South Africa’s energy and mobility sectors are colliding in transformative ways. Electric vehicles have become more accessible, and CleanTechnica reports that local EV sales have grown by 35% between 2023 to 2024. Yet, this exciting growth is marred by a familiar challenge: the country’s fragile, overburdened national electricity grid.
Can our electricity system support this electrified future? Not without help. The answer lies in not just expanding capacity, but in rethinking it entirely.
South Africa’s National Development Plan 2030 aims to have an energy sector that promotes economic growth, job creation and environmental sustainability through a diversified energy mix. In this light, solar energy isn’t just an alternative; it’s fast becoming central to the country’s energy transformation strategy. As such, increasingly, it is emerging not as a backup but as a viable solution to South Africa’s energy future.
Our national grid is under extraordinary pressure, and our energy crisis is well documented. Decades of underinvestment, reliance on coal, deep-seated corruption and maintenance backlogs have left the nation vulnerable to widespread load shedding, load reduction, unexpected power outages and system inefficiencies.
This has had a ripple effect across industries, with energy insecurity becoming a significant barrier to economic competitiveness. According to Stats SA, the country is grappling with an electricity availability that struggles to improve and raising concerns over energy reliability and economic stability. Figures show a 2.5% decline in electricity generation in early 2025 alone, providing a snapshot of the broader systemic strain.
Globally, EV sales are expected to exceed 20 million this year. This figure is up 35% year on year, according to the new edition of the IEA’s annual Global EV Outlook, and is being fuelled by government incentives, manufacturing innovation and falling battery prices.
Promising
Locally, the potential is equally promising, with government’s draft EV white paper providing a foundation for EV industrialisation and infrastructure development. It outlines investment goals and policy frameworks designed to position South Africa as an EV manufacturing hub. However, it also acknowledges the risk of further grid instability without new approaches to energy generation and distribution.
EVs demand electricity. Experiences from other countries show that users tend to charge their vehicles at home and work, reserving the use of fast-charging stations for long-distance travel. At home, a user will be able to charge a vehicle from a standard plug, which will take six to 10 hours to charge the vehicle from empty to full, depending on the model. A user can upgrade and put a dedicated EV charger that will typically draw 3kW, 7kW or 11kW. For comparison, charging your car with an 11kW charger will greatly reduce the time it takes to fully charge your car, but that will be equivalent to running 11 swimming pool pumps at the same time.
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It’s easy to jump to alarmist conclusions. Imagine 100 000 EVs being plugged in as their owners arrive home from work – that’s 100 000 x 11kW, or 1.1GW added to the evening peak. For Eskom, this means ramping up power plants faster (far from ideal) and dealing with higher peaks. Existing substations would also come under added strain. It doesn’t take much imagination for this kind of narrative to hit the headlines with dramatic titles like “EVs will collapse SA’s electricity infrastructure” and worse.
Although this scenario is possible, it doesn’t have to play out that way. Not all EVs will charge at the same time. After all, we don’t fill up with petrol every day, so why assume we’ll charge EVs daily? Plus, while EVs are relatively new in South Africa, the technology itself is mature and comes with built-in flexibility.
The real need is a full battery before the next trip and not immediately upon arriving home. Most vehicles are parked for over 20 hours a day, offering ample time to shift charging to off-peak hours when the national grid capacity is underutilised.
This shift doesn’t increase peak demand; it helps flatten it. By boosting off-peak usage, we can make better use of existing infrastructure and spread fixed costs over more kilowatt-hours, ultimately reducing the unit cost of electricity.
Smart tariffs are key to encouraging this behaviour. Time-of-use pricing with higher rates during peak hours and lower rates off-peak can nudge EV owners to charge when it’s most efficient and affordable. (In short: don’t charge your EV at 6 pm if you don’t want it to cost you.)
What about solar?
South Africa’s electricity grid remains heavily dependent on coal, which means charging an EV with coal-fired power could increase a user’s carbon footprint. The solution? Clean electrons from renewable sources like solar PV.
International experience shows that EV owners are more likely to invest in solar installations. If an EV is charged at a workplace equipped with solar PV, energy consumption is aligned with solar generation, maximising the use of clean power when it’s most abundant. That’s a clear win. At home, excess solar energy can be stored in the EV’s battery to be used at night or during the next day’s commute.
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A tech-savvy thinker might even go a step further – imagining a world where EVs help stabilise the grid, discharging power during peaks or when there’s a local shortfall. But to make this a reality, regulatory changes are needed to allow EVs to operate as part of the energy ecosystem. Smart, flexible tariffs are also key, enabling behaviours that reduce system-wide costs while ensuring vulnerable users aren’t unfairly affected (for example, by keeping time-of-use tariffs optional).
Of course, challenges will remain, especially in rural areas where local infrastructure may struggle to handle increased demand. But the potential is clear: with the right incentives, planning and upgrades, EVs can be part of the solution, not the problem.
Yet the tide is turning, and the complementarity to solar energy means that we can look forward to the future. Long relegated to a supplemental power option, solar is quickly becoming essential to infrastructure, especially in rural and remote areas of South Africa, where extending the national grid is impractical. The country has long enjoyed some of the highest solar irradiance in the world and, paired with declines in battery costs, solar can be combined with energy storage to offer a resilient, clean and decentralised power source to keep EVs running even when the grid is unable to. Even more than that, EVs and solar can be part of the solution in making the current infrastructure more resilient.
This evolution in solar technology is being driven not just by innovation but by necessity and presents a unique opportunity for South Africans wanting to reduce their reliance on the grid and Eskom. By adopting solar-powered EV charging solutions, we can lower our energy and transportation costs, gain independence from relying on fossil fuels, build resilience against power outages and contribute to a cleaner, more sustainable environment.
In areas with recurring power outages (from cable theft, load shedding or load reduction, or a combination), savvy consumers and commercial businesses have already installed futureproofed rooftop solar and home energy management systems.
The intersection between EVs and solar energy is undeniable – and unfolding in real time. By positioning solar as a critical enabler of electric mobility, South Africa can better navigate its energy crisis, accelerate EV adoption and build a more resilient energy future that advances the country’s goals of economic growth, job creation and sustainable development.
Read: BYD reportedly launching sub-R400 000 electric car in SA
Ultimately, this is about more than energy or transportation; it’s about securing South Africa’s long-term prosperity.
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- The author, Patrick Narbel, is chief technology officer at GoSolr
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