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Modeliranje prezračevanja jamskih prostorov v Premogovniku Velenje
ID Čandić, Kemal (Author), ID Rošer, Janez (Mentor) More about this mentor... This link opens in a new window

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Abstract
V Premogovniku Velenje je zagotavljanje varnih delovnih pogojev ključnega pomena za doseganje visoke produktivnosti podzemnega odkopavanja lignita. To zahteva dolgoletno razvojno, projektno in raziskovalno delo na vseh področjih, povezanih s potencialnimi nevarnostmi v jami. Sodobne metode podzemnega pridobivanja premoga ter zahteve dolgoročnega proizvodnega načrtovanja narekujejo stalno spremljanje tehnološkega procesa in razvoj novih pristopov k rudarjenju. Z naraščajočo intenzivnostjo odkopavanja in z večjo globino eksploatacije se delovni pogoji geomehansko zaostrujejo, kar posledično povzroča povečano sproščanje škodljivih in nevarnih snovi med eksploatacijo. Med ključnimi elementi varnega delovanja premogovnika je jamsko zračenje, saj je ob povišanih koncentracijah nevarnih plinov nujno zagotoviti zadostno količino svežega zraka za vzdrževanje varnega in stabilnega delovnega okolja. Zaradi teh zahtev se je v Premogovniku Velenje začel intenzivno razvijati projekt optimizacije prezračevalnega sistema, katerega cilj je zagotoviti zakonsko sprejemljive koncentracije nevarnih plinov, primerne klimatske razmere, ter hkrati omogočiti nemoteno in učinkovito obratovanje rudniških delovišč. Namen optimizacije prezračevalnega sistema je zmanjšati stroške zračenja z racionalno rabo energije, povečati varnost prezračevanja na najvišjo možno raven, izboljšati funkcionalnost prezračevalnih poti ter zmanjšati celotno depresijo v sistemu, ki je ključna za ustrezno gibanje jamskega zraka. Optimiziran prezračevalni sistem omogoča tudi zmanjšanje zračnega upora, izboljšano porazdelitev pretokov in učinkovitejše delovanje glavnih ventilacijskih postaj, med katerimi ima pomembno vlogo nova izstopna ventilatorska postaja NOP II.

Language:Slovenian
Keywords:Premogovnik Velenje, optimizacija prezračevalnega sistema, jamsko zračenje, NOP II, programska oprema Ventsim.
Work type:Master's thesis/paper
Organization:NTF - Faculty of Natural Sciences and Engineering
Year:2026
PID:20.500.12556/RUL-183754 This link opens in a new window
Publication date in RUL:18.06.2026
Views:73
Downloads:45
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Secondary language

Language:English
Title:Ventilation modelling of Velenje Coal Mine underground mining sites
Abstract:
In Premogovnik Velenje, ensuring safe working conditions is essential for achieving high productivity in underground lignite extraction. This requires long-term development, engineering, and research activities across all areas related to potential underground hazards. Modern underground coal mining methods and the demands of long-term production planning require continuous monitoring of the technological process and the development of new mining approaches. As the intensity and depth of excavation increase, geomechanical conditions become more challenging, which consequently leads to greater release of harmful and hazardous substances during mining operations. Among the key elements of safe mine operation is mine ventilation, as increased concentrations of hazardous gases require the supply of sufficient fresh air to maintain a safe and stable working environment. Due to these demands, Premogovnik Velenje has initiated the intensive development of a ventilation system optimization project. Its aim is to ensure legally acceptable concentrations of hazardous gases, maintain appropriate climatic conditions, and enable efficient and uninterrupted operation of underground work sites. The purpose of the ventilation system optimization is to reduce ventilation costs through efficient energy use, enhance ventilation safety to the highest possible level, improve the functionality of ventilation routes, and reduce the overall system depression, which is essential for proper movement of mine air. The optimized ventilation system also enables reduced airway resistance, improved airflow distribution, and more efficient operation of the main ventilation stations, among which the newly established exhaust ventilation station NOP II plays an important role.

Keywords:Premogovnik Velenje, optimization of the ventilation system, mine ventilation, NOP II, Ventsim software.

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