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Mining

  1. Forecasting gob gas venthole production performances using intelligent computing methods for optimum methane control in longwall coal mines
    Karacan C.
    Int J Coal Geol. 2009 Sep;79(4):131-44.

  2. Reconciling longwall gob gas reservoirs and venthole production performances using multiple rate drawdown well test analysis
    Karacan C.
    Int J Coal Geol. 2009 Dec;80(3-4):181-195.

  3. Elastic and shear moduli of coal measure rocks derived from basic well logs using fractal statistics and radial basis functions
    Karacan C.
    Int J Rock Mech Min Sci. 2009 Dec;46(8):1281-1295.

  4. Hydraulic conductivity changes and influencing factors in longwall overburden determined by slug tests in gob gas ventholes
    Karacan CO, Goodman G.
    Int J Rock Mech Min Sci. 2009 Oct;46(7):1162-74.

  5. Long-term stability of a backfilled room-and-pillar test section at the Buick Mine, Missouri, USA
    Tesarik DR, Seymour JB, Yanske TR.
    Int. J. Rock Mech. Min. Sci.. 2009 Oct;46(7):1182-1196.

  6. Prediction of porosity and permeability of caved zone in longwall gobs
    Karacan CO.
    Transport Porous Med. 2010 Mar;82(2):413-439.

  7. In situ estimation of roof rock strength using sonic logging
    Oyler DC, Mark C, Molinda GM.
    Int J Coal Geol. 2010 ;83(4):484-490.

  8. Applications of remote sensing and GIS for monitoring of coal fires, mine subsidence, environmental impacts of coal-mine closure and reclamation
    Duzgun O, Kunzer C, Karacan CO.
    Int J Coal Geol. 2011 April;86(1):1-2.

  9. Methane-air detonation experiments at NIOSH Lake Lynn Laboratory
    Zipf Jr RK, Gamezo VN, Sapko MJ, Marchewka WP, Mohamed KM, Oran ES, Kessler DA, Weiss ES, Addis JD, Karnack FA, Sellers DD.
    J Loss Prevent Proc. 2011 .

  10. An analysis of reservoir conditions and responses in longwall panel overburden during mining and its effect on gob gas well performance
    Schatzel SJ, Karacan C?, Dougherty H, Goodman GV.
    Eng Geol. 2012 ;127:65-74.

  11. Relationship between radiated seismic energy and explosive pressure for controlled methane and coal dust explosions in an underground mine
    Murphy MM, Westman EC, Iannacchione A, Barczak TM.
    Tunn Undergr Space Technol. 2012 Mar;28:278-286.

  12. Evaluation of criteria for the detection of fires in underground conveyor belt haulageways
    Litton CD, Perera IE.
    Fire Saf J. 2012 July;51:110-119.

  13. Design optimization of a portable thermophoretic precipitator nanoparticle sampler
    Miller A, Marinos A, Wendel C, King G, Bugarski A.
    Aerosol Sci Tech. 2012 ;46(8):897-904.

  14. Analyses of geological and hydrodynamic controls on methane emissions experienced in a Lower Kittanning coal mine
    Karacan CO, Goodman GV.
    Int J Coal Geol. 2012 ;98:110-127.

  15. NIOSH-sponsored research in through-the-earth communications for mines: a status report
    Yenchek MR, Homce GT, Damiano NW, Srednicki JR.
    Ieee Trans Ind Gen A. 2012 ;48(5):1700-1707.

  16. Attenuation and duration of siesmic signals generated from controlled methane and coal dust explosions in an underground mine
    Murphy MM, Westman EC, Barczak TM.
    Int J Rock Mech Min Sci. 2012 Dec;56:112-120.

  17. Evaluations of a noise control for roof bolting machines
    Azman A, Yantek D, Alcorn l.
    Min Eng. 2012 ;64(12):64-70.

  18. Sequential Gaussian co-simulation of rate decline parameters of longwall gob gas ventholes
    Karacan C, Olea R.
    Int J Rock Mech Min Sci. 2013 ;59:1-14.

  19. Modelling blast induced damage from a fully coupled explosive charge
    Onederra IA, Furtney JK, Sellers E, Iverson S.
    Int J Rock Mech Min. 2013 Feb;58:73-84.

  20. Measurements of medium-frequency propagation characteristics of a transmission line in an underground coal mine
    Li J, Whisner B, Waynert JA.
    IEEE Trans Ind Appl. 2013 ;49(5):1984-91.

  21. Evaluation of visual performance when using incandescent, fluorescent, and led machine lights in mesopic conditions
    Reyes MA, Gallagher S, Sammarco JJ.
    IEEE Trans Ind Appl. 2013 ;49:1992-1999.

  22. Measurements and modeling of through-the-earth communications for coal mines
    Yan L, Waynert JA, Sunderman C.
    IEEE Trans Ind Appl. 2013 ;49:1979-1983.

  23. Attenuation constants of radio waves in lossy-walled rectangular waveguides
    Zhou C, Waynert J, Plass T, Jacksha R.
    Prog Electromagn Res. 2013 Aug;142:75-105.

  24. Measurements of medium-frequency propagation characteristics of a transmission line in an underground coal mine
    Li J, Whisner B, Waynert JA.
    IEEE Trans Ind Appl. 2013 ;49(5):1984-91.

  25. Evaluation of visual performance when using incandescent, fluorescent, and led machine lights in mesopic conditions
    Reyes MA, Gallagher S, Sammarco JJ.
    IEEE Trans Ind Appl. 2013 ;49:1992-1999.

  26. Measurements and modeling of through-the-earth communications for coal mines
    Yan L, Waynert JA, Sunderman C.
    IEEE Trans Ind Appl. 2013 ;49:1979-1983.

  27. Attenuation constants of radio waves in lossy-walled rectangular waveguides
    Zhou C, Waynert J, Plass T, Jacksha R.
    Prog Electromagn Res. 2013 Aug;142:75-105.

  28. An introduction to a medium frequency propagation characteristic measurement method of a transmission line in underground coal mines
    Li J, Waynert JA, Whisner BG.
    Prog Electromagn Res B . 2013 (55):131-149.

  29. Comparative evaluation of light-emitting diode cap lamps with an emphasis on visual performance in mesopic lighting conditions
    Reyes MA, Sammarco JJ, Gallagher S, Srednicki JR.
    IEEE Trans Ind Appl. 2014 ;50(1):127-133.

  30. Deflagration-to-detonation transition in natural gas-air mixtures
    Zipf Jr RK, Gamezo VN, Mohamed KM, Oran ES, Kessler DA.
    Combust Flame. 2014 .

  31. Measuring the effects of lighting distribution on walking speed and head pitch with wearable inertial measurement units
    Patts J, Sammarco JJ, Eiter B.
    IEEE Trans Ind Appl. 2014 ;50(2):1483-1489.

  32. The equivalence of the ray tracing and modal methods for modeling radio propagation in lossy rectangular tunnels
    Zhou C, Waynert J.
    IEEE Antennas Wirel Propag Lett. 2014 Mar 21;13:615-618.

  33. CFD modelling of sampling locations for early detection of spontaneous combustion in long-wall gob areas
    Yuan L, Smith AC.
    Int J Min Miner Eng. 2012 ;4(1):50-62.

  34. CFD modelling of nitrogen injection in a longwall gob area
    Yuan L, Smith AC.
    Int J Min Miner Eng. 2014 nd;5(2):164-180.

 

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