diplomska naloga
Abstract
Analize rasti svetovne populacije kažejo, da se bo v naslednjih 30 letih število prebivalcev našega planeta povečalo za okoli 20 odstotkov, kar pomeni, da bo naraslo povpraševanje po bivalnih enotah. V diplomski nalogi predstavljamo nov koncept gradnje okolju prijazne lesene večstanovanjske modularne stavbe kot alternativo energetsko potrošni in okolju neprijazni klasični gradnji. Naloga obravnava izgradnjo energetsko učinkovite lesene večstanovanjske modularne stavbe. Tako smo v sklopu naloge zasnovali konstrukcijske sklope in s programoma URSA 4 ter THERM 7.3 preverili njihovo skladnost s trenutno veljavnim Pravilnikom o učinkoviti rabi energije v stavbah PURES 2010 in Tehnično smernico TSG-1-004. S programom THERM smo analizirali najbolj kritična križanja, ki se pojavijo v stavbnem ovoju zasnovane stavbe. Rezultate obeh analiz smo nato uporabili pri izračunu energetske bilance stavbe. Energetsko bilanco smo izračunali s programom URSA 4, dobljene rezultate pa preverili s pomočjo kriterijev, ki jih določa Pravilnik o učinkoviti rabi energije v stavbah. Z dobljenimi rezultati želimo pokazati, da je s pravilnim pristopom h konstruiranju stavbnega ovoja in nosilne konstrukcije mogoče ustvariti učinkovit modularni sistem.
Keywords
gradbeništvo;diplomska naloga;UNI;modularna gradnja;les;okvirni sistem;masivni sistem;konstrukcijski sklop;križanje;toplotna prehodnost;difuzija vodne pare;energetska bilanca;energetska izkaznica;
Data
Language: |
Slovenian |
Year of publishing: |
2016 |
Typology: |
2.11 - Undergraduate Thesis |
Organization: |
UL FGG - Faculty of Civil and Geodetic Engineering |
Publisher: |
[M. Zupančič] |
UDC: |
502/504:694.14(043.2) |
COBISS: |
7774817
|
Views: |
2250 |
Downloads: |
686 |
Average score: |
0 (0 votes) |
Metadata: |
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Other data
Secondary language: |
English |
Secondary title: |
Energy analysis of conceptual design of wooden multiapartment modular building |
Secondary abstract: |
Growth analyses of the world population show, that in the next 30 years, the population of the planet will increase by 20 %, which means that demand for residential units will also increase. The thesis presents a new concept of constructing environmentally friendly wooden multiapartment modular building as an alternative to energy consumptive and environmentally unfriendly classical building. The paper deals with the construction of energy efficient wooden multi-apartment modular building. We constructed construction elements and with programs URSA 4 and THERM 7.3 verified their compliance with the current Regulations on energy efficiency in buildings PURES 2010 and Technical guideline TSG-1-004. With THERM we will analyze the most critical intersections that occur in the building envelope of designed building. The results will be used to calculate the energy balance of the building. The energy balance will be calculated with program URSA 4. The results will be verified according to criteria laid down in the Regulations on energy efficiency in buildings. With results we want to show, that with the proper approach to constructing the building envelope and the supporting system, an effective modular system can be created. |
Secondary keywords: |
graduation thesis;civil engineering;modular construction;wood;frame system;massive system;building elements;intersection;heat transfer;vapor transfer;energy balance;energy performance certificate; |
File type: |
application/pdf |
Type (COBISS): |
Undergraduate thesis |
Thesis comment: |
Univ. v Ljubljani, Fak. za gradbeništvo in geodezijo |
Pages: |
XII, 80 str. |
ID: |
9226493 |