scholarly journals Recommendations for improving the operation efficiency of electric pumping units of mine drainage installations

2020 ◽  
Vol 548 ◽  
pp. 052041
Author(s):  
N P Ovchinnikov
Keyword(s):  
Mine Drainage ◽  
Operation Efficiency ◽  
Pumping Units

Some aspects of improving the energy efficiency of a mine centrifugal pumps.

2020 ◽  
Vol 23 (2) ◽  
pp. 48-51
Author(s):  
V. KONDRATENKO ◽  
◽  
V. KALYNYCHENKO ◽  
Keyword(s):  
Energy Efficiency ◽  
Mine Drainage ◽  
Experimental Studies ◽  
Operating Mode ◽  
Centrifugal Pumps ◽  
Pump Unit ◽  
Drainage Systems ◽  
Start Up ◽  
Discharge Unit ◽  
Pumping Units

Mine drainage systems, which are used at the main drainage of mining enterprises, have a drive capacity of up to 1600kW. To reduce non-productive energy losses, as well as for the continuous operation of the mining company, mine pumps must be energy efficient and reliable. Analysis of downtime of drainage systems shows that the weak point is the unloading device. This fact can lead not only to the failure of the pumping unit, but also to possible prolonged downtime of the mine. The main disadvantage of the existing disk unloading devices of mine pumps is their low reliability and low service life, due to the rapid wear of the components of the unloading unit. The most vulnerable elements of the unloading device are the unloading rings. The need for frequent replacement and adjustment of the elements of the discharge unit is associated with disassembly and assembly of the pump directly in the pump chamber. Such actions require significant costs of unproductive manual labor of service personnel, and rapid wear of parts of the unloading device necessitates their constant replenishment. Malfunctions in the unloading device can cause significant pump failures. To increase the reliability and energy efficiency of mine drainage systems, the method of control of the unloading device was used. During the experimental studies it was found that cavitation phenomena during the operation of pumping units are absent and, accordingly, can not be the cause of wear of the elements of the unloading unit. When the pumps are operating in steady state, the displacement of the rotors was monitored for 3-4 hours on each pump unit. After data processing, it was obtained that the wear of the surface of the unloading rings occurs at a rate of 0.05-0.15mm in one hour. To determine the wear of the rings of unloading during start-up - stop of the pump, at first the indicators of measuring devices at the established mode of operation of the pump unit were fixed. Then the pump was turned off and on again. After starting the pump unit, we made sure that the operating mode of the unloading device did not change and compared the readings of the shaft position indicator before stopping and after starting the pump. From the measurements made it followed that stopping and starting the pump does not lead to noticeable wear of the unloading device. Therefore, it can be assumed that mainly the wear of the discharge rings occurs during the steady operation of the pump unit.

scholarly journals Efficiency of electricity use by mine drainage plants.

2021 ◽  
Vol 24 (1) ◽  
pp. 64-68
Author(s):  
KONDRATENKO, V. ◽  
◽  
KALINICHENKO, V. ◽  
KARDASH D. ◽  
◽  
...  
Keyword(s):  
Mine Drainage ◽  
Pressure Gauge ◽  
Drainage System ◽  
Electrical Network ◽  
Technical Diagnostics ◽  
Flow Meter ◽  
Pump Operation ◽  
Electricity Use ◽  
Rational Organization ◽  
Pumping Units

The experience of operating mine drainage plants indicates significant consumption of electricity consumed by pump electric motors. This situation of mine drainage is not always justified. Sometimes this can be caused by the operation of the components of the pumping unit (pump, electric motor, pipeline, electrical network) with underestimated efficiency. The article describes the methodology and provides methods for monitoring the efficiency of the use of electricity both as a whole by the drainage system and its constituent elements. The most vulnerable of the components of the drainage system is the pumping units themselves. This is primarily due to the complexity of the design of the pumps, the presence of moving parts and significant pressures during their operation. It is generally recommended to use a pressure gauge on the discharge line, a vacuum gauge on the water inlet side, and a flow meter to measure the pump flow to monitor the pump unit. In addition to these devices, for the diagnosis of unsatisfactory pump operation, it is recommended to additionally install a manometer that measures the pressure in the unloading chamber, a manometer that measures the pressure behind the unloading disc and a flow meter that measures the water flow in the unloader. The indicators of the proposed three control devices make it possible to determine by calculation such important pump parameters as the value of the axial force and the dimensions of the end and annular clearances of the unloading unit. This technique can be used as the basis for technical diagnostics and rational organization of the operation of existing installations. This allows you to control and promptly eliminate malfunctions that occur during the operation of drainage, save valuable equipment and eliminate wasteful energy costs.

Mine Drainage

2009 ◽  
Author(s):  
Stephen Michell
Keyword(s):  
Mine Drainage

Formation of water chemistry in the Modonkul river under the action of mine drainage effluent

2020 ◽  
pp. 56-66
Author(s):  
Z. I. Khazheeva ◽  
S. S. Sanzhanova
Keyword(s):  
Water Chemistry ◽  
Mine Drainage ◽  
High Concentration ◽  
Catchment Basin ◽  
Sulfate Anion ◽  
Concentrated Flow ◽  
Sodium Calcium ◽  
Calcium Cation ◽  
Calcium Magnesium ◽  
The Town

The Dzhida ore field in the Zakamensk district of Buryatia features high concentration of mineralization within a small area. The Dzhida deposit is composed of complex ore. The ore field contains commercial-value primary deposits: Pervomai stockwork of molybdenum, Kholtoson tungsten lode and Inkur stockwork of tungsten. The Modonkul river catchment basin lies inside the Dzhida ore field. A real threat to the town of Zakamensk is created by manmade sand-bulk (old) tailings and slurry dump. By now, the concentrated flow of natural and man-made sand enters the low terrace and floodplain of the Modonkul river in the form of a talus train. This study is focused on the influence of the mine drainage effluent and the Inkur tributary on the water chemistry in the Modonkul river. 80 water samples were taken from the surface layer 0-0.5 m thick at five stations. Physicochemical indices of water were measured at the water sampling points, and the water chemistry was analyzed in a laboratory. In the background conditions, cations and anions in the Modonkul water chemistry range in decreasing order as follows: Са2+ > Mg2+ > Na++К+ и HCO - > SO 2- > Cl-. In the zone of mixture of natural and mine process water, the chemistry changes: from hydrocarbonate to sulfate (anion), from calcium-magnesium to sodium-calcium (cation). Downstream the natural chemistry changes to the hydrocabonate-sulfate composition, with prevailing content of calcium in cations. Iron content of water lowers 3-4 times after influx of mine effluents, while the contents of Mn, Zn, Co and Cd grow and then decrease downstream.

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