Analyzing the Electricity Consumption and Costs of Electrical-Powered Machines When There is Orepass Failure in Underground Mine

Abstract

In underground mining environment where the loss of orepasses is a dominant factor, the mine
may face a challenge of improving the loading and hauling operations. Some of the options will be
to rehabilitate the lost orepasses, or developing the new ones. When the rehabilitation cost is high,
alternative strategies should be applied to compensate for the orepasses failure. One of the possible
options is to use diesel or electric Load-Haul-Dumps (LHDs). The use of diesel-powered LHDs
will increase heat and gas emissions which increase environmental concerns and ventilation costs,
while adoption of electric-powered vehicles needs to be analysed. Therefore, this study was
conducted at an existing underground mine in Sweden, to determine the electricity consumption
and costs of electric-powered LHDs when there is a loss of orepasses. The AutoModTM discrete
event simulation tool was used during the analysis. The results show that, electric-powered LHDs
have significant cost saving when used in case of orepass loss to move materials compared to
diesel-powered units. However, the source of electricity to fully adopt electric-powered units may
need further financial justifications to evaluate the impacts to the environment.