015, Manchester
Link between BIM and Energy Simulation
I. Introduction
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
1.
0
10
20
30
40
50
60
70
80
90
100
1 2 3 4 5 6 7 8
Usage 2011 Usage 2013 Total awareness 2011 Total Awareness 2013
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
1.
© Figure based on data from [3.]
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© Figure based on data from [3.]
Architects using BIM (2013)
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© Figure based on data from [3.]
Architects just aware of BIM (2013)
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© Figure based on data from [3.]
Total awareness = usage + awareness only
33%
40%
17%
10%
Organization/scale of
architecture firms in Belgium
No employees 1-3 employees
4-10 employees >10 employees
80%
19%
1% 0%
Size of Construction Companies in
Belgium (2014)
<6 employees 6-50 employees
50-250 employees >250 employees
© Figures based on data from [4.] and [5.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
CONTEXT
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
2.
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Greenhouse effect
2.
Depletion of Energy Reserves
© [6.]
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Greenhouse Effect
2.
© [7.]
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Energy Performance of Buildings Directive
Public Opinion
?
Environmental concerns Need to be able to predict future characteristics
2.
© [8.]
Context
Practising BIM the assessment of energy performance can be fitted in an iterative design process in which the intelligent model
serves as a database that is steadily refined by a sequence of analysis and feedback until the desired objectives are met.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
����
Context
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Structure Energy SustainabilityCost …
Building Information Model
Evaluation Of Results
Adjustment Of Design (Parameters)
Simulation/Analysis
DESIGN PROCES
© [9.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Problem Statement
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Problem Statement
Building Energy Model
(BEM)
Building Information Model
(BIM)
Architectural and technical data
manually re-entering
automatically generating
still common practice
1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Problem Statement
Paradigm Shift
© [10.]
MacLeamy curve
2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
The acronym ‘LOD’
© [11.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Purpose statement
and Research questions
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
This class’ objective:
giving insight into the technical abilities and points at issue
in the relation between BIM and energy simulation in the different stages of design, with an emphasis on the conceptual stage.
Purpose statement
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
1.Necessary
data transfer?How?
2.Integration BIM and BEPSwith the design process?
When?
4.Relation
BIM – BEPS?
Research questions
3.Approach and
results different programs?
BEPS= Building Energy Performance Simulation
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Research method
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Research method
Literature Review Case studies
1) Building Information modelling (BIM)
2) BIM‐Software
3) Building Energy Performance Simulations
4) Existing links between BIM and BEPS
5) Level Of Development (LOD) and BEPS
II.1 Literature Review
II. Results
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [12.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [13.]
1. Energy Simulation tools integrated within BIM packages
2. Energy simulation software with Graphical User Interface
3. Building Energy Simulation software with BIM import
EcoDesigner Star / Energy Evaluation, Green Building Studio, Sefaira, …
Open Studio, TRNSYS3D, Design Builder
Bink DYWAG, IESVE, eQuest, Design Builder, …
Currently existing links between BIM and BEPS-software:
INTERNAL
EXTERNAL
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Research method
Literature Review Case studies
DESIGN
II.2 Case Studies
II. Results
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EXTERNAL INTERNAL
II. Case studies
1) Submitting a Building Information Model to an energy performance evaluation according to the BelgianEPB regulation
2) From BIM to an external Building Energy Simulation Program.
3) Energy evaluation (tools) integrated with BIM packages
4) Energy evaluation tools intended for the conceptual stage and their link with BIM
5) Mass modelling and early energy evaluation within BIM software
DESIGN
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EXTERNAL INTERNAL
II. Case studies
Main
Variants
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [14.]
Submitting a Building Information Model to an energy performance evaluation according to the Belgian EPB regulation
Energy simulation EXTERNAL to BIM-software
1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EXTERNAL INTERNAL
DESIGN
CONCEPT
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Tightening path E-level
Belgian situation:Dictated:
Max U-values, K-level, E-level, obligation to provide minimum share of renewable energy and to reduce the risk of overheating,…
Evolution average K-level
Year of application
K-le
vel
Year of application
E-le
vel
© [15.] © [16.]
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [17.]
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Which information does the EPB-program request?
