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Conference Proceedings

Australian Mine Ventilation Conference 2022

Conference Proceedings

Australian Mine Ventilation Conference 2022

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The Australian Mine Ventilation Conference 2022 is the opportunity to promote safe ventilation practices to improve the productivity and safety of mines. By sharing and disseminating the knowledge gained from operations in Australia and around the world we can assist in the provision of the raw materials needed. The message is still the same in that ventilation controls form many of the effective management of core risk activities in mines. The recognition of this has brought about the requirement of the position of Statutory Ventilation Officers in both coal and metalliferous mining sectors in Australia. Coupled with this is the re-emergence of pneumoconiosis in mine workers. These and other factors should provide the incentive for all underground operations to contribute strongly to this conference. Significant developments in practice and research in recent years have helped ensure we maintain and improve levels of safety within our underground mining sector. The organising committee has provided an opportunity to present these developments so that the industry can benefit from this collective knowledge and will call on expertise from industry, academia, researchers and regulators to bring about the 12th in a series of ventilation conferences. Topics covered in the 2022 program include explosions and air blasts, coal mine ventilation, main fans and refrigeration, hazard management and detection and control of spontaneous combustion.

Papers in collection

  • Highlighting duct constraints in duct-fan systems operating under negative pressure Go to Paper
  • Coalmine ventilation – examining the past, looking to the future Go to Paper
  • Automatic ventilation model calibration using measured survey data Go to Paper
  • Ventilation contaminant characterisation for a greenfield project Go to Paper
  • Analysis of dust behaviour in the face zone utilising- CFD modelling tools Go to Paper
  • Geothermal gradient determination for ventilation and air conditioning modelling at Malmberget Mine Go to Paper
  • Calibration of post blast gas simulation using mine site readings Go to Paper
  • Cooling on demand – the next step in ventilation automation Go to Paper
  • Transition of mechanical cooling refrigerants Go to Paper
  • The influence of roadway configurations on VCD and bulkhead design Go to Paper
  • The impact of ventilation on demand on impeller fatigue life Go to Paper
  • Comparative performance of single and tandem stator arrangements in a one stage ventilation fan Go to Paper
  • Quantitative airblast risk assessments for block and sublevel caves Go to Paper
  • Examining the toxicity of respirable coal dust from interaction with\ moisture Go to Paper
  • Laboratory evaluation of ventilation effects on the self-heatingincubation behaviour of high volatile bituminous coals Go to Paper
  • Developing and maintaining mine site ventilation capability and new trends in mine ventilation career paths Go to Paper
  • Ventilation monitoring using fibre optics Go to Paper
  • Airborne contaminant monitoring strategy and technology Go to Paper
  • Dust and diesel characterisation in underground coalmines Go to Paper
  • Inclusion of Safescape Laddertube to enhance emergency egress in ventilation shafts Go to Paper
  • Oxidative combustion law of water soaked coal under oxygen-lean condition Go to Paper
  • Characterisation of respirable dust generated from full scale laboratory concrete cutting tests with conical picks at three stages of wear Go to Paper
  • Active explosion barrier conformance to the Australian Recognised Standard 21 – a total mine solution Go to Paper
  • Ventilation considerations and modelling of lithium battery fires inunderground mining Go to Paper
  • Simulation study on crucial parameters of long-compressive and shortsuction ventilation in large section roadway excavation of LongWangGou coalmine Go to Paper
  • Experimental study on the mechanism of gas-coal dust synergistic control based on compound reagents enhanced water spray technology Go to Paper
  • A review of the GAG as an effective firefighting tool Go to Paper
  • Are Battery Electric Vehicles (BEVs) the answer to the challenge of complying with the European Union (EU)’s new TLV-TWA for diesel exhaust contaminants? Go to Paper
  • Development of mine intelligent ventilation technology in western China Go to Paper
  • Comparison of heat, noise and ore handling capacity of battery-electric versus diesel LHD Go to Paper
  • A new gas emission prediction model based on Australian longwall mining conditions Go to Paper
  • Reducing ventilation change downtime and increasing operational uptime Go to Paper
  • The results of supplementary sampling to evaluate suitability of the instrumentation for monitoring of DPM concentration Go to Paper
  • Application of foam as a ventilation control for spontaneous combustion management in a longwall goaf Go to Paper
  • The experimental study on propagation of pressure wave in underground mine ventilation system Go to Paper
  • A coupled gas flow-geomechanical model based on energy analysis in coal and gas outburst simulation Go to Paper
  • Tube bundle analyser flow rate, why it is important Go to Paper
  • A theoretical goaf resistance model based on goaf gas drainage data Go to Paper
  • Characterisation and calculation method of friction resistance based on fractal theory of roadway rough surface Go to Paper
  • Laboratory investigation of relationships between zeta potential and coal dust suppression efficiency Go to Paper
  • Australian Mine Ventilation Conference 2022 PDF
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    Normal price $132.00
    Member price from $79.20
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  • Published: 2022
  • Pages: 479
  • PDF Size: 76.896 Mb.
  • Unique ID: P-01455-Z5M0R0
  • ISBN no: 978-1-922395-10-8

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