3.4 KiB
3.4 KiB
| 1 | Unit | Values | Description | |
|---|---|---|---|---|
| 2 | options | |||
| 3 | -- clip_p_max_pu | p.u. | float | To avoid too small values in the renewables` per-unit availability time series values below this threshold are set to zero. |
| 4 | -- load_shedding | bool/float | {'true','false', float} | Add generators with very high marginal cost to simulate load shedding and avoid problem infeasibilities. If load shedding is a float, it denotes the marginal cost in EUR/kWh. |
| 5 | -- noisy_costs | bool | {'true','false'} | Add random noise to marginal cost of generators by :math:`\mathcal{U}(0.009,0,011)` and capital cost of lines and links by :math:`\mathcal{U}(0.09,0,11)`. |
| 6 | -- skip_iterations | bool | {'true','false'} | Skip iterating, do not update impedances of branches. Defaults to true. |
| 7 | -- rolling_horizon | bool | {'true','false'} | Whether to optimize the network in a rolling horizon manner, where the snapshot range is split into slices of size `horizon` which are solved consecutively. |
| 8 | -- seed | -- | int | Random seed for increased deterministic behaviour. |
| 9 | -- track_iterations | bool | {'true','false'} | Flag whether to store the intermediate branch capacities and objective function values are recorded for each iteration in ``network.lines['s_nom_opt_X']`` (where ``X`` labels the iteration) |
| 10 | -- min_iterations | -- | int | Minimum number of solving iterations in between which resistance and reactence (``x/r``) are updated for branches according to ``s_nom_opt`` of the previous run. |
| 11 | -- max_iterations | -- | int | Maximum number of solving iterations in between which resistance and reactence (``x/r``) are updated for branches according to ``s_nom_opt`` of the previous run. |
| 12 | -- transmission_losses | int | [0-9] | Add piecewise linear approximation of transmission losses based on n tangents. Defaults to 0, which means losses are ignored. |
| 13 | -- linearized_unit_commitment | bool | {'true','false'} | Whether to optimise using the linearized unit commitment formulation. |
| 14 | -- horizon | -- | int | Number of snapshots to consider in each iteration. Defaults to 100. |
| 15 | constraints | |||
| 16 | -- CCL | bool | {'true','false'} | Add minimum and maximum levels of generator nominal capacity per carrier for individual countries. These can be specified in the file linked at ``electricity: agg_p_nom_limits`` in the configuration. File defaults to ``data/agg_p_nom_minmax.csv``. |
| 17 | -- EQ | bool/string | {'false',`EQn(c| )``; i.e. ``EQ0.5``-``EQ0.7c``} | Require each country or node to on average produce a minimal share of its total consumption itself. Example: ``EQ0.5c`` demands each country to produce on average at least 50% of its consumption; ``EQ0.5`` demands each node to produce on average at least 50% of its consumption. |
| 18 | -- BAU | bool | {'true','false'} | Add a per-``carrier`` minimal overall capacity; i.e. at least ``40GW`` of ``OCGT`` in Europe; configured in ``electricity: BAU_mincapacities`` |
| 19 | -- SAFE | bool | {'true','false'} | Add a capacity reserve margin of a certain fraction above the peak demand to which renewable generators and storage do *not* contribute. Ignores network. |
| 20 | solver | |||
| 21 | -- