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Analiza vsebovane energije v izbranih gradbenih proizvodih : diplomska naloga
ID Jenko, Martin (Author), ID Kunič, Roman (Mentor) More about this mentor... This link opens in a new window, ID Dovjak, Mateja (Comentor)

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PID: 20.500.12556/rul/cfc47cb6-91ba-48d0-899a-b2e40fc218a8

Abstract
V diplomski nalogi se ukvarjamo z energetsko analizo izbranih gradbenih proizvodov, in sicer toplotnoizolacijskih materialov. V zadnjih letih je učinkovita raba energije izjemno aktualna, s tem pa tudi tema sanacije energetsko potratnih stavb v Sloveniji. Doslej je bilo največ raziskav izvedenih na področju finančnih vložkov in prihrankov zaradi ukrepov sanacije, najmanj pa jih je bilo izvedenih na temo vsebovane energije v primerjavi s porabljeno energijo v amortizacijski dobi toplotnega ovoja. Namen diplome je ugotoviti smiselnost vgradnje gradbenih proizvodov, ki imajo veliko količino vsebovane energije, z namenom varčevanja energije v stavbi v amortizacijski dobi toplotnega ovoja tridesetih let. Predpostavili smo referenčni neizoliran objekt, izbrali in določili najpomembnejše konstrukcijske sklope za analizo ter objekt locirali v tri različne klimatske cone z različno dobo trajanja ogrevalne sezone. Na podlagi zakonsko določene toplotne prehodnosti posameznega elementa stavbe smo najprej izračunali porabljeno energijo za ogrevanje na kvadratni meter konstrukcijskega sklopa. S pomočjo podatkov vsebovane energije izbranih gradbenih proizvodov, pripadajočih gostot in toplotnih karakteristik materiala smo izračunali količino vsebovane energije. V nadaljevanju smo mejne toplotne prehodnosti konstrukcijskih sklopov zaostrili do te mere, da je vsebovana energija uporabljenih izolacijskih materialih predstavljala približno tretjino vse porabljene energije v amortizacijski dobi toplotnega ovoja. Rezultati so pokazali, da je večino organskih toplotnoizolacijskih materialov z izjemo plute in večino anorganskih toplotnoizolacijskih materialih z izjemo penjenega stekla energijsko smiselno vgrajevati v toplotni ovoj izbranega elementa stavbe. Analiza je pokazala tudi, da ima terasa kot konstrukcijski sklop zelo mile zakonsko predpisane mejne vrednosti toplotne prehodnosti, saj v amortizacijski dobi prihaja do prevelikih toplotnih izgub. Bistvena ugotovitev je, da pluta kot izolacijski material s stališča razmerja energij ni primerna za izdelavo toplotnega ovoja, saj vsebovana energija v nobenem primeru ne doseže razmerja ena tretjina v primerjavi s porabljeno energijo v dobi trideset let.

Language:Slovenian
Keywords:gradbeništvo, diplomska naloga, VSŠ, OG-MK, vezana energija, vsebovana energija, toplotna izolacija, življenjski cikel, energetska bilanca
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FGG - Faculty of Civil and Geodetic Engineering
Place of publishing:Ljubljana
Publisher:[M. Jenko]
Year:2014
Number of pages:X, 52 str.
PID:20.500.12556/RUL-32421 This link opens in a new window
UDC:699.86(497.4)(043.2)
COBISS.SI-ID:6812001 This link opens in a new window
Publication date in RUL:10.07.2015
Views:3482
Downloads:505
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Secondary language

Language:English
Title:Analysis of the embodied energy in selected building products
Abstract:
Thesis presents an energy analysis of selected building products, particularly thermal insulation materials. Efficient use of energy has gained importance over years, accordingly also rehabilitation of energy-intensive buildings in Slovenia. Most of current research in the field is focused on financial savings from measures of rehabilitation. Only few are focusing on embodied energy in comparison to the energy consumed in the amortization period of the thermal envelope. Aim of the thesis is to determine the reasonableness behind using building materials with high embodied energy with an intention to save the energy in the amortization period of the thermal envelope over thirty years. Our reference is a non-isolated object, where we defined the most important construction products for analysis and located the object into three different climatic zones with different duration of the heating season. On the basis of the statutory thermal transmittance of each building element, we calculated the energy consumed for heating per one square meter of the construction set. Using obtained data of embodied energy, densities and thermal characteristics of the material we calculated the amount of embodied energy. Later, we tensed limited heat transfers to such an extent that the ratio between embodied energy represented about a third of all consumed energy in the amortization period of the thermal envelope. The results showed that the majority of organic thermal insulation materials with the exception of cork, and most of the inorganic thermal insulation materials with the exception of foamed glass are reasonable to use in the thermal envelope of the building. The analysis has also shown that the terrace as a structural assembly of a mile statutory limits heat transfer, as it experiences excessive heat loss in the amortization period. The main finding is that the cork as insulating material from the perspective of energy is not suitable for the manufacture of thermal envelope as it never meets the desired requirements.

Keywords:embodied energy, thermal insulation, life-cycle analysis, energy balance

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