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| | =Introduction= | | =Introduction= |
| | There is currently 2 BIM format related to energy modeling : [https://www.gbxml.org/ gbXML] and IFC ([https://standards.buildingsmart.org/IFC/RELEASE/IFC4_1/FINAL/HTML/link/ifcrelspaceboundary2ndlevel.htm using IfcRelSpaceBoundary2ndLevel]) | | There is currently 2 BIM format related to energy modeling : [https://www.gbxml.org/ gbXML] and IFC ([https://standards.buildingsmart.org/IFC/RELEASE/IFC4_1/FINAL/HTML/link/ifcrelspaceboundary2ndlevel.htm 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. There are significant challenges (in 2022) with IFC and space boundaries, [[BuildingSMART International]] is working to improve the situation by improving the Information Delivery Manual (IDM) for Building Energy Modelling (BEM). The current status (in 2022) can be seen in a video from bS Virtual Summit Spring 2021 in the presentation [https://vimeo.com/539127482 BR5 - Jeffrey Ouellette - Building Energy Modelling (BEM)]. | + | 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. |
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| − | See the [[:Category:Building_Energy_Modeling_(BEM)]] category for more general info and tools!
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| − | Note to editors: Add a gbXML vs IFC features comparison
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| | + | [Add a gbXML vs IFC features comparison] |
| | =Energy modeling workflow (/!\Work in progress/!\)= | | =Energy modeling workflow (/!\Work in progress/!\)= |
| | ==Modeling the building== | | ==Modeling the building== |
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| | * Energy data : Thermal transmittance, wall layers, thermal conductivity, solar transmittance, light transmittance 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. | | Overmodelled building often lead to error and/or uselessly complex computation. A energy model should be simple and contain only energy relevant information. |
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| − | ==BlenderBIM Add-on==
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| − | BlenderBIM Add-on allows you to create, modify an IFC targeting energy analysis. You can either:
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| − | * Rework an IFC coming from another authoring tool. This is probably the most efficient workflow currently. It allows you to enhance your model and fixes common known issues incoming from popular authoring software.
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| − | * Create a model from scratch. You might want to take a look at topologic and related projects for more automation.
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| | ==Energy specific geometry== | | ==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] | | An algorithm need to generate energy specific [https://standards.buildingsmart.org/IFC/RELEASE/IFC4_1/FINAL/HTML/link/ifcrelspaceboundary2ndlevel.htm space boundaries] |
| | ==Export to common energy exchange formats== | | ==Export to common energy exchange formats== |
| | Software need provide an Ifc or gbXML. | | Software need provide an Ifc or gbXML. |
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| − | === Revit ===
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| − | ==== Configuration ====
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| − | TODO
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| − | ==== Known issues ====
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| − | {{warning|lastly tested with Revit 2021. revit-ifc 21.2.1}}
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| − | IFC 2x3 and 4 :
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| − | * export boundaries at middle of the wall instead of interior face.
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| − | * roof boundaries are oversplitted if they host an element (eg. skylight / hole for lift top)
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| − | * type B boundaries are not exported
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| − | IFC4 :
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| − | * CorrespondingBoundary attribute is not filled
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| − | * ParentBoundary attribute is not filled
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| − | === ArchiCAD ===
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| − | ==== Configuration ====
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| − | By default ArchiCAD use IFC4 reference view MVD which do not contain IfcMaterialLayerSet(Usage). So layered wall will not contain thickness of each layer. Use a custom IFC translator using parametric
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| − | ==== Known issues ====
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| − | {{warning|lastly tested with ArchiCAD 24}}
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| − | IFC 2x3 and 4 :
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| − | * window and door boundaries are not coplanar with their host
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| − | * There is no hole for window and door boundaries in their host
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| − | * type B boundaries are not exported
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| − | IFC4 :
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| − | * CorrespondingBoundary attribute is not filled
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| − | * ParentBoundary attribute is not filled
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| | ==Adaptation to local standards== | | ==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] | | Both IFC and gbXML are not directly usable for local standards as each country have it's own specification. [Add an exemple] |
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| − | A tool for adjusting an .ifc file to local regulations is [[BIMxBEM]] which currently has a configuration to support Swiss standards for energy modeling. Contact the developer and you can start making a new localization.
