The dimensions of a mine section with maximum reserves of coal

At present, the designing of a power supply system for mine sections is performed in accordance with obsolete regulatory documents made in the early 90s of the 20th century. This slows down the implementation of the ‘digital mining operation’ concept and prevents the full potential for energy savings from being realized. At the same time, development of digital technologies makes the issues of computer simulation of the power supply system of the coal mine sections urgent. Simulating computer modelling is required to develop measures for increasing the efficiency of the power supply system of operating coal mines as well as for designing new coal mines. The article offers the methodology of forming simulation computer models for evaluation of the energy efficiency of the power supply system for a coal mine section. To ensure the correct development of active and reactive power consumption profiles, it is proposed to use scenario approach to modelling dynamic processes. As an example of using the proposed approach, one of the scenarios for the operation of power supply system of a mine section at one of the coal mines of Kuzbass is reviewed here. The proposed approach to scenario modelling of operating modes of a mine section ensures the correct modelling of dynamic processes for the subsequent assessment of the effectiveness of the use of intelligent devices for controlling the flows of active and reactive power, which will make it possible to accurately assess the effect of FACTS devices on the level of active power losses, as well as the quality indicators of the electrical energy. The proposed methodology can be used in the development of computer-aided design systems for the design of energy-efficient power supply systems for extraction areas.

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Evaluation of the stress-strain state of shafts of mine section pumps

News of the Ural State Mining University ◽

10.21440/2307-2091-2017-2-75-77 ◽

2017 ◽

pp. 75-77

Author(s):

S. A. Timukhin ◽

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E. O. Churakov ◽

A. O. Islent'ev ◽

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...

Keyword(s):

Strain State ◽

Stress Strain ◽

Stress Strain State ◽

Mine Section

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Possibilities For Simulating The Smoke Rollback Effect In Underground Mines Using Cfd Software / Možnosti Simulace Zpětného Proudění Kouře V Hlubinných Dolech Pomocí Cfd Softwaru

GeoScience Engineering ◽

10.2478/gse-2014-0008 ◽

2014 ◽

Vol 60 (2) ◽

pp. 8-16 ◽

Cited By ~ 2

Author(s):

Vancho Adjiski

Keyword(s):

Wide Spectrum ◽

Research Paper ◽

Underground Mines ◽

Ventilation Network ◽

Cfd Analysis ◽

Smoke Spread ◽

Fire Scenarios ◽

Mine Section

Abstract The effect of fire generated smoke rollback in underground mines can be dangerous and a potentially fatal threat to all who are endangered by the fire. Three critical stages in the process of smoke rollback are 3D local phenomena that can be analysed by CFD software simulations. With the help of a 3D-CFD analysis we can observe the critical stages of smoke rollback and their reaction to a ventilation network. The CFD provides the opportunity to expand the range of prediction of smoke spread for a wide spectrum of airflows, fire intensities, mine-section inclinations and layouts. The paper deals with the possibilities for simulating the smoke rollback effect in underground mines using the CFD software. For the purposes of this research paper, the PyroSim software from the company Thunderhead Engineering was used to create three different CFD fire scenarios and then observe the critical stages of smoke rollback effects.

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