Termisk stigning i höga byggnader : Vindens påverkan

التفاصيل البيبلوغرافية
العنوان:	Termisk stigning i höga byggnader : Vindens påverkan
عناروين إضافية:	Thermal flow in high-rise buildings : The influence of the wind
بيانات النشر:	Umeå universitet, Institutionen för tillämpad fysik och elektronik 2019
تفاصيل مُضافة:	Walldén, Jimmy
نوع الوثيقة:	Electronic Resource
مستخلص:	Att tillhandahålla termisk komfort är ett av de främsta kraven som ställs på byggnader i dagens samhälle. Stora delar av energianvändningen går därför åt till att styra inomhusklimatet för att upprätthålla en behaglig nivå. Det påstås att omkring 40 % av denna energi tillkommer på grund av energiförluster via öppningar och läckage genom byggnaders klimatskal. Med tanke på världens och Sveriges alltmer striktare energikrav där man bland annat vill bygga nära-nollenergibyggnader är detta någonting som bör förbättras. Det är därför viktigt att förstå hur men även varför denna luftinfiltration uppstår och vilka faktorer som har en påverkande effekt. Detta arbete innefattas av tre olika simuleringsstudier av en hög byggnad där inomhusluftens rörelsemönster samt yttre vindförhållanden har legat i fokus. En studie utfördes med hjälp av simuleringsverktyget IDA ICE där luftens infiltration undersöktes. De andra två utfördes med hjälp av CFD-programmet COMSOL Multiphysics v5.4. Den ena CFD-studien studerade termiska stigkrafter inuti byggnaden och den andra studerade vindens flödesmönster utanför byggnaden och varför infiltrationen beter sig som den gör. Resultatet av simuleringarna i IDA ICE visar att det är möjligt att minska infiltrationsmängden luft in i byggnaden från 1384 l/s till 804 l/s genom att ta hänsyn till ytterdörrens placering relativt den inkommande vinden riktning. De visar även att infiltrationens inflöde är som högst på bottenvåningen för att sedan minska och därefter övergå till ett utflöde på de högre våningsplanen.Resultatet från den första CFD-studien beskriver hur den varmare inomhusluftens rörelsemönster förändras då kallare luft tar sig in på byggnadens bottenvåning. Detta förändrade rörelsemönster resulterar i att den varmare luften stiger och därmed letar sig ut genom byggnadens högre våningsplan. Den andra CFD-studiens resultat beskriver hur den yttre vin One of the main requirements a building have is to provide thermal comfort inside it. Therefore, large parts of the energy consumptions is used to control the indoor climate in order to maintain a comfortable level in the building. It’s alleged that around 40 % of this energy is added due to energy losses through opening and leakages in the buildings enclosure. Considering the world’s increasing energy requirements, where among other things one future requirement is to build nearly-zero energy buildings, is this something that needs to be improved. It’s therefore important to understand how, and also why this air infiltration occurs and what’s affecting it. This master thesis contains of three different types of simulation studies where the air inside a high-rise building, and also the wind flow around it was analyzed. One of these three studies was performed with the simulation program IDA ICE, where the air infiltration was examined. The other two studies were performed with the CFD-software, COMSOL Multiphysics v5.4. One of these CFD-studies examined the thermal flow that occurs inside the building. The other one examined the wind’s flow pattern outside the building and why the air infiltration behavior is like it is. The results from the IDA ICE simulations shows that it’s possible to decrease the infiltration rate of air into the building from 1384 l/s to 804 l/s by taking the exterior door’s position relative the incoming wind’s direction into account. They also show that the infiltration inflow is highest on the ground floor before it starts to decrease and then change and becomes an outflow on the the higher floors. The results from the first CFD-study describes how the movements of the warmer air inside the building changes when colder air flows in on the ground floor. This changed air movement pattern makes the warmer air rise, and thus flow out through the enclosure on the higher parts of the building. The other CFD-study describes how the flow pattern of
مصطلحات الفهرس:	Thermal flow wind infiltration CFD flow pattern energy losses leakage thermal comfort indoor climate flow simulations wind conditions, Termiska stigkrafter vind infiltration CFD flödesmönster drag energiförlust läckage klimatskal inomhuskomfort flödessimulering yttre vindförhållanden, Engineering and Technology, Teknik och teknologier, Student thesis, info:eu-repo/semantics/bachelorThesis, text
URL:	http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-156939
الإتاحة:	Open access content. Open access content info:eu-repo/semantics/openAccess
ملاحظة:	application/pdf Swedish
أرقام أخرى:	UPE oai:DiVA.org:umu-156939 1235230264
المصدر المساهم:	UPPSALA UNIV LIBR From OAIster®, provided by the OCLC Cooperative.
رقم الأكسشن:	edsoai.on1235230264
قاعدة البيانات:	OAIster

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