diplomska naloga
Miloš Todorović (Avtor), Žiga Turk (Mentor), Matevž Dolenc (Član komisije za zagovor)

Povzetek

Projektiranje z orodji BIM ob upoštevanju trajnostnih kriterijev

Ključne besede

gradbeništvo;diplomska dela;UNI;interoperabilnost;BIM;parametrični 3D model konstrukcije;trajnostni razvoj;energetska analiza;emisije CO2;

Podatki

Jezik: Slovenski jezik
Leto izida:
Izvor: Ljubljana
Tipologija: 2.11 - Diplomsko delo
Organizacija: UL FGG - Fakulteta za gradbeništvo in geodezijo
Založnik: [M. Todorović]
UDK: 004.42:004.6:659.2:69(043.2)
COBISS: 4904033 Povezava se bo odprla v novem oknu
Št. ogledov: 2505
Št. prenosov: 560
Ocena: 0 (0 glasov)
Metapodatki: JSON JSON-RDF JSON-LD TURTLE N-TRIPLES XML RDFA MICRODATA DC-XML DC-RDF RDF

Ostali podatki

Sekundarni jezik: Angleški jezik
Sekundarni naslov: Designing with BIM tools using sustainability criteria
Sekundarni povzetek: A new breakthrough era in design has begun in whole building industry, which is based on BIM – Building Information Model. The emphasis of the new workflow is in information stored inside building model which is used in BIM-based software from where all designers get the needed data and work on. A change from designing on paper to designing in CAD (Computer Aided Design) software was a big change, although it actually just changed the normal paper with digital one. While on the other hand BIM is said by many to be a much bigger change in the way things work in building industry. The thesis focuses on the possibilities of BIM in building design regarding buildings’ energy efficiency and sustainability, which is becoming more and more important nowadays because of the climate change. There are many BIM software providers, but currently the most popular of them all in worldwide comparison is Revit from American corporation Autodesk. Software package contains three applications – Revit Architecture (for architects), Revit Structure (for structural engineers) and Revit MEP (for MEP engineers). There are many other specialized software applications which can work with Revit, but when we are considering sustainable design there are two programs from Autodesk which stand out – Ecotect Analysis and Green Building Studio (GBS). The thesis outlines history and development of BIM design and stresses out the importance in possibility of software interoperability and plots the basics of sustainable design in BIM. After that, description of modeling reinforced concrete structure of chosen building is shown in Revit Architecture 2010. The first goal of the thesis was modeling a whole detailed architectural model of the building, but when we realized the importance of using sustainable design analysis software is in the conceptual phase of design, we dropped that goal. The thesis then shows how a conceptual design of the building is modeled and then used in further study inside Ecotect Analysis 2010 and GBS. The study in Ecotect shows average daily insulation analysis and overshadowing of the building. GBS’s study shows possibilities and results of VIII
Sekundarne ključne besede: interoperability;BIM;parametrical 3D construction model;sustainable design;energy analysis;CO2 emissions;
Vrsta datoteke: application/pdf
Vrsta dela (COBISS): Diplomsko delo
Komentar na gradivo: Univ. v Ljubljani, Fak. za gradbeništvo in geodezijo
Strani: XVIII, 84 str., pril.
Vrsta dela (ePrints): thesis
Naslov (ePrints): Designing With BIM Tools Using Sustainability Criteria
Ključne besede (ePrints): interoperabilnost;BIM;parametrični 3D model konstrukcije;trajnostni razvoj;energetska analiza;emisije CO2
Ključne besede (ePrints, sekundarni jezik): interoperability;BIM;parametrical 3D construction model;sustainable design;energy analysis;CO2 emissions
Povzetek (ePrints): V gradbeni industriji se pojavlja nov, prelomen način projektiranja zgradb, ki temelji na informacijskem modelu zgradbe, to je BIM - Building Information Model. Ta način teži k temu, da so na enem mestu zbrane vse informacije o načrtovani zgradbi in da vsi programi, s katerimi arhitekti in inženirji delajo, BIM uporabljajo za črpanje in shranjevanje podatkov. Sprememba od načrtovanja na papirju k načrtovanju s pomočjo risarskih CAD (Computer Aided Design) programov je bila sicer novost, ki pa je v bistvu samo papir zamenjala z digitalno risalno desko. BIM pa po mnenju nekaterih začenja povsem novo ero gradbene industrije. V nalogi nas zanima, kako se BIM obnese za tisti del projektiranja, ki se nanaša na upoštevanje energetske in snovne učinkovitosti zgradbe. Le-ta je v luči boja proti klimatskim spremembam namreč vedno bolj pomembna. Med ponudniki BIM programskih aplikacij je trenutno v svetovnem merilu najbolj popularen programski paket Revit ameriške korporacije Autodesk. Programska družina Revit sestoji iz treh glavnih programov – Revit Architecture (namenjen arhitektom), Revit Structure (namenjen gradbenikom) ter Revit MEP (namenjen strojnikom). Poleg teh pa obstaja še vrsta ostalih specializiranih programov, ki so z družino Revit povezljivi, konkretneje v povezavi s trajnostnim razvojem izstopata dva Autodeskova programa – Ecotect Analysis in Green Building Studio. Diplomska naloga najprej oriše razvoj BIM projektiranja in izpostavi še vedno pomembno potrebo po interoperabilnosti programske opreme. Opozori na pomembnost trajnostnega razvoja znotraj BIM projektiranja. Sledi opis in prikaz modeliranja armiranobetonske nosilne konstrukcije izbranega objekta v programu Revit Architecture 2010. Sprva predvideno nadaljnje detajlnejše arhitektonsko modeliranje objekta se je na tem mestu zaključilo, ker se programi za analizo energetkih in snovnih učinkovitosti v BIM-u uporabljajo v začetni, konceptualni fazi projektiranja zgradb. Tako je prikazano ponovno modeliranje zgradbe v smislu konceptualne zasnove in povezava s programoma Ecotect Analysis 2010 in Green Building Studio (GBS). V prvem sta prikazani analiza povprečne dnevne osončenosti in
Povzetek (ePrints, sekundarni jezik): A new breakthrough era in design has begun in whole building industry, which is based on BIM – Building Information Model. The emphasis of the new workflow is in information stored inside building model which is used in BIM-based software from where all designers get the needed data and work on. A change from designing on paper to designing in CAD (Computer Aided Design) software was a big change, although it actually just changed the normal paper with digital one. While on the other hand BIM is said by many to be a much bigger change in the way things work in building industry. The thesis focuses on the possibilities of BIM in building design regarding buildings’ energy efficiency and sustainability, which is becoming more and more important nowadays because of the climate change. There are many BIM software providers, but currently the most popular of them all in worldwide comparison is Revit from American corporation Autodesk. Software package contains three applications – Revit Architecture (for architects), Revit Structure (for structural engineers) and Revit MEP (for MEP engineers). There are many other specialized software applications which can work with Revit, but when we are considering sustainable design there are two programs from Autodesk which stand out – Ecotect Analysis and Green Building Studio (GBS). The thesis outlines history and development of BIM design and stresses out the importance in possibility of software interoperability and plots the basics of sustainable design in BIM. After that, description of modeling reinforced concrete structure of chosen building is shown in Revit Architecture 2010. The first goal of the thesis was modeling a whole detailed architectural model of the building, but when we realized the importance of using sustainable design analysis software is in the conceptual phase of design, we dropped that goal. The thesis then shows how a conceptual design of the building is modeled and then used in further study inside Ecotect Analysis 2010 and GBS. The study in Ecotect shows average daily insulation analysis and overshadowing of the building. GBS’s study shows possibilities and results of VIII
Ključne besede (ePrints, sekundarni jezik): interoperability;BIM;parametrical 3D construction model;sustainable design;energy analysis;CO2 emissions
ID: 8310895