Difference between revisions of "Building Energy Modeling (BEM)"

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m (Add workflow for energy modeling)
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[Add a gbXML vs IFC features comparison]
 
[Add a gbXML vs IFC features comparison]
 
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=Energy modeling workflow (/!\Work in progress/!\)=
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==Modeling the building==
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Building need to be modeled with all data relevant to energy analysis :
 +
* Building geometry : Walls, Slabs, Doors, Windows, Spaces etc…
 +
* Energy data : Thermal transmittance, wall layers, thermal conductivity, solar transmittance, light transmittance etc…
 +
Overmodelled building often lead to error and/or uselessly complex computation. A energy model should be simple and contain only energy relevant information.
 +
==Energy specific geometry==
 +
An algorithm need to generate energy specific [https://standards.buildingsmart.org/IFC/RELEASE/IFC4_1/FINAL/HTML/link/ifcrelspaceboundary2ndlevel.htm space boundaries]
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==Export to common energy exchange formats==
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Software need provide an Ifc or gbXML.
 +
==Adaptation to local standards==
 +
Both IFC and gbXML are not directly usable for local standards as each country have it's own specification. [Add an exemple]
 
=Scientific article or conference paper on energy modeling=
 
=Scientific article or conference paper on energy modeling=
  

Revision as of 21:53, 5 September 2020

Introduction

There is currently 2 BIM format related to energy modeling : gbXML and IFC (using IfcRelSpaceBoundary2ndLevel) Most energy analysis software reads gbXML. Some read IFC. Generating geometry for gbXML and IfcRelSpaceBoundary is quite similar. Information contained in both format is different.

[Add a gbXML vs IFC features comparison]

Energy modeling workflow (/!\Work in progress/!\)

Modeling the building

Building need to be modeled with all data relevant to energy analysis :

  • Building geometry : Walls, Slabs, Doors, Windows, Spaces etc…
  • Energy data : Thermal transmittance, wall layers, thermal conductivity, solar transmittance, light transmittance etc…

Overmodelled building often lead to error and/or uselessly complex computation. A energy model should be simple and contain only energy relevant information.

Energy specific geometry

An algorithm need to generate energy specific space boundaries

Export to common energy exchange formats

Software need provide an Ifc or gbXML.

Adaptation to local standards

Both IFC and gbXML are not directly usable for local standards as each country have it's own specification. [Add an exemple]

Scientific article or conference paper on energy modeling

Full text
available ?
publication
year
Title Short resume
Yes 2020 IFC-Based BIM-to-BEM Model Transformation
Yes 2017 Automatic generation of second-level space boundary topology from IFCgeometry inputs Polyhedron algorithm
Yes 2017 Template based code generation of Modelica building energy simulation models City to Modelica
Yes 2016 BIM based whole-building energy analysis towards an improved interoperability IFC to gbXML
Yes 2016 BIM enabled building energy modelling: development and verification of a GBXML to IDF conversion method gbXML to idf to design4energy
Yes 2016 Model View Definition for Advanced Building Energy Performance Simulation Energy MVD
Yes 2016 Research & Development Roadmap for BuildingEnergy Modeling
Yes 2015 Service-Oriented Architecture For DataExchange Between A Building InformationModel And A Building Energy
Yes 2015 Link between BIM and energy simulation IFC to Space Bondary Tool to IDF to energy+
gbXML to IDF to energy+
Yes 2015 INTEROPERABILITY OF BUILDING ENERGY MODELING (BEM) WITH BUILDING INFORMATION MODELING (BIM)
Yes 2014 Translating Building Information Modeling to Building EnergyModeling Using Model View Definition Revit to Modelica
Yes 2013 Transforming BIM to BEM: Generation ofBuilding Geometry for the NASA AmesSustainability Base BIM Ifc to BEM using Space Boundary Tool
Yes 2013 Interfacing BIM with Building Thermal and Daylighting Modeling Revit to Modelica
Yes 2013 A Thermal Simulation Tool for Building and Its Interoperabilitythrough the Building Information Modeling (BIM) Platform State on softwares in 2013
Yes 2011 ThermalOpt: A Methodology forAutomated BIM-BasedMultidisciplinary ThermalSimulation for Use in OptimizationEnvironments Ifc to thermal simulation
Yes 2008 IFC BIM-Based Methodology for Semi-Automated Building EnergyPerformance Simulation Ifc to energy+
No 2015 A process to divide curved walls in IFC-BIM intosegmented straight walls for building energyanalysis Curved wall segmentation
No 2017 Building Information Modelling for analysis of energy efficientindustrial buildings – A case study Revit to gbXML to sketchup to idf to energy+
No 2013 An algorithm to generate space boundaries for building energysimulation Graph algorithm
No 2016 Automation of CAD models to BEM models for performance basedgoal-oriented design methods
No 2016 A framework to integrate object-oriented physical modelling with building information modelling for building thermal simulation
No 2007 A comparative study of the IFC and gbXML informational infrastructures for data exchange in computational design support environments Revit to Modelica
No 2016 BIM IFC information mapping to building energy analysis (BEA) model with manually extended material information