1.5 KiB
1.5 KiB
| 1 | Trigger | Description | Definition | Status |
|---|---|---|---|---|
| 2 | ``nH`` | i.e. ``2h``-``6h`` | Resample the time-resolution by averaging over every ``n`` snapshots, ``prepare_network``: `average_every_nhours() <https://github.com/PyPSA/pypsa-eur/blob/6b964540ed39d44079cdabddee8333f486d0cd63/scripts/prepare_network.py#L110>`_ and its `caller <https://github.com/PyPSA/pypsa-eur/blob/6b964540ed39d44079cdabddee8333f486d0cd63/scripts/prepare_network.py#L146>`__) | In active use |
| 3 | ``Co2L`` + ``n`` | Add an overall absolute carbon-dioxide emissions limit of ``n`` times of the 1990 base emissions (e.g. ``Co2L0.05`` limits emissisions to 5% of what is calculated in the rule :mod:``prepare_sector_network`` in the function ``co2_emissions_year()``) | :mod:``prepare_sector_network`` in the function ``co2_emissions_year()`` | In active use |
| 4 | ``carrier+{c|p|m}factor`` | Alter the capital cost (``c``), installable potential (``p``) or marginal costs (``m``) of a carrier by a factor. Example: ``solar+c0.5`` reduces the capital cost of solar to 50\% of original values. | ``prepare_network`` | In active use |
| 5 | ``T`` | Add land transport sector | In active use | |
| 6 | ``H`` | Add heating sector | In active use | |
| 7 | ``B`` | Add biomass | In active use | |
| 8 | ``I`` | Add industry sector | In active use | |
| 9 | ``A`` | Add agriculture sector | In active use | |
| 10 | ``dist``+``n`` | Add distribution grid with investment costs of ``n`` times costs in ``resources/costs_{cost_year}.csv`` | In active use | |
| 11 | ``seq``+``n`` | Sets the CO2 sequestration potential to ``n`` Mt CO2 per year | In active use |