Enough batteries to last with no nuclear, coal, or natural gas on a still winter night? There are not enough grid scale batteries yet. There’s ~8 hours of daylight at the 45th parallel in December.
I don’t feel like doing napkin math on Saturday morning, but you’d need an obscene amount of batteries, the US uses 500+ GWh per day.
Ideally battery storage density will keep advancing to the point where we can use grid scale backup batteries for long durations but we are not there yet.
A typical car battery stores 60 kWh (the average capacity of models is increasing), so, charged during the day using inexpensive renewable electricity (particularly solar), it can power a household during one of the rare winter nights with insufficient wind.
Case in point: France. A household consumes an average of 14 kWh of electricity per day. The capacity of electric cars will exceed 500 GWh before 2035 and 2000 GWh between 2040 and 2050.
Trucks, utility vehicles, and stationary batteries (domestic and industrial) will add to this. Batteries from retired vehicles will increasingly be converted into static batteries before being recycled (see "Redwood Materials" in the US).
In California, when the sun is at its peak (midday), solar power produces up to three-quarters of the electricity. Batteries are charged in the afternoon, when solar electricity is cheap, and released in the evening, when Californians return home. At their peak consumption, around 8 p.m., batteries can supply up to 30% of the state's electricity.
You can safely ignore all the households, they barely use any power compared to commercial and industrial facilities. What is the office tower going to do, use backup batteries from 500 cars in the basement to run dozens of pumps and fans? That doesn’t even get into industrial electrical loads..
Supplying 30% of California’s power is not 100% backup of the grid with batteries, sorry. Neither is “Let’s use cars to back up houses,” which ignores the fact that most power demand is non-residential.
We are a ridiculously long ways away from an exclusively solar + wind + batteries grid.
So what? Something which hasn't been done yet must not be attempted? Or is it doomed to fail?
The transition of many electrical systems is a work-in-progress. A complete re-haul of such heavy industry branch cannot be quickly completed, especially during a global crisis.
> You can safely ignore all the households, they barely use any power compared to commercial and industrial facilities.
Nope.
USA: Residential customers (139.894 million) directly consumed 1,509.23 TWh, or 35.23% of the total.
> What is the office tower going to do, use backup batteries from 500 cars in the basement to run dozens of pumps and fans?
A continental mix of renewables can cope most of the time. The point is the 'backup' (when a geographical zone doesn't produce enough and cannot be helped by another zone): dams, batteries, green hydrogen...
> Supplying 30% of California’s power is not 100% backup of the grid with batteries
This is a work-in-progress. 15 years ago some said that renewables will never be able to generate more than a few percent of the current running on national grid.
> We are a ridiculously long ways away from an exclusively solar + wind + batteries grid.
In the next years, it doesn't make sense to use batteries to sustain winter load: it would be way too expensive. But batteries get cheaper quickly, such that it doesn't make sense to build expensive nuclear plants just for winter. What does make sense, until batteries are cheap enough, is natural gas during winter, plus (where available) wind energy and hydro / pumped storage, existing nuclear plants (optimised for winter), biomass (wood), photovoltaics in the mountain, and geothermal.
Nuclear is currently expensive, but you're 100% wrong on those other two. Also, more people die from installing and maintaining solar and wind turbines than have ever died from nuclear, so...
Exponential growth is a funny thing. First it looks like nothing is happening, and all of a sudden everything has changed. Check out discussions about wind and solar some 10 years ago.
E: for reference from memory, it took about 50 years to install the first TW of solar. The next TW took 2 years, and the next TW is projected to take only 1 year, 2025.
> Making batteries viable for home use is a very different story to make them viable for a grid.
True. But both are stories from the same book. Meaning: If more homes install batteries and some become fully off-grid you will stabilize the whole grid without needing to install more power generation. This is exactly what happened in Pakistan (src: https://www.weforum.org/stories/2025/08/pakistan-energy-affo...) and I expect will happen all over the world as:
1. PV+battery prices continue falling
2. Climate change resulting in more sunny days (one of the very few upsides)
3. The need to become more self-sufficient due to energy price volatility due to shitty govt/shitty grid/shitty neighbors attacking your neighbors
Would be nice to see some subsidy from the govt (is EU listening?) like: "here's low interest loan to take your home off grid payable over 20+ years (expected lifetime of the whole PV+bat system) during which you promise you won't connect to grid".
So show me the model of renewables + batteries that would have been sufficient for all of the last 75 years in Germany and the UK. We do have the historical weather data so there is ZERO reason for all that handwaving.
Enough batteries to last with no nuclear, coal, or natural gas on a still winter night? There are not enough grid scale batteries yet. There’s ~8 hours of daylight at the 45th parallel in December.
I don’t feel like doing napkin math on Saturday morning, but you’d need an obscene amount of batteries, the US uses 500+ GWh per day.
Ideally battery storage density will keep advancing to the point where we can use grid scale backup batteries for long durations but we are not there yet.
A typical car battery stores 60 kWh (the average capacity of models is increasing), so, charged during the day using inexpensive renewable electricity (particularly solar), it can power a household during one of the rare winter nights with insufficient wind.
