The UK National Grid has announced that peak impact of electric cars in the UK will be equivalent to capacity of six nuclear plants. According to National Grid’s “Future Energy Scenarios” report published in July of 2017, smart charging could substantially decrease the pressure on the system at peak times, reducing additional demand from electric vehicles to 3.5 GW by 2030 from a potential scenario of 8 GW of additional demand without the technology.
It is expected that 18 GW of extra demand for electricity — the equivalent of the capacity of nearly six Hinkley Point nuclear power stations — will be generated at peak times by 2050. However, this ignores the many ways in which the real world implementation will be very different.
“Well before 2050, energy independent vehicles being developed by Toyota, Tesla, and others will bypass national grids altogether and sell in large numbers,” said Dr Peter Harrop, lead author of the IDTechEx Research report, Energy Independent Electric Vehicles Land, Water, Air 2017-2037.”
“Hanergy and Sono Motors even promise mainstream solar-only cars by 2020 and even if they fail, others are on the job, some with particularly power rich designs employing wind energy, as well when the vehicle is parked,” added Harrop.
National Grid analyzed the potential impact on demand at busy times of the day, such as after working hours, if forecasts for rapid growth in electric vehicles by 2050 are realized. The UK Government has said it plans all electric by 2050, which is a politician’s way of kicking an issue into the long grass: several other countries pitch 2030 or 2040.
“Earlier than that, roadside solar charging stations are catching on as they improve efficiency, modularity, affordability, and ability to incorporate wind power. That means entirely or mainly off-grid supply: you can even see them in Malta. Another offsetting factor is the immediate availability of smart charging recognized by National Grid that would power up car batteries at times when electricity networks can cope,” said Harrop.
He concluded, “Rapidly increasing range of electric vehicles creates much more freedom concerning when and where to charge, including from off-grid energy-independent houses. Six nuclear plants? It is just not going to happen. It is even arguable that no extra grid supply will be required.”
The National Grid study follows several developments that suggest the growth in electric vehicles might accelerate dramatically over the coming decades. Analysts IDTechEx agree with a tipping point approaching, not least as up front vehicle price parity occurs. Harrop thinks it is fair that the National Grid presumes that electric vehicle sales could account for more than 90% of all cars in the UK by 2050, with one million on Britain’s roads by the early 2020s and as many as nine million by 2030.
Industry experts and operators of local electricity networks, to which the majority of vehicle chargers will be connected, have warned that to avoid costly upgrades to grid infrastructure, drivers will have to become used to the idea they may not always be able to power up their cars immediately. However, only analyst IDTechEx factors energy independent vehicles into its forecasts.
IDTechEx is staging the world’s first conference and exhibition on “Energy Independent Electric Vehicles” September 27 to 28 at the Technical University of Delft, Netherlands. This event will embrace the commercial opportunity and technology roadmap of the vehicles by land water and air and their enabling technologies. It is staged by analyst IDTechEx which has the only comprehensive reports and consultancy on EIVs and their technologies such as structural electronics, tribo-electric and 6D motion energy harvesting and extreme light-weighting.
The overview report is Energy Independent Electric Vehicles Land, Water, Air 2017-2037.