The Influence of Climate Change on CO2 and CH4 Concentration Near Closed Shaft – Numerical Simulations

Journal title

Archives of Mining Sciences




No 3

Publication authors

Divisions of PAS

Nauki o Ziemi


Committee of Mining PAS




ISSN 0860-7001


Bateson (2008), The application of remote - sensing techniques to monitor CO - storage sites for surface leakage : Method development and testing at Italy where naturally produced CO is leaking to the atmosphere of Gas, International Journal Greenhouse Control, 388, ; Prokop (2001), Gas leak effects on environment of Ostrava basin of the th Inernational Mine Ventilation Congress Research eds, Proc Development. ; Anderson (1997), Computational Fluid Mechanics Heat online Philadelphia Hemisphere Publishing Corporation, null. ; Bielec (2007), głębokich niżów i silnych wyżów nad red klimatu w różnych skalach przestrzennych i czasowych Instytut Geografii i Gospodarki Przestrzennej, null, 1971. ; Wrona (2016), Closed coal mine shaft as a source of carbon dioxide emissions Environmental article, Earth Sciences, ; NGER (2007), National Greenhouse Reporting Act National Greenhouse Reporting Determination Prepared by the Office of Legislative Drafting and Publishing Attorney - General s Department Canberra http www ipcc nggip iges or jp public gl vol html, Energy Energy Measurement. ; Falarz (1997), wahania ciśnienia atmosferycznego na tle cyrkulacji atmosfery i listopada, null, 12. ; Wrona (2013), Carbon Monoxide Emission from Diesel Engine in Blind Excavation FDS Simulation Proceedings of the th International Congress on Energy and Mineral Resources ISBN, null, 13, 978. ; Wrona (null), Propozycja nowej metody klasyfikacji zagrożenia gazowego na terenach pogórniczych kopalń węgla kamiennego Proposition of a New Method for Classification of Post - Mining Areas due to Gas Hazard, Eng, 11, 2015. ; Ustrnul (2000), Air pressure extreme during the instrumental observation period in red Images of Weather of Climate, null, 108. ; Wrona (2013), prędkości powietrza na rozwój pożaru egzogenicznego w wyrobisku górniczym symulacja w programie Fire Dynamics Simulator, null. ; Koźmiński (2010), zmiany ciśnienia atmosferycznego w strefie polskiego wybrzeża, null, 1. ; Szlązak (2002), Zagrożenie gazami kopalnianymi w obiektach budowlanych na terenach zlikwidowanych kopalń podziemnych, null, 7, 8. ; Paulley (2013), Hypothetical Impact Scenarios for CO Leakage from Storage Sites, Energy, 37, ; Nawrat (2002), Problemy likwidacji szybów kopalnianych na przykładzie doświadczeń KWK Morcinek w aspekcie wybuchu metanu w szybie III Mat, null, 1. ; Lagny (2013), Understanding CO Gas Production Above a Partly Flooded Former Coal Mining Area Planetary, Earth Science, 12, ; Annunziatellis (2008), Gas migration along fault systems and through the vadose zone in the Latera caldera central Italy Implications for CO geological storage of Gas, International Journal Greenhouse Control, 353, ; Suban (null), Effect of Gusty Wind on Road Tunnel Safety of, Journal Mechanical Engineering, 7, 2015, ; Collins (2013), Long - term Climate Change : Projections Commitments and In Climate Change The Physical Science Basis Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change and eds Cambridge University Press, USA. ; Trepińska (2007), atmosferyczne red XX wieku Gospodarki, null, 4154. ; McGrattan (2010), Fire Dynamics Simulator Version Technical Reference Guide Mathematical Model online Special Publication Special Publication, null, 1. ; Creedy (1993), Methane emissions from coal related sources in Britain of a methodology, Development Chemosphere, 26, 1, ; Słomka (1999), i klimatyzacja pomieszczeń pracy, null. ; Wrona (2010), a The method of estimation of gas hazard near abandoned coal mine shaft, null, 287. ; Wrona (2016), a The application of a jet fan for the control of air and methane streams mixing at the excavations cross the results of numerical simulation Management Systems in Production, Engineering, 156. ; Rudakov (2014), Modelling the inflow and discharge from underground structures within the abandoned hardcoal mining area of West Field In An Interdisciplinary Response to Mine Water Challenges eds China University of Mining and Technology Press China, null, 699. ; Czaja (2012), doświadczenia w likwidacji szybów szybów głównych kopalni Maja ostrzeżenie i lekcja odpowiedzialności, null, 16, 1. ; Lewicki (2007), Natural and industrial analogues for leakage of CO from storage reservoirs : identification of features events and processes and lessons learned, Environ Geol, 457, ; Kotarba (2002), Mechanism of coalbed gas flux and prediction of gas hazard in the near - surface zone of the Wałbrzych Coal Sub - basin Chapter in Gas hazard in the near - surface zone of the Wałbrzych Coal District caused by coal mine closure : geological and geochemical, GEOSPHERE, 13, 189. ; Grzybek (2012), Studium uwarunkowań emisji gazów ze zlikwidowanych kopalń SW części, null, 1. ; Wrona (2010), powietrza zrobowego zlikwidowanych szybach stanach awaryjnych świetle badań modelowych, null, 12, 148. ; Branny (2003), Numerical simulation of airflow in blind headings ventilated with jest fans of, Archives Mining Sciences, 425.