"**(b) Attach extendable storages at the North and the South! The storages have to be modelled as an `H2-bus` (a bus with `carrier='H2'`) linked to the `AC-bus` North with a `Link` where `p_nom_extendable=True` with the `capital_cost` of the power capacity and an also extendable `Store` with the `capital_cost` of the energy capacity, for instance. The losses can be set on the links as `efficiency`.**"

"**(b) Attach extendable storage units at the North and the South! The storages have to be modelled as an `H2-bus` (a bus with `carrier='H2'`) linked to the `AC-bus` North with a `Link` where `p_nom_extendable=True` with the `capital_cost` of the power capacity and an also extendable `Store` with the `capital_cost` of the energy capacity, for instance. The losses can be set on the links as `efficiency`.**"

]

},

{

...

...

@@ -989,7 +989,7 @@

},

"source": [

"***\n",

"**(e) Replace the approximated availability time-series of the wind and the solar generators with the ones from `availability.csv` computed from reanalysis weather data available on the [course website](https://nworbmot.org/courses/complex_renewable_energy_networks/) and re-run the LOPF. Compare the results! Explain the differences by looking at the cumulative variations relative to the mean of the availability time-series!**"

"**(e) Replace the approximated availability time-series of the wind and the solar generators with the ones from `availability.csv` computed from reanalysis weather data and re-run the LOPF. Compare the results! Explain the differences by looking at the cumulative variations relative to the mean of the availability time-series!**"

"**(b) Attach extendable storages at the North and the South! The storages have to be modelled as an `H2-bus` (a bus with `carrier='H2'`) linked to the `AC-bus` North with a `Link` where `p_nom_extendable=True` with the `capital_cost` of the power capacity and an also extendable `Store` with the `capital_cost` of the energy capacity, for instance. The losses can be set on the links as `efficiency`.**"

"**(b) Attach extendable storage units at the North and the South! The storages have to be modelled as an `H2-bus` (a bus with `carrier='H2'`) linked to the `AC-bus` North with a `Link` where `p_nom_extendable=True` with the `capital_cost` of the power capacity and an also extendable `Store` with the `capital_cost` of the energy capacity, for instance. The losses can be set on the links as `efficiency`.**"

]

},

{

...

...

@@ -488,7 +488,7 @@

"metadata": {},

"source": [

"***\n",

"**(e) Replace the approximated availability time-series of the wind and the solar generators with the ones from `availability.csv` computed from reanalysis weather data available on the [course website](https://nworbmot.org/courses/complex_renewable_energy_networks/) and re-run the LOPF. Compare the results! Explain the differences by looking at the cumulative variations relative to the mean of the availability time-series!**"

"**(e) Replace the approximated availability time-series of the wind and the solar generators with the ones from `availability.csv` computed from reanalysis weather data and re-run the LOPF. Compare the results! Explain the differences by looking at the cumulative variations relative to the mean of the availability time-series!**"