Abstract
The drought that occurred in Zimbabwe in 2020 affected the country’s main hydro-power station causing the electricity supply to be less secure and reliable. This challenge resulted in load-shedding, which is not desirable to mining companies that require constant and reliable power for their operations. In that regard, a techno-economic analysis was carried out to assess the potential of integrating concentrated solar power (+thermal storage) and photovoltaics (+battery storage) to supply power at a typical mine in Zimbabwe. Two scenarios were simulated—a base case with no exports to the grid and another case where exports were allowed. The models were evaluated based on the generated renewable energy offsetting the demand from the mine, the energy exported, the grid contribution, the levelised cost of electricity and the net present value. The results show that the addition of a battery storage system to PV improves the percentage of the load offset by the renewable system and the generated energy by the renewable system by almost double. However, the installation cost, required land, LCOE, and simple pay-back also increased by approximately a factor of 2. The addition of a thermal storage system to CSP increased the generated energy, the capacity factor, and the renewable energy contribution by approximately a factor of 2. However, the land required for development and the installation costs also nearly doubled.
Highlights
According to the International Energy Agency, the mining sector consumes about 11% of the total worldwide energy [1]
The installation cost, the required land, the Levelised Cost of Electricity (LCOE), and the simple pay-back increased by approximately a factor of 2 while the Net Present Value (NPV) reduced by nearly half
The analysis showed that the PV and battery models could offset about 63% of the annual mine load
Summary
According to the International Energy Agency, the mining sector consumes about 11% of the total worldwide energy [1]. The industry is currently powered predominantly by convectional energy sources which contribute to greenhouse gas emissions [2]. According to the power utility first quarter figures for 2020, the generated electricity was approximately 20% short of the target [4]. This was mainly caused by the low levels of water in the Kariba dam which is the main hydropower station and technical challenges at one of the thermal power stations [4]. Solar, have the potential to provide an alternative solution to this problem due to the generally good solar resources in the country [5]
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