� protected volume �Area
� gross floor area �Environmental condition
� position north�Heat transfer coefficient
OR
� thicknesses � thermal properties of the
composing materials
� heat resistance
OR
� thermal conductivity� specific density� specific heat
� thermal bridges �Additional, element-specific properties
� Inertia
� air leakage rate
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
© [18, 19, 20.]
�Type �Heating, Cooling, Ventilation, Domestic hot water, electricity; ‘MEP’
�Slope
�Environmental condition �Systems for • generation • storage • distribution• delivery
�Orientation
�Area of framing, glazing and infill panels
�Frame fraction (ratio of the transparent area to the total area)
�efficiency
�Heat transfer coefficient of framing, glazing and infill panels
�Auxiliary power
�Additional information on the glass and frame �Execution quality (workmanship, implementation)
� Shading (natural/on-site or devices)
� Ventilation grille
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
©[2
1, 2
2.]
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Much of the necessary information is embedded in the BIM… How can we extract it?
Methods for data extraction from ArchiCAD 17 ?
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [23.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
© [24.]
M12
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [25.]
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [26.] © [27.]
Protected area
useful floor area
protected area
attic
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [28.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
FLAT ROOF
MorphZones
(manual)
protected volume V V
heat loss area (total) V X
heat loss area vertical walls V X
heat loss area roof(s) V X
useful floor area V V
Energy Evaluation Excel-report Interactive Schedule
ID (item
recognizable?)
no yes
glass area yes yes
profile area Not in accordance with EPB yes
window area Not in accordance with EPB yes
oriëntation yes characteristic has to be created
U-value glazing yes Value has to be added to the Listing Parameters section
of the Settings dialog
U-value framing yes Value has to be added to the Listing Parameters section
of the Settings dialog
U-value window Not in accordance with EPB Not recommended
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
© [29.]
© [30.]
� protected volume �Area
� gross floor area �Environmental condition
� position north�Heat transfer coefficient
OR
� thicknesses � thermal properties of the
composing materials
� heat resistance
OR
� thermal conductivity� specific density� specific heat
� thermal bridges �Additional, element-specific properties
� Inertia
� air leakage rate
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
© [18, 19, 20.]
�Type �Heating, Cooling, Ventilation, Domestic hot water, electricity; ‘MEP’
�Slope
�Environmental condition �Systems for • generation • storage • distribution• delivery
�Orientation
�Area of framing, glazing and infill panels
�Frame fraction (ratio of the transparent area to the total area)
�efficiency
�Heat transfer coefficient of framing, glazing and infill panels
�Auxiliary power
�Additional information on the glass and frame �Execution quality (workmanship, implementation)
� Shading (natural/on-site or devices)
� Ventilation grille
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.
©[2
1, 2
2.]
Submitting a Building Information Model to an energy performance analysis in EnergyPlus by using the Space Boundary Tool
From BIM to a Building Energy Simulation Program
2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EXTERNAL INTERNAL
DESIGN
CONCEPT
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
How can a BEM be built on the basis of a BIM?
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
How can a BEM be built on the basis of a BIM?
• Reduction and Simplification
• Translation
• Interpretation
Threefold transformation of data upon BIM conversion to BEM
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
© [31.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
© [32.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
© [33.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
BIM
IDF
Space Boundary Tool
© [34.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Graphisoft ArchiCAD Autodesk Revit
© [35.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [36.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [37.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [38.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
e.g. ‘outer leaf’ from ArchiCAD must be linked to ‘Masonry Brick’ from EP
© [39.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [40.]
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [41.]
Building Energy Model
(BEM)
Building Information Model
(BIM)
IFC
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
IDF
EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [42.]
Case study of ArchiCAD’s 'Energy Evaluation'-tool
Energy simulation INTEGRATED with BIM-software
3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EXTERNAL INTERNAL
DESIGN
CONCEPT
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [43.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [44.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [45.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [46.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [47.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
ArchiCAD model data types
�Selected Type�Thermal Block�Renovation status�Area (glazed, opaque, total) [m²]�…
Additional data types
Structures
Openings
Structures
Openings
�Perimeter Psi-value [W/mK]�Shading Device� Infiltration [l/sm]�U-value (glazing, opaque, overall) [W/m²K]�…
�Space Boundary Category�Thermal Block�Thickness [mm]�Area [m²]�…
�Solar Absorptance [%]� Infiltration [l/sm²]�U-value [W/m²K]�Correction Area [m²]�…
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [48.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [49.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [50.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
©[5
1.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [52.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
HEATING
Others…
� Flat plate/Evacuated tube
� Panel area [m²]
� Tilt angle [° fromhorizontal]
� Orientation [° from south]
� Target: Heating/domestichot water
� Water temperature (inlet, outlet) [°C]
COOLING
Others…
� Power [W]
� COP in functionof external air temperature
VENTILATION
Others…
� Type: Supply, Exhaust
� OperationSchedule
� Air Flow Rate[ACH]
� Heat Recovery
© [53, 54, 55.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [56.]
ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [57.]
Overview results
© [58.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Tools for Energy Analysis in the early design stages
4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EXTERNAL INTERNAL
DESIGN
CONCEPT
4.1 Sefaira
4.2 Link between SketchUp and Energyplus
Tools for Energy Analysis in the early design stages
4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
©[5
9.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Plug-In
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [60.]
(1)
(2)
(3)
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
© [61.]
Energy Breakdown
Energy Use Intensity Daylighting
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Heating
Cooling
Lighting
Appliances
Underlight
Well lit
Glare
© [62.]
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [63.]
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [64, 65, 66.]
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [67.]
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [68.]
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [69.]
PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [70.]
Web-App
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
4.1 Sefaira
4.2 Link between SketchUp and Energyplus
Tools for Energy Analysis in the early design stages
4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [71, 72.]
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
PLUG-IN4.2 Link
SketchUpEnergyplus
Tools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [73.]
PLUG-IN4.2 Link
SketchUpEnergyplus
Tools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [74.]
PLUG-IN4.2 Link
SketchUpEnergyplus
Tools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [75.]
PLUG-IN4.2 Link
SketchUpEnergyplus
Tools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [76.]
APPLICATION4.2 Link
SketchUpEnergyplus
Tools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
©[7
7.]
APPLICATION4.2 Link
SketchUpEnergyplus
Tools for Energy Analysis in the early design stages4.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [78.]
© [79.]
Mass Modelling in Revit and ArchiCAD
Mass Modelling in BIM-applications
5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
EXTERNAL INTERNAL
DESIGN
CONCEPT
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
5.1a) Mass Modelling in Autodesk Revit
5.1 Mass Modelling in RevitMass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [80.] © [81.]
5.1 Mass Modelling in RevitMass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [82.]
5.1 Mass Modelling in RevitMass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [83.]
Energy Settings• Building type
• Location
• Ground plane
• Thermal zones
• Building envelope assemblies/constructions
• Glazing Percentage
• Building Operating Schedule
• HVAC System
5.1 Mass Modelling in RevitMass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
5.1 Mass Modelling in RevitMass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [84.]
5.1 Mass Modelling in RevitMass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Mass Model Mass Model with a number of building elements
© [85.]
Mass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
REVIT
Can you make a Mass Model? Yes
Can you perform an energy evaluation on it? Yes
Can you convert/upgrade it to a BIM? Yes
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
5.1b) Mass Modelling in Graphisoft ArchiCAD
5.1 Mass Modelling in ArchiCADMass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
© [86.]
Mass Modelling in BIM-applications5.
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
REVIT ARCHICAD
Can you make a Mass Model? Yes Yes
Can you perform an energy evaluation on it? Yes No
Can you convert/upgrade it to a BIM? Yes No
III. Conclusion
Link between BIM and Energy Simulation: Introduction – Results – Conclusion
Thank you!
E-mail:[email protected]@gmail.com
Or
Linkedin:https://www.linkedin.com/pub/marieline-senave/a5/22a/a8a
References[1.] Juhanson. (2004). Catholic University of Leuven (1834–1968). [Retrieved from: Wikipedia: http://en.wikipedia.org/wiki/Catholic_University_of_Leuven_(1834%E2%80%931968),
12.03.15].
[2.] Stevens, R. (19.10.2012). Fotodatabank . [Retrieved from: KU Leuven: http://www.kuleuven.be/photodb/#centrale%20bibliotheek, 12.03.15].