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| | =Scientific article or conference paper on energy modeling= | | =Scientific article or conference paper on energy modeling= |
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| | ! style="text-align:left;" | Title | | ! style="text-align:left;" | Title |
| | ! style="text-align:left;" | Short resume | | ! style="text-align:left;" | Short resume |
| − | |-
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| − | | Yes
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| − | | 2020
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| − | | style="text-align:left;" | [https://www.researchgate.net/publication/345983333_IFC_to_Building_Energy_Performance_Simulation_A_systematic_review_of_the_main_adopted_tools_and_approaches IFC to Building Energy Performance Simulation: A systematic review of the main adopted tools and approaches]
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| − | | style="text-align:left;" |
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| | |- | | |- |
| | | Yes | | | Yes |
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| | | style="text-align:left;" | [https://www.researchgate.net/publication/303179536_BIM_IFC_information_mapping_to_building_energy_analysis_BEA_model_with_manually_extended_material_information BIM IFC information mapping to building energy analysis (BEA) model with manually extended material information] | | | style="text-align:left;" | [https://www.researchgate.net/publication/303179536_BIM_IFC_information_mapping_to_building_energy_analysis_BEA_model_with_manually_extended_material_information BIM IFC information mapping to building energy analysis (BEA) model with manually extended material information] |
| | | style="text-align:left;" | | | | style="text-align:left;" | |
| − | |-
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| − | | Yes
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| − | | 2019
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| − | | style="text-align:left;" | [https://www.researchgate.net/publication/329954730_A_combined_scientometric_and_conventional_literature_review_to_grasp_the_entire_BIM_knowledge_and_its_integration_with_energy_simulation A combined scientometric and conventional literature review to grasp the entire BIM knowledge and its integration with energy simulation]
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| − | |-
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| − | | Yes
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| − | | 2021
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| − | | style="text-align:left;" | [https://www.conftool.pro/bs2021/index.php/30888_Lilis_Georgios_Nektarios.pdf?page=downloadPaper&filename=30888_Lilis_Georgios_Nektarios.pdf&form_id=30888 Automatic IFC data enrichment with space geometries for Building Energy Performance Simulations]
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| − | | style="text-align:left;" |
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| − | |-
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| − | | Yes
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| − | | 2021
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| − | | style="text-align:left;" | [https://www.conftool.pro/bs2021/index.php/30156_Fichter_Eric.pdf?page=downloadPaper&filename=30156_Fichter_Eric.pdf&form_id=30156 Automatic generation of second level space boundary geometry from IFC models]
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| − | | style="text-align:left;" |
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| − | |-
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| − | | Yes
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| − | | 2019
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| − | | style="text-align:left;" | [https://www.researchgate.net/profile/Georgios-Lilis/publication/335676583_A_Workflow_for_Automated_Building_Energy_Performance_Model_Generation_Using_BIM_Data/links/5d73518d92851cacdb271141/A-Workflow-for-Automated-Building-Energy-Performance-Model-Generation-Using-BIM-Data.pdf A Workflow for Automated Building Energy Performance Model Generation Using BIM Data]
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| − | | style="text-align:left;" |
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| − | |-
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| − | | Yes
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| − | | 2019
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| − | | style="text-align:left;" | [https://www.researchgate.net/profile/Georgios-Lilis/publication/334448038_An_IFC_data_preparation_workflow_for_building_energy_performance_simulation/links/5d2a0f84299bf1547cb48c6c/An-IFC-data-preparation-workflow-for-building-energy-performance-simulation.pdf An IFC data preparation workflow for building energy performance simulation]
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| | |} | | |} |
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| − | =See also=
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| − | * There is a discussion tag on our forum for [https://community.osarch.org/discussions/tagged/Building_Energy_Modeling_BEM Building Energy Modeling (BEM)]
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| − | =External Resources=
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| − | * [[https://app.box.com/s/1lo25g724749mbqjhgixy2nqdarq33uw|Information Delivery Manual (IDM)Development for Building Information Modelling (BIM) and Building Energy Modelling (BEM) Workflows]]
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| − | * [https://forums.buildingsmart.org/t/about-the-bim-bem-idm-development-category/4172 Discussion topic on buildingSmart forum]
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| | [[Category:Autodesk Revit]] | | [[Category:Autodesk Revit]] |
| − | [[Category:Building Energy Modeling (BEM)]]
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| − | {{Template:Analysis_and_Simulation}}
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