You’re again not considering electrification of current loads that burn fossil fuels. Unfortunately, a lot of these loads are closer to 24/7 and will require more storage. The IEA net zero scenario assumes 100TWh of storage and may not be enough.
Total installed system costs— not batteries alone— are estimated at $300B/TWh. So that is on the order of $30T at current prices (some estimates reach to $100T). And of course, these investments don’t last forever— we can’t be kicking 3pc of GDP to storage.
I expect this to improve, but having some clean, always-on generation greatly reduces the amount of storage and overprovisioned production of other types needed.
Yes we can, indefinitely, and doing so saves money relative to fossil fuels (which are currently about $8T/year[0]) and nuclear (which is on the expensive side of electricity compared to fossil fuels anyway).
>You’re again not considering electrification of current loads that burn fossil fuels
You're not considering cost.
>Unfortunately, a lot of these loads are closer to 24/7
The exact opposite is true. Heating, cooling and car charging are just 3 examples of current loads that burn fossil fuels which are already being demand shifted on an electric grid.
>The IEA net zero scenario assumes 100TWh of storage
Did you assume it was all going to be achieved with batteries? This is a common fallacy perpetuated by nuclear industry propaganda.
350GWh are being built in australia right now with zero batteries, and studies show there is plenty of geography suitable to build plenty more of that around the world.
Power2gas+solar+wind is still cheaper than nuclear power even though it's quite expensive.
>but having some clean, always-on generation greatly reduces the amount of storage and overprovisioned production of other types needed
and there is zero point if the cost is stupidly high (which it is) and we have the imagination to look beyond just batteries as a means of storing power.
Nuclear industry propaganda is alas not capable of such.
3% GDP over a single decade is certainly not a trivial amount, but it's worth noting the comparison here is spending more than that every year forever.
Similarly, 100 TWh sounds like a huge number, and it is, but it's like the equivalent capacity of one base Model 3 per 6 people globally. It's a lot in absolute terms, for sure, but it's by no means a crazy unachievable quantity of battery for a family of 6 to use.
We can start worrying about storage once we reach 60-80% renewable and just keep using fossil fuels as backup. Nuclear doesn't replace storage (at least not if you don't want to run your nuclear plants at like half capacity)
In my market, we're already at fractions of renewable where prices go negative > 20% of daylight hours (doubled in last year), and still produce lots of CO2 in late afternoon. I think the time to start worrying seriously about storage is now or in the past.
We need about 30TWh of batteries to decarbonize the world's grid. China has 1TWh per year of capacity, increasing 50% per year.
Cost is currently $35/kWh, dropping 20% per year.
You’re again not considering electrification of current loads that burn fossil fuels. Unfortunately, a lot of these loads are closer to 24/7 and will require more storage. The IEA net zero scenario assumes 100TWh of storage and may not be enough.
Total installed system costs— not batteries alone— are estimated at $300B/TWh. So that is on the order of $30T at current prices (some estimates reach to $100T). And of course, these investments don’t last forever— we can’t be kicking 3pc of GDP to storage.
I expect this to improve, but having some clean, always-on generation greatly reduces the amount of storage and overprovisioned production of other types needed.
> we can’t be kicking 3pc of GDP to storage.
Yes we can, indefinitely, and doing so saves money relative to fossil fuels (which are currently about $8T/year[0]) and nuclear (which is on the expensive side of electricity compared to fossil fuels anyway).
[0] https://www.precedenceresearch.com/fossil-fuels-market
>You’re again not considering electrification of current loads that burn fossil fuels
You're not considering cost.
>Unfortunately, a lot of these loads are closer to 24/7
The exact opposite is true. Heating, cooling and car charging are just 3 examples of current loads that burn fossil fuels which are already being demand shifted on an electric grid.
>The IEA net zero scenario assumes 100TWh of storage
Did you assume it was all going to be achieved with batteries? This is a common fallacy perpetuated by nuclear industry propaganda.
350GWh are being built in australia right now with zero batteries, and studies show there is plenty of geography suitable to build plenty more of that around the world.
Power2gas+solar+wind is still cheaper than nuclear power even though it's quite expensive.
>but having some clean, always-on generation greatly reduces the amount of storage and overprovisioned production of other types needed
and there is zero point if the cost is stupidly high (which it is) and we have the imagination to look beyond just batteries as a means of storing power.
Nuclear industry propaganda is alas not capable of such.
8 replies →
3% GDP over a single decade is certainly not a trivial amount, but it's worth noting the comparison here is spending more than that every year forever.
Similarly, 100 TWh sounds like a huge number, and it is, but it's like the equivalent capacity of one base Model 3 per 6 people globally. It's a lot in absolute terms, for sure, but it's by no means a crazy unachievable quantity of battery for a family of 6 to use.
6 replies →
We can start worrying about storage once we reach 60-80% renewable and just keep using fossil fuels as backup. Nuclear doesn't replace storage (at least not if you don't want to run your nuclear plants at like half capacity)
In my market, we're already at fractions of renewable where prices go negative > 20% of daylight hours (doubled in last year), and still produce lots of CO2 in late afternoon. I think the time to start worrying seriously about storage is now or in the past.