[3.] X. (06.03.2014). Awareness and usage of BIM among architects is growing. British and Dutch architects have the lead. [Retrieved from: Arch-Vision:
http://www.archvision.eu/persberichten/Awareness_&_usage_BIM_among_architects_growing.British_&_Dutch_architects_have_lead.pdf, 17.08.14]
[4.] Architectenkrant. (05.2014). Onderzoek Belgische architecten. [Presentation][Retrieved from: @tonpublishing: http://www.atonpublishing.com/enquete-2014-nl.pdf, 14.03.2015].
[5.] X. (2014). De bouwsector in cijfers (2014). [Retrieved from: fvb constructiv: http://fvb.constructiv.be/nl/Over%20het%20fvb/Kerncijfers/De%20bouwsector%20in%20cijfers.aspxl,
14.03.2015].
[6.] X. (s.d.). The End Of Fossil Fuels. [Retrieved from: Ecotricity: https://www.ecotricity.co.uk/our-green-energy/energy-independence/the-end-of-fossil-fuels, 12.03.15].
[7.] X. (s.d.). The Greenhouse Effect. [Retrieved from: Fresh Air. The Scent of Pine: http://scentofpine.org/gw101-1/, 12.03.15].
[8.] Visser, H. (14.03.2014). Energieplus bouwen en renoveren. [Retrieved from: Bouwend Nederland: http://www.bouwendnederland.nl/nieuws/30700/energieplus-bouwen-en-
renoveren, 12.03.15].
[9.] Senave, M. (2014).
[10.] The American Institute of Architects (2007). Integrated Project Delivery: A Guide. [Retrieved from: AIA National: http://info.aia.org/siteobjects/files/ipd_guide_2007.pdf ,
29.07.2014], p.21.
[11.] McPhee, A. (01.03.2013). What is this thing called LOD. [Retrieved from: Practical BIM: http://practicalbim.blogspot.com.au/2013/03/what-is-this-thing-called-lod.html,
29.07.2014].
[12.] Senave, M. (2014).
[13.] Bazjanac, V., Fischer, M. & Maile, T. (2007). Building Energy Performance Simulation Tools ‐ a Life‐ Cycle and Interoperable Perspective. [raadplegingsdatum:29.07.14,
CIFE: http://cife.stanford.edu/sites/default/files/WP107.pdf], p.3.
[14.] Senave, M. (2014) [Render Graphisoft ArchiCAD 17].
[15.] Vlaams Energieagentschap. (2014). Cijferrapport energieprestatieregelgeving – Procedures, resultaten en energetische karakteristieken van het Vlaamse gebouwenbestand-
periode 2006-2013. [Retrieved from: Energiesparen: http://www2.vlaanderen.be/economie/energiesparen/epb/doc/EPBincijfers-2006-2013.pdf, 08.04.15], p5.
[16.] Vlaams Energieagentschap. (2014). Cijferrapport energieprestatieregelgeving – Procedures, resultaten en energetische karakteristieken van het Vlaamse gebouwenbestand-
periode 2006-2013. [Retrieved from: Energiesparen: http://www2.vlaanderen.be/economie/energiesparen/epb/doc/EPBincijfers-2006-2013.pdf, 08.04.15], p19.
[17.] Senave, M. (2014) [Screenshot EPB 3G 5.0.2].
[18.] X. (s.d.). Modern termoisolation. 3D house render. [Retrieved from: cg products: http://www.cgproducts.net/#/modern-termoisolation, 06.04.15].
[19.] Voshage, J. (30.01.2014). ArchiCAD 17 Integrated Energy Analysis. [YouTube video Graphisoft] [Retrieved from: ffp:
http://www.formfollowsperformance.com/2014/01/archicad-17-integrated-energy-analysis/, 06.04.15] (screenshot).
[20.] X. (2015). ArchiCAD Upgrade Calculator. [Retrieved from: Graphisoft connect: http://www.gsconnect.co.uk/calculator.php, 06.04.15].
[21.] X. (2014). BALANS Vridfönster. [Retrieved from: bimobject: https://sp-fonster.bimobject.com/SP_VF_O, 06.04.15].
[22.] X. (s.d.). ECL 2011, Stabiplan-products. [Retrieved from: easyFairs: http://www.easyfairs.com/events_216/ecl2011_15095/ecl-
2011_15128/exhibitors_15142/exhibitors-catalogue_15154/stand/327058/, 06.04.15].
[23.] Senave, M. (2014).
[24.] Senave, M. (2014).
[25.] Senave, M. (2014).
[26.] Vlaams Energieagentschap (VEA) (09.2010). Nota: Beschermd volume, verliesoppervlakten en andere oppervlakten in het kader van energieprestatieregelgeving.
[Retrieved from: Vlaanderen: http://www2.vlaanderen.be/economie/energiesparen/epb/doc/berekeningbvopp.pdf, 29.07.14], p.2.
[27.] Vlaams Energieagentschap (VEA) (09.2010). Nota: Beschermd volume, verliesoppervlakten en andere oppervlakten in het kader van energieprestatieregelgeving.
[Retrieved from: Vlaanderen: http://www2.vlaanderen.be/economie/energiesparen/epb/doc/berekeningbvopp.pdf, 29.07.14], p.23.
[28.] Senave, M. (2014) [Render Grapishoft ArchiCAD 17].
[29.] Senave, M. (2014).
[30.] Senave, M. (2014).
[31.] Bazjanac, V. & Kiviniemi, A. (2007). Reduction, Simplification, Translation and Interpretation in the Exchange of Model Data. Paper presented at the CIB-W78 24th
International Conference on Bringing ITC Knowledge to Work van 26-29.6.07 in Maribor, Poland, pp.5.
[32.] Bazjanac, V. & Kiviniemi, A. (2007). Reduction, Simplification, Translation and Interpretation in the Exchange of Model Data. Paper presented at the CIB-W78 24th
International Conference on Bringing ITC Knowledge to Work van 26-29.6.07 in Maribor, Poland, pp.3.
[33.] Bazjanac, V., Ficher, M. & Maile, T. (2007). Building Energy Performance Simulation Tools - a Life-Cycle and Interoperable Perspective. [Retrieved from: CIFE:
http://cife.stanford.edu/sites/default/files/WP107.pdf, 29.07.14], p.4.
[34.] Bazjanac, V., Fischer, M. & Maile, T. (2007). Building Energy Performance Simulation Tools - a Life-Cycle and Interoperable Perspective. [Retrieved from: CIFE:
http://cife.stanford.edu/sites/default/files/WP107.pdf, 29.07.14], p.33.
[35.] Senave, M. (2014) [Render Grapishoft ArchiCAD 17 and Autodesk Revit 2014].
[36.] Senave, M. (2014) [Screenshot Space Boundary Tool 1.5.7].
[37.] Senave, M. (2014) [Screenshot Revit 2014 (top left), Space Boundary Tool 1.5.7 (bottom left) and Solibri Model Viewer v9 (right)].
[38.] Senave, M. (2014) [Screenshot Space Boundary Tool 1.5.7].
[39.] Senave, M. (2014) [Screenshot Graphisoft ArchiCAD 17 (left) and IDFEditor 1.43a (right)].
[40.] Senave, M. (2014) [Screenshot Space Boundary Tool 1.5.7].
[41.] Senave, M. (2014).
[42.] Bazjanec, V., Maile, T., Morrissey E., Mrazović, N., O’Donnell, J., Parrish, K., Regnier, C. & Rose, C. (01.2013). Transforming BIM to BEM: Generation of Building
Geometry for the NASA Ames Sustainability Base BIM. [Retrieved from: Berkeley Lab, http://eetd.lbl.gov/sites/all/files/publications/lbnl-6033e.pdf, 29.07.14,], p.5.
[43.] Senave, M. (2014).
[44.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[45.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[46.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[47.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[48.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[49.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[50.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[51.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[52.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[53.] Thermorossi. (s.d.). Flat solar thermal collector. [Retrieved from: Archi Expo: http://www.archiexpo.com/prod/thermorossi/flat-solar-thermal-collector-886-
306600.html, 08.04.15].
[54.] X. (2013). Tips to Save Money on Heating & Cooling System. [Retrieved from: Building The Great: http://buildingthegreat.com/category/heating-cooling-system/,
08.04.15].
[55.] X. (s.d.). Healthy Indoor Air Quality with Mechanical Ventilation. [Retrieved from: City of Berkeley: http://www.ci.berkeley.ca.us/ventilation/, 08.04.15].
[56.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].
[57.] Thoo, S. (14.08.2008). Interoperability and Sustainable Design. [Retrieved from: AECbytes Feature:
http://www.aecbytes.com/feature/2008/Interoperability_SustainableDesign.html, 05.03.14].
[58.] Senave, M. (2014).
[59.] Sterner, C. (2014). Webinar: Introducing Real-Time Analysis in Sefaira for Revit [movie]. o.p.: vimeo [Retrieved from: Sefaira: https://vimeo.com/108384482,
08.04.15] (screenshot).
[60.] Sefaira.
[61.] Sefaira.
[62.] Sefaira.
[63.] Sefaira.
[64.] Voshage, J. (2014). Sefaira Releases Performance Analysis Plug-in for Revit. [Retrieved from: ffp: http://www.formfollowsperformance.com/2014/09/sefaira-
releases-performance-analysis-plug-in-for-revit/, 08.04.15].
[65.] X. (s.d.). [Retrieved from: Sefaira: http://support.sefaira.com/hc/en-us/article_attachments/201869705/Final.png, 08.04.15].
[66.] Schoen, K. (2014). Daylighting in Sefaira for SketchUp [Retrieved from: Sefaira: http://support.sefaira.com/entries/39811866-Daylighting-in-Sefaira-for-SketchUp, 11.08.14].
[67.] X. (Prod.) (z.d.). Per/form Webinar: Tips and Tricks. [movie], o.p.: vimeo. [Retrieved from: Vimeo, http://vimeo.com/92336198, 17.05.14].
[68.] Sefaira.
[69.] Sefaira.
[70.] Burgard, A. & Sterner, C. (Prod.) (2013). Balancing Daylight & Energy [movie]. o.p.: vimeo [Retrieved from: Sefaira: http://vimeo.com/88290976, 17.05.14] (screenshot).
[71.] Senave, M. (2014)[Screenshot SketchUp 2014].
[72.] X. (2013). Understanding SketchUp Objects [Retrieved from: SketchUp: http://help.sketchup.com/en/article/3000039, 08.04.15].
[73.] NREL. (z.d.). SketchUp Plug-in | Reference Guide. [Retrieved from: Open Studio: https://openstudio.nrel.gov/sketchup-plug-reference-guide, 17.08.14].
[74.] Senave, M. (2014)[Screenshot SketchUp 8.0 met OpenStudio SketchUp plug-in].
[75.] Senave, M. (2014)[Screenshot SketchUp 8.0 met OpenStudio SketchUp plug-in].
[76.] Senave, M. (2014)[Screenshot SketchUp 8.0 met OpenStudio SketchUp plug-in].
[77.] Senave, M. (2014)[Screenshot OpenStudio application (version 1.1.0)].
[78.] Senave, M. (2014)[Screenshot OpenStudio application (version 1.1.0)].
[79.] NRELOpenStudio. (Prod) (2012). OpenStudio 0.7 Basic Workflow Guide (Thermal Zones and HVAC Systems Tabs) [Movie]. o.p.: YouTube [Retrieved from: YouTube:
https://www.youtube.com/watch?v=r4WjZbbtTS4, 09.08.14] (screenshot).
[80.] Light, D. (2010). Back to Basics – Conceptual Masses in Revit 2011. [Retrieved from: Everything Autodesk Revit & BIM: http://autodesk-revit.blogspot.be/2010/09/back-to-
basics-conceptual-masses-in.html, 08.04.15].
[81.] captainswat. (2013). RENAISSANCE REVIT BY PAUL AUBIN. [Retrieved from: REVIT SWAT: https://revitswat.wordpress.com/2013/11/09/renaissance-revit-by-paul-aubin/,
08.04.15].
[82.] Senave, M. (2014)[Screenshot Revit 2014].
[83.] Senave, M. (2014)[Screenshot Revit 2014].
[84.] Senave, M. (2014)[Screenshot Revit 2014].
[85.] Senave, M. (2014)[Screenshot Revit 2014].
[86.] Senave, M. (2014)[Screenshot Graphisoft ArchiCAD 17].