By Jonathan Skeen, MD Commercial, SOLA
DURING the 1990s and early 2000s South African mines bought electricity from Eskom at regulated tariffs which were globally competitive. Eskom prioritised the mines as their most important customers, and faced few hurdles relating to climate change concerns.
Buyers had little choice, but the energy was cheap and reliable and there were few viable alternatives.
Since 2008, however, the landscape has become unrecognisable: after average annual tariff increases of 15%, a dramatic drop in grid reliability, the rise of carbon laws and trade restrictions, and the emergence of independent power producers (IPPs), energy traders and viable clean energy technologies.
South African mines now have more choice, but must solve an increasingly complex puzzle to secure their electricity supplies, while both decarbonising and containing rising costs.
Many have moved quickly in recent years to build their own solar energy plants at their operations, or to buy wind or solar power from the grid under wheeling agreements with IPPs.
However, as the generation capacity of wind and solar power on the network increases, so too does the complexity of integrating more variable power while minimising waste and balancing supply and demand.
The arrival of compelling battery energy storage solutions
As South African mines look to an unpredictable future, their ability to increase the flexibility of their electrical demand and supply will be central to achieving steep carbon goals in a cost effective and reliable manner. Here, battery storage technologies have emerged as a pivotal technology for delivering a range of beneficial services both via the grid and behind the meter.
The battery revolution bears the hallmarks of the solar revolution that preceded it: solar panel prices decreased by 90% from 2010 to 2023 while Eskom tariffs increased by more than five times. This drove the emergence of the thriving South African solar industry.
Similarly, we have seen that a 90% decrease in average battery storage prices over the last 15 years (much of which occurred in the past 24 months) is driving rapid deployment of battery capacity around the world.
This means more savings
For South African mines, the emergence of low cost, large batteries means greater potential savings.
When coupled with solar PV, large scale batteries can already improve the immediate savings benefit under wheeling transactions by around 20%.
This is achieved by enhancing the generation profile, increasing usable clean energy volumes, and deploying more clean energy during expensive peak demand periods.
It means greater resilience and reliability
As Eskom aims to implement sweeping changes to electricity tariff structures, and as our generation mix evolves at an unprecedented rate, flexibility has become the mining sector’s most valuable resource.
Batteries can adapt to future changes in time-of-use periods and tariffs. They can be enhanced and augmented in future to follow cost and market influences.
They also offer resilience against the so-called “duck-curve” effect, as surplus solar generation during daylight hours drives technical and economic inefficiencies in the power system.
What’s next for batteries in the mining sector
South African mines can now embrace the flexibility and resilience that comes with existing battery products that are now both economical and proven.
With battery storage already delivering real-world benefits, they will soon become a cornerstone of a competitive and sustainable mining sector in South Africa.
