izpis_h1_title_alt

Uporaba toplotnih črpalk zemlja-voda pri ogrevanju stanovanjskih objektov
ID Mošmondor, Blaž (Author), ID Vukelič, Željko (Mentor) More about this mentor... This link opens in a new window

.pdfPDF - Presentation file, Download (1,42 MB)
MD5: 27523ECE2F661F1C9260013064AF94CB

Abstract
Geotermalna energija prihaja iz vroče notranjosti Zemlje, ki ostaja vroča še od svojega nastanka, deloma se dodatno ogreva zaradi poteka jedrskih reakcij v njenem središču. Izkoriščanje obnovljivih virov energije postaja v današnjem svetu vedno pomembneje, saj je uporaba fosilnih goriv zaradi globalne energetske krize čedalje bolj nezanesljiva. Z obnovljivimi viri energije pustimo majhen vpliv na okolje in ne povečujemo emisij toplogrednih plinov v primerjavi s pridobivanjem energije s fosilnimi gorivi. Plitva geotermalna energija je ena izmed teh in v Sloveniji obstaja velik potencial za njeno izrabo. S pomočjo vrtin in geotermalnih toplotnih sistemov lahko izkoriščamo energijo, ki je shranjena globoko v Zemljini notranjosti do 300 m. Z uporabo zaprtih geotermalnih toplotnih sistemov oziroma zemeljskih sond – geosond lahko odvzemamo toploto, ki je shranjena pod Zemljino skorjo. Takšen sistem deluje z geotermalno toplotno črpalko in lahko ogreva ali ohlaja objekte. V začetnih poglavjih dela so predstavljena osnovna pojasnila o geotermalni energiji, plitvi geotermalni energiji in njunem izkoriščanju. V nadaljevanju je tudi poudarek na geotermalnih toplotnih črpalkah in geosondah. Pri toplotnih črpalkah sta opisana letno grelno število in koeficient učinkovitosti geotermalne toplotne črpalke ter podani njuni enačbi za izračun. Geosonda s pomočjo medija izkorišča toploto kamnin, ki potuje v toplotno črpalko in na koncu ogreva ali hladi objekt. Poznamo geosonde z enojno ali dvojno »U-cevjo« in koaksialno geosondo. Za zaključek dela je prikazan primer dimenzioniranja geosonde za postavitev toplotno ogrevalnega sistema z geotermalno toplotno črpalko za ogrevanje enodružinske hiše na območju Škofje Loke.

Language:Slovenian
Keywords:plitva geotermalna energija, geotermalna toplotna črpalka, geosonda, vrtina, geotermalni toplotni sistem, obnovljivi viri energije
Work type:High school thesis
Organization:NTF - Faculty of Natural Sciences and Engineering
Year:2021
PID:20.500.12556/RUL-127329 This link opens in a new window
COBISS.SI-ID:67003907 This link opens in a new window
Publication date in RUL:03.06.2021
Views:1917
Downloads:196
Metadata:XML DC-XML DC-RDF
:
Copy citation
Share:Bookmark and Share

Secondary language

Language:English
Title:Use of ground source heat pump for heating residential structures
Abstract:
Geothermal energy comes from the Earth's hot interior which stayed hot since its formation, in addition it's also being heated because of nuclear reactions in its core. Nowadays the utilization of renewable energy sources is gaining importance, since the use of fossil fuels is becoming more and more unreliable in the light of the global energy crisis. With the use of renewable energy soucres we lessen the impact on our environment and we don't increase greenhouse gas emissions, whereas utilisation of energy via fossil fuels does exactly that. Shallow geothermal energy is one of those renewable energy sources – Slovenia has a lot of potential for its use. With the help of geothermal holes and geothermal systems we can utilize energy, stored up to 300 metres deep into the Earth's interior. With the use of closed-loop geothermal systems or geothermal probes we utilize the heat that is stored underneath the Earth's crust. A system of this kind functions with a geothermal heat pump for either heating or cooling of a structure. The starting paragraphs of this thesis introduce basics of geothermal energy, shallow geothermal energy and their utilization, followed by in-depth research on geothermal heat pumps and geothermal probes. The paragraph, focusing on geothermal heat pumps, introduces the Seasonal Performance Factor (SPF) and the Coeffcient of Performance (CoP) of a geothermal heat pump, as well as their equations for calculation purposes. The geothermal probe utilizes the heat of the rock underneath the Earth with the help of a medium which travels into the heat pump itself and is ultimately used for heating or cooling of a structure. We know several models of geothermal probes – with a single or double »U-tube« or a coaxial geothermal probe. The theoretical knowledge is then applied to a case study of a family house in Škofja Loka, where a geothermal probe is being dimensioned for the purpose of placement of a geothermal system with a geothermal heat pump.

Keywords:shallow geothermal energy, geothermal heat pump, geothermal probe, geothermal hole, geothermal system, renewable energy sources

Similar documents

Similar works from RUL:
Similar works from other Slovenian collections:

Back