Informatively-measuring smart-теchnologies of monitoring of complicated engineering networks

Authors

  • Т. V. Bunko Department of Problems of Mineral Mines at Great Depths, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine, Simferopolskaya str., 2а, Dnepr, Ukraine
  • М. V. Shyshov Technical development Department Coal production directorate DTEK Energy, Lva Tolstogo str., 57, Kiev, Ukraine
  • V. V. Myroshnychenko Ventilation and Degassing group, Technical development Department Coal production directorate DTEK Energy, Lva Tolstogo str., 57, Kiev, Ukraine
  • I. Ye. Kokoulin Department of Problems of Mineral Mines at Great Depths, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine, Simferopolskaya str., 2а, Dnepr, Ukraine

Keywords:

SМАRТ-technology, monitoring, air-gas dynamic parameters, stationary and portable devices, structure-parametrical authentication

Abstract

Purpose. Ground of creation and use of informatively-measuring SМАTТ-technology of monitoring of the mine ventilation system on the basis of complexing base of stationary and portable devices determination of air-gas dynamic parameters of the mine workings and ventilation constructions and development method of structure-parametrical authentication of the ventilation systems in the conditions of vagueness of initial information. Methods. At implementation of researches the state-of-the-art review of SМАRТ-methods of raising and achievement aims of monitoring of the mine ventilation systems was conducted, the state of ventilation is analyzed, control of air-gas dynamic parameters of the DTEK mines, present base of stationary and portable devices of their measuring, and also the state of the system of against-accident defence of mines. Results. Three stages of monitoring of air-gas dynamic parameters are described and basic approaches with the use of SМАRТ-criterions to raising and decision of task of complexing stationary and portable devices of measuring of air-gas dynamic parameters with the purpose of decline degree of vagueness of information necessary for conducting of ventilation calculations are formulated. With the purpose of complex decision of tasks of monitoring and calculation of the air-gas dynamic parameters of mine ventilation networks the method of structure-parametrical authentication of elements of ventilation network on the condition of receipt was adapted unenough certain entrance information. Scientific novelty. The method of monitoring of air-gas dynamic parameters of mine ventilation network is first developed by complexing of measurings by different types of devices and the increase of exactness of structure-parametrical authentication of ventilation network is grounded taking into account the results of monitoring. Practical meaningfulness. The got results will allow to promote adequacy of mathematical model of the ventilation system to its real analogue, efficiency of its air-gas dynamic monitoring, exactness of decision of ventilation tasks to get a social effect due to the increase of labour safety of miners.

Author Biographies

Т. V. Bunko, Department of Problems of Mineral Mines at Great Depths, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine, Simferopolskaya str., 2а, Dnepr

D.Sc. (Tech.), Senior Researcher

М. V. Shyshov, Technical development Department Coal production directorate DTEK Energy, Lva Tolstogo str., 57, Kiev

M.S. (Tech.)

V. V. Myroshnychenko, Ventilation and Degassing group, Technical development Department Coal production directorate DTEK Energy, Lva Tolstogo str., 57, Kiev

M.S. (Tech.)

I. Ye. Kokoulin, Department of Problems of Mineral Mines at Great Depths, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine, Simferopolskaya str., 2а, Dnepr

Ph.D. (Tech.), Senior Researcher

References

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Lulich, N. and Kuzmanovich, D. Optimization of air distribution in mine ventilation networks, Yugosl. I. Oper. Res., 4, 1994, no. 1, pp. 105-113.

Published

2017-10-24

Issue

Section

Computer systems and information technologies in education, science and management