headerpos: 9513
 
 
  Oil Shale

ISSN 1736-7492 (electronic)  ISSN 0208-189X (print)
Published since 1984

Oil Shale

ISSN 1736-7492 (electronic)  ISSN 0208-189X (print)
Published since 1984

Publisher
Journal Information
» Editorial Policy
» Editorial Board
Extra
Guidelines for Authors
» For Authors
» Instructions to Authors
» Copyright Transfer Form
Guidelines for Reviewers
» For Reviewers
» Review Form
Subscription Information
Support & Contact
List of Issues
» 2019
» 2018
Vol. 35, Issue 4
Vol. 35, Issue 3
Vol. 35, Issue 2
Vol. 35, Issue 1
» 2017
» 2016
» 2015
» 2014
» 2013
» 2012
» 2011
» 2010
» 2009
» 2008
» Back Issues
» Back issues (full texts)
  in Google
Publisher
» Other journals
» Staff

ANALYSIS OF FIELD TEST RESULTS FOR THE OIL SHALE MINE VENTILATION SIMULATION; pp. 356–364

(Full article in PDF format) https://doi.org/10.3176/oil.2018.4.05


Authors

SERGEI SABANOV

Abstract

Analysis of the field test results for inputs to the ventilation simula­tion model was performed in the conditions of an operational oil shale mine in Estonia. The oil shale mine uses a very sophisticated ventilation system to provide enough airflow to the eight operational areas with a radius of about 5–6 km. The main purpose of the field tests was to obtain data about ventila­tion simulation processes that could be useful for improving ventilation efficiency and optimizing related costs. Field tests included measurements of airflow and the fan pressure at different cross sections of intake air through the ventilation shaft. Measurements of airway friction factors were made during the ventilation surveys to determine characteristic friction factors for the intake airway. The results of measurements can be used for constructing the mine ventilation simulation model required to design a ventilation system in operating oil shale mines.

Keywords

airflow, friction factor, oil shale mine, ventilation simulation.

References

1.       Reinsalu , E. Mining Engineering Handbook III. Tallinn University of Technology , Department of Mining , Tallinn , 2016 , 126–127 (in Estonian).
https://digi.lib.ttu.ee/i/?4611

2.       Sabanov , S. , Sokman , K. Technological and environmental aspects of assess­ment of a combination of different mining methods used in Estonian oil shale industry. Oil Shale , 2008 , 25(2S) , 163–173.
https://doi.org/10.3176/oil.2008.2S.08

3.       Duckworth , I. J. , Loomis , I. , Prosser , B. Fifteen years of resistance data collected at Freeport Indonesia. In: Proc. 14th United States/North American Mine Ventilation Symposium , 2012. Calizaya & Nelson© 2012 , University of Utah , Dept. of Mining Engineering , 161–166.

4.       Laigna , K. Ventilation of Oil Shale Mines. EstNIINTI , Tallinn , 1988 (in Russian).

5.       Sabanov , S. Determining ventilation system model inputs from field test work in the oil shale mine. In: Proc. Australian Mine Vent Conference , Australia , Brisbane 2017 , 28–30th of August , The Australasian Institute of Mining and Metallurgy , Melbourne , 2017 , 47–50.

 
Back

Current Issue: Vol. 36, Issue 2S, 2019




Publishing schedule:
No. 1: 20 March
No. 2: 20 June
No. 3: 20 September
No. 4: 20 December