You’re never going to have so much peak capacity that you can store it all as methane and not need to use any other energy sources during the night/winter. Or at least doing so would be very expensive.
So you’re going to have to use other energy sources at solar trough times. If we can dirty energy sources, energy at such times is likely to be expensive.
So the question stops being about how cheap energy is at peak times. It’s about whether it’s worth storing 3 times as much energy to sell when it’s most expensive, but using more expensive energy storage solutions.
At the moment levelised cost of storing a kWh in a gravity battery costs roughly the same as producing it does (highly dependent on country). However if due to high energy prices, or future improvement in technology, levelised cost of storage is more than 1⁄3 cheaper than producing electricity at the most expensive time in some particular region, it will always be worth using a gravity battery over SNG.
At the moment levelised cost of storing a kWh in a gravity battery costs roughly the same as producing it does (highly dependent on country).
That depends a lot on how long you store the energy. As far as I understand most of the projects expect to use the energy within less than 24 hours to reach the cost efficiency you are talking about. Storing energy from summer to use in winter is two orders of magnitude more costly with gravity batteries.
Either way, the point still stands.
You’re never going to have so much peak capacity that you can store it all as methane and not need to use any other energy sources during the night/winter. Or at least doing so would be very expensive.
So you’re going to have to use other energy sources at solar trough times. If we can dirty energy sources, energy at such times is likely to be expensive.
So the question stops being about how cheap energy is at peak times. It’s about whether it’s worth storing 3 times as much energy to sell when it’s most expensive, but using more expensive energy storage solutions.
At the moment levelised cost of storing a kWh in a gravity battery costs roughly the same as producing it does (highly dependent on country). However if due to high energy prices, or future improvement in technology, levelised cost of storage is more than 1⁄3 cheaper than producing electricity at the most expensive time in some particular region, it will always be worth using a gravity battery over SNG.
That depends a lot on how long you store the energy. As far as I understand most of the projects expect to use the energy within less than 24 hours to reach the cost efficiency you are talking about. Storing energy from summer to use in winter is two orders of magnitude more costly with gravity batteries.