VeÄ - Fakulteta za arhitekturo - Univerza v Ljubljani
VeÄ - Fakulteta za arhitekturo - Univerza v Ljubljani
VeÄ - Fakulteta za arhitekturo - Univerza v Ljubljani
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2.8 TEHNOLOGIJA INSTALACIJ<br />
TECHNOLOGY OF BUILDING UTILITIES<br />
II. letnik 45 ur<br />
doc. dr. Sašo Medved, univ. dipl. inž. stroj.<br />
- Medved, S.: “Tehnologije instalacij”, snopièi predavanj na spletni strani www.ee.uni-lj.si<br />
- Medved, S.: Toplotna tehnika v stavbah , 2 dopolnjena izdaja, <strong>Fakulteta</strong> <strong>za</strong> strojništvo, Ljubljana 1997<br />
- Medved, S., Novak, P.: Varstvo okolja in obnovljivi viri energije. Ljubljana: <strong>Fakulteta</strong> <strong>za</strong> strojništvo 2000<br />
- Lechner, N.: Heating, cooling, lighting, John Wiley & Sons, 1991<br />
- Hall, F.: Building services and equipment, Volumen one in Volumen two; Longman Scientific &<br />
Technical,1990<br />
- Priroènik Grijanje i klimati<strong>za</strong>cija: Interklima, 2000<br />
Osnovna izobraževalna cilja sta seznaniti slušatelje s pomenom oskrbe in pretvarjanjem energije v stavbah in pove<strong>za</strong>nimi vplivi na okolje, ter<br />
predstaviti tehnologije stavbnih instalacij, s katerimi ustvarjamo prijetno, storilno, varno, zdravo in informacijsko pove<strong>za</strong>no notranje bivalno in<br />
delovno okolje. Slušatelji si pridobijo tako osnovno znanje o fizikalnih in termodinamiènih procesih pri prenosu toplote in snovi v stavbah in<br />
delovanju ter naèrtovanju sistemov stavbnih instalacij. Vsebina predmeta: Opredeljen je pomen oskrbe z energijo v družbi in stavbah ter<br />
posledice rabe energije v mikro in makro okolju. Opisane so najpomebnejše znaèilnosti energijskih virov – energija sonca oz. obnovljivih virov<br />
energije, fosilnih goriv, jedrskega goriva ter termodinamiène osnove <strong>za</strong> njihovo pretvarjanje. Opredeljujemo osnovne mehanizme prenosa<br />
toplote in snovi v gradbenih konstrukcijah – prevod, konvekcijo in prenos toplote s sevanjem in jih povežemo s snovnimi lastnostmi gradbenih<br />
materialov in tehnologij. Opredelimo mehanizme prehoda vodne pare. Predstavimo metode presoje gradbenih konstrukcij z vidika prehoda<br />
toplote, vodne pare in zvoka. Sledi predstavitev pojma notranjega okolja in opredelimo parametre in kriterije <strong>za</strong> presojo in naèrtovanje<br />
toplotnega, svetlobnega, zvoènega okolja in pomen kvalitete zraka. Seznanimo se z integralnimi ka<strong>za</strong>lci presoje kvalitete toplotne <strong>za</strong>šèite<br />
stavb in raèunalniškimi orodji <strong>za</strong> njihovo vrednotenje. Predstavljene so tehnologije in sistemi <strong>za</strong> varèno rabo energije v stavbah s poudarkom<br />
na solarnih in fotonapetostnih sistemih.<br />
The main education goals are to inform students about the significance of supply and conversion of energy in buildings with connected<br />
environmental influences and to present technologies of building utilities by which pleasant, efficient, safe, healthy internal living and working<br />
spaces are created that are also tied by information technology links. Students obtain basic knowledge about physical and thermodynamic<br />
processes occurring during passage of heat and matter in buildings, planning systems of building utilities and how they work. Course contents:<br />
The significance of supply with energy in society and buildings is defined, as well as the consequences of using energy in the micro- and<br />
macro-environment. The most important characteristics of energy resources are described: solar energy and recyclable energy sources, fossil<br />
fuels and thermodynamic principles of their conversion. Basic knowledge about transport of energy and matter in building constructions is<br />
defined by simple mechanisms of transport of heat: conduction, convection, passage by radiation, which are tied with material properties of<br />
constructions and technologies. Mechanisms of passage of steam are defined and methods of assessing construction from the aspect of<br />
passage of heat, steam and sound. They are followed by presentation of the concept of interior space and definitions of parameters and<br />
criteria for assessing and planning heat, light and sound insulation, as well as the importance of the high quality of air. We learn about integral<br />
indicators for assessing the quality of heat insulation of buildings and computer methods for their evaluation. Technologies and systems for<br />
economical use of energy are presented, with emphasis on solar and photovoltaic systems.<br />
leto year<br />
01<br />
02<br />
03<br />
04<br />
05<br />
59