Physiological responses of people in working faces of deep underground mines

Abstract Building concentric tubes is one of biggest practical challenges in the construction of freeze-pipes of artificial ground freezing (AGF) applications for deep underground mines. In this study, the influence of tubes eccentricity on phase-front expansion (i.e., expansion of the frozen body) and energy consumption of AGF systems is analyzed. A 1+1D semi-conjugate model that solves two-phase transient energy conservation equation is derived. The model is firstly validated against experimental data and then verified with a fully-conjugate model from the literature. After that, the model is extended to a field scale of typical deep underground mines to study freeze-pipe eccentricity. The results show that an eccentric freeze pipe can reduce the phase-front expansion by around 25%, as compared with a concentric one. Also, the geometrical profile of the phase-front is significantly influenced by the freeze-pipe eccentricity. Furthermore, in the passive zone, where AGF coolants are isolated from the ground to reduce energy consumption, freeze pipe eccentricity can increase the coolant heat gain by 10%. This percentage can increase up to 200% if radiation heat transfer is minimized.

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Are There Better Disposal Methods?

The Waste Crisis ◽

10.1093/oso/9780195128987.003.0011 ◽

2000 ◽

Author(s):

Hans Tammemagi

Keyword(s):

Sustainable Development ◽

Waste Disposal ◽

Surface Expression ◽

Abandoned Mines ◽

Underground Mines ◽

Open Pit ◽

Near Surface ◽

The Sustainable Development ◽

Future Value ◽

Deep Underground

Most of the solid waste generated by society ultimately winds up in near-surface landfills. Let us put our thinking caps firmly on, place our prejudices aside, and explore what other methods might be used to dispose of waste. We should seek, in particular, the approaches that best fulfill the three basic principles described in chapter 2. That is, we should strive to find disposal methods that are in accord with sustainable development. Existing and abandoned pits, quarries, and mines are attractive for waste disposal because a hole to contain the wastes has already been excavated. Such abandoned areas, when left unreclaimed, cannot be used for agriculture or other beneficial uses. Thus, they generally do not have significant market value and can often be obtained relatively cheaply. For these reasons, pits and quarries have been extensively used for landfills. Operating and abandoned mines, on which this section focuses, are somewhat similar to pits and quarries, though usually larger. Abandoned mines hold promise as disposal facilities because they are resource areas that have been depleted and thus have little future value. There are two basic types of mine: the open pit mine, which is effectively a large pit or hole in the ground; and the underground mine, where the mined-out openings are deep underground and there is no surface expression except for the shafts used to gain subsurface access. Because underground mines occupy minimal surface land, their use for waste disposal would be in accordance with the sustainable development principles that were advocated in chapter 2. Several European countries, with higher population densities and much smaller land mass than in North America, have long used abandoned underground mines to dispose of their rubbish. The major advantage of placing wastes deep in underground mines is that it is inherently safer than placing the wastes in a surface facility. The amount of groundwater and its flow rate decrease with depth; this fact, combined with the long transport paths back to the biosphere, minimizes the possibility that contaminants will be carried by groundwater to the surface, where they could damage the environment. The waste is contained deeper and more securely.

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Why Should Inspection Robots be used in Deep Underground Mines?

Proceedings of the 27th International Symposium on Mine Planning and Equipment Selection - MPES 2018 ◽

10.1007/978-3-319-99220-4_42 ◽

2019 ◽

pp. 497-507 ◽

Cited By ~ 4

Author(s):

R. Zimroz ◽

M. Hutter ◽

M. Mistry ◽

P. Stefaniak ◽

K. Walas ◽

...

Keyword(s):

Underground Mines ◽

Deep Underground ◽

Inspection Robots

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Back Analysis of Short-Term Seismic Hazard Indicators of Larger Seismic Events in Deep Underground Mines (LKAB, Kiirunavaara Mine, Sweden)

Pure and Applied Geophysics ◽

10.1007/s00024-019-02352-8 ◽

2019 ◽

Vol 177 (2) ◽

pp. 763-785

Author(s):

Emilia Nordström ◽

Savka Dineva ◽

Erling Nordlund

Keyword(s):

Seismic Hazard ◽

Early Warning ◽

Back Analysis ◽

Warning System ◽

Source Area ◽

Seismic Source ◽

Underground Mines ◽

Seismic Events ◽

Short Term ◽

Deep Underground

Abstract Back analysis for evaluation of the merits of the short-term seismic hazard indicators (precursors) used in the mines and their potential application for early warning was carried out for fourteen seismic events that potentially caused damage in Kiirunavaara Mine, Sweden, selected according to our designed criteria. Five short-term hazard indicators: Seismic Activity Rate (SAR), Cumulative Seismic Moment (CSM), Energy Index (EI), Cumulative Apparent Volume (CAV) and Seismic Apparent Stress Frequency (ASF) were tested. The behaviour of the indicators was studied using the parameters of all seismic events within a sphere around the hypocenter location of the analyzed seismic source within one month before the main (damaging) event. The size of the sphere equals the estimated radius of the analyzed seismic source (area of inelastic deformation). mXrap software (Australian Centre for Geomechanics) was used for data visualization, manipulation, analysis and extraction. The results from the main analysis showed a good agreement between the expected and actual behaviour of the SAR, CSM and CAV indicators. In overall, CSM and CAV ranked the highest positive/expected behaviour followed by SAR (Table 3). The EI and ASF ranked lowest and showed to be sensitive to the number of events within the source sphere. The rate of false warnings and missed warnings was also investigated for the 25 days-long period before the damaging events. A similar trend was observed as for the main analysed event. The results from this study can be used for further improvement of the short-term hazard estimations and early warning system in deep underground mines.

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Optimal Design of a Double-Sided Permanent Magnet Linear Synchronous Motor for Ropeless Elevator System

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.416-417.99 ◽

2013 ◽

Vol 416-417 ◽

pp. 99-103

Author(s):

Li Ren Huang ◽

Ji Wei Dong ◽

Qin Fen Lu ◽

Yun Yue Ye ◽

Yi Chen

Keyword(s):

Permanent Magnet ◽

Low Cost ◽

Element Model ◽

Synchronous Motor ◽

Underground Mines ◽

Force Density ◽

Iron Core ◽

Linear Synchronous Motor ◽

Deep Underground ◽

Force Ripple

The ropeless elevator driven by linear motor is expected to be a new solution to vertical transportation of skyscrapers and the deep underground mines. Due to high thrust force density, low force ripple and low cost etc., a double-sided permanent magnet linear synchronous motor (DPMLSM) with slotted iron core and multi-segment primary is proposed and designed. Based on the erected 2D finite element model, the structure is optimized in order to reduce the detent force. Moreover, the influence of manufacture error on force performance is also investigated. It is shown the proposed DPMLSM is suitable for the ropeless elevator.

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BLASTING OPERATIONS USING DIFFERENT INITIATION METHODS IN DEEP UNDERGROUND MINES

19th SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings19th, Science and Technologies in Geology, Exploration And Mining ◽

10.5593/sgem2019/1.3/s03.014 ◽

2019 ◽

Author(s):

Marcin Szumny

Keyword(s):

Underground Mines ◽

Deep Underground

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Identification and Statistical Analysis of Impulse-Like Patterns of Carbon Monoxide Variation in Deep Underground Mines Associated with the Blasting Procedure

Sensors ◽

10.3390/s19122757 ◽

2019 ◽

Vol 19 (12) ◽

pp. 2757 ◽

Cited By ~ 5

Author(s):

Justyna Hebda-Sobkowicz ◽

Sebastian Gola ◽

Radosław Zimroz ◽

Agnieszka Wyłomańska

Keyword(s):

Carbon Monoxide ◽

Historical Data ◽

Underground Mines ◽

Critical Parameters ◽

Signal Segmentation ◽

Safe Level ◽

Co Concentration ◽

Deep Underground ◽

Daily Patterns

The quality of the air in underground mines is a challenging issue due to many factors, such as technological processes related to the work of miners (blasting, air conditioning, and ventilation), gas release by the rock mass and geometry of mine corridors. However, to allow miners to start their work, it is crucial to determine the quality of the air. One of the most critical parameters of the air quality is the carbon monoxide (CO) concentration. Thus, in this paper, we analyze the time series describing CO concentration. Firstly, the signal segmentation is proposed, then segmented data (daily patterns) is visualized and statistically analyzed. The method for blasting moment localization, with no prior knowledge, has been presented. It has been found that daily patterns differ and CO concentration values reach a safe level at a different time after blasting. The waiting time to achieve the safe level after blasting moment (with a certain probability) has been calculated based on the historical data. The knowledge about the nature of the CO variability and sources of a high CO concentration can be helpful in creating forecasting models, as well as while planning mining activities.

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