Case in point: France. A household consumes an average of 14 kWh of electricity per day. The capacity of electric cars will exceed 500 GWh before 2035 and 2000 GWh between 2040 and 2050.
Trucks, utility vehicles, and stationary batteries (domestic and industrial) will add to this. Batteries from retired vehicles will increasingly be converted into static batteries before being recycled (see "Redwood Materials" in the US).
In California, when the sun is at its peak (midday), solar power produces up to three-quarters of the electricity. Batteries are charged in the afternoon, when solar electricity is cheap, and released in the evening, when Californians return home. At their peak consumption, around 8 p.m., batteries can supply up to 30% of the state's electricity.
OK, so the answer to my question is “No”.
You can safely ignore all the households, they barely use any power compared to commercial and industrial facilities. What is the office tower going to do, use backup batteries from 500 cars in the basement to run dozens of pumps and fans? That doesn’t even get into industrial electrical loads..
Supplying 30% of California’s power is not 100% backup of the grid with batteries, sorry. Neither is “Let’s use cars to back up houses,” which ignores the fact that most power demand is non-residential.
We are a ridiculously long ways away from an exclusively solar + wind + batteries grid.
> OK, so the answer to my question is “No”.
So what? Something which hasn't been done yet must not be attempted? Or is it doomed to fail?
The transition of many electrical systems is a work-in-progress. A complete re-haul of such heavy industry branch cannot be quickly completed, especially during a global crisis.
> You can safely ignore all the households, they barely use any power compared to commercial and industrial facilities.
Nope.
USA: Residential customers (139.894 million) directly consumed 1,509.23 TWh, or 35.23% of the total.
Source: https://en.wikipedia.org/wiki/Electricity_sector_of_the_Unit...
> What is the office tower going to do, use backup batteries from 500 cars in the basement to run dozens of pumps and fans?
A continental mix of renewables can cope most of the time. The point is the 'backup' (when a geographical zone doesn't produce enough and cannot be helped by another zone): dams, batteries, green hydrogen...
> Supplying 30% of California’s power is not 100% backup of the grid with batteries
This is a work-in-progress. 15 years ago some said that renewables will never be able to generate more than a few percent of the current running on national grid.
> We are a ridiculously long ways away from an exclusively solar + wind + batteries grid.
To each is own opinion.
Production trend: https://ourworldindata.org/grapher/electricity-fossil-renewa...
No they aren't, there's no country on earth which can sustain a winter load with batteries.
In the next years, it doesn't make sense to use batteries to sustain winter load: it would be way too expensive. But batteries get cheaper quickly, such that it doesn't make sense to build expensive nuclear plants just for winter. What does make sense, until batteries are cheap enough, is natural gas during winter, plus (where available) wind energy and hydro / pumped storage, existing nuclear plants (optimised for winter), biomass (wood), photovoltaics in the mountain, and geothermal.
There is no country on earth which has spent anything like as much on developing storage as it has on fragile, unreliable, expensive nuclear plants.
Systems like these are just getting started.
https://stateofgreen.com/en/solutions/storing-heat-for-a-col...
> fragile, unreliable, expensive nuclear plants.
Nuclear is currently expensive, but you're 100% wrong on those other two. Also, more people die from installing and maintaining solar and wind turbines than have ever died from nuclear, so...
Yeah sure, it's right around the corner, I had the same conversation on HN 3 years ago haha.
Say what you want about nuclear plants but they work, right now and we have example of countries successfully creating a grid with it.
I can't say the same about the magical batteries.
Exponential growth is a funny thing. First it looks like nothing is happening, and all of a sudden everything has changed. Check out discussions about wind and solar some 10 years ago.
E: for reference from memory, it took about 50 years to install the first TW of solar. The next TW took 2 years, and the next TW is projected to take only 1 year, 2025.
For now it looks more like a flat curve than an exponential one. Batteries haven't followed PV at all, especially not for a grid scale usage.
Making batteries viable for home use is a very different story to make them viable for a grid.
> Making batteries viable for home use is a very different story to make them viable for a grid.
True. But both are stories from the same book. Meaning: If more homes install batteries and some become fully off-grid you will stabilize the whole grid without needing to install more power generation. This is exactly what happened in Pakistan (src: https://www.weforum.org/stories/2025/08/pakistan-energy-affo...) and I expect will happen all over the world as:
1. PV+battery prices continue falling
2. Climate change resulting in more sunny days (one of the very few upsides)
3. The need to become more self-sufficient due to energy price volatility due to shitty govt/shitty grid/shitty neighbors attacking your neighbors
Would be nice to see some subsidy from the govt (is EU listening?) like: "here's low interest loan to take your home off grid payable over 20+ years (expected lifetime of the whole PV+bat system) during which you promise you won't connect to grid".
So show me the model of renewables + batteries that would have been sufficient for all of the last 75 years in Germany and the UK. We do have the historical weather data so there is ZERO reason for all that handwaving.
Simulated wind-water-solar-battery in one of Australia grid is pretty close:
https://reneweconomy.com.au/a-near-100-per-cent-renewable-gr...