BIM Show Live 2015: Link between BIM and Energy Simulation

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


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


BIM Show Live 2015, Manchester

Link between BIM and Energy Simulation

I. Introduction

Context



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


1.

© Figure based on data from [3.]

Context



Architects using BIM (2013)

Context



Architects just aware of BIM (2013)

Context



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.]


CONTEXT


2.

Context


Greenhouse effect

2.

Depletion of Energy Reserves

© [6.]

Context


Greenhouse Effect

2.

© [7.]

Context


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.


��

Context


Structure Energy SustainabilityCost …

Building Information Model

Evaluation Of Results

Adjustment Of Design (Parameters)

Simulation/Analysis

DESIGN PROCES

© [9.]


Problem Statement


Problem Statement

Building Energy Model

(BEM)


(BIM)

Architectural and technical data

manually re-entering

automatically generating

still common practice

1.


Problem Statement

Paradigm Shift

© [10.]

MacLeamy curve

2.


The acronym ‘LOD’

© [11.]


Purpose statement

and Research questions


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


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


Research method


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



© [12.]


© [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



Research method

Literature Review Case studies

DESIGN

II.2 Case Studies

II. Results


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


EXTERNAL INTERNAL

II. Case studies

Main

Variants


© [14.]

Submitting a Building Information Model to an energy performance evaluation according to the Belgian EPB regulation

Energy simulation EXTERNAL to BIM-software

1.


EXTERNAL INTERNAL

DESIGN

CONCEPT

Belgian EPB softwareEnergy simulation EXTERNAL to BIM-software1.


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.]



© [17.]



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



© [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



©[2

1, 2

2.]



Much of the necessary information is embedded in the BIM… How can we extract it?

Methods for data extraction from ArchiCAD 17 ?



© [23.]



© [24.]

M12





© [25.]



© [26.] © [27.]

Protected area

useful floor area

protected area

attic



© [28.]


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


© [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



© [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



©[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.


EXTERNAL INTERNAL

DESIGN

CONCEPT

EnergyPlus via Space Boundary ToolFrom BIM to a Building Energy Simulation Program2.


How can a BEM be built on the basis of a BIM?


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




© [31.]



© [32.]



© [33.]



BIM

IDF

Space Boundary Tool

© [34.]



Graphisoft ArchiCAD Autodesk Revit

© [35.]



© [36.]



© [37.]



© [38.]



e.g. ‘outer leaf’ from ArchiCAD must be linked to ‘Masonry Brick’ from EP

© [39.]



© [40.]



© [41.]

Building Energy Model

(BEM)


(BIM)

IFC



IDF



© [42.]

Case study of ArchiCAD’s 'Energy Evaluation'-tool

Energy simulation INTEGRATED with BIM-software

3.


EXTERNAL INTERNAL

DESIGN

CONCEPT

ArchiCAD’s'Energy Evaluation'-toolEnergy simulation INTEGRATED with BIM-software3.


© [43.]



© [44.]



© [45.]



© [46.]



© [47.]



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]�…



© [48.]



© [49.]



© [50.]



©[5

1.]



© [52.]



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.]



© [56.]



© [57.]

Overview results

© [58.]


Tools for Energy Analysis in the early design stages

4.


EXTERNAL INTERNAL

DESIGN

CONCEPT

4.1 Sefaira

4.2 Link between SketchUp and Energyplus


4.


©[5

9.]


Plug-In


PLUG-IN4.1 SefairaTools for Energy Analysis in the early design stages4.


© [60.]

(1)

(2)

(3)



© [61.]

Energy Breakdown

Energy Use Intensity Daylighting



Heating

Cooling

Lighting

Appliances

Underlight

Well lit

Glare

© [62.]



© [63.]



© [64, 65, 66.]



© [67.]



© [68.]



© [69.]



© [70.]

Web-App


4.1 Sefaira

4.2 Link between SketchUp and Energyplus


4.



© [71, 72.]


PLUG-IN4.2 Link

SketchUpEnergyplus

Tools for Energy Analysis in the early design stages4.


© [73.]

PLUG-IN4.2 Link

SketchUpEnergyplus



© [74.]

PLUG-IN4.2 Link

SketchUpEnergyplus



© [75.]

PLUG-IN4.2 Link

SketchUpEnergyplus



© [76.]

APPLICATION4.2 Link

SketchUpEnergyplus



©[7

7.]

APPLICATION4.2 Link

SketchUpEnergyplus



© [78.]

© [79.]

Mass Modelling in Revit and ArchiCAD

Mass Modelling in BIM-applications

5.


EXTERNAL INTERNAL

DESIGN

CONCEPT


5.1a) Mass Modelling in Autodesk Revit

5.1 Mass Modelling in RevitMass Modelling in BIM-applications5.


© [80.] © [81.]



© [82.]



© [83.]

Energy Settings• Building type

• Location

• Ground plane

• Thermal zones

• Building envelope assemblies/constructions

• Glazing Percentage

• Building Operating Schedule

• HVAC System





© [84.]



Mass Model Mass Model with a number of building elements

© [85.]

Mass Modelling in BIM-applications5.


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


5.1b) Mass Modelling in Graphisoft ArchiCAD

5.1 Mass Modelling in ArchiCADMass Modelling in BIM-applications5.


© [86.]

Mass Modelling in BIM-applications5.


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


Thank you!

E-mail:[email protected]@gmail.com

Or

Linkedin:https://www.linkedin.com/pub/marieline-senave/a5/22a/a8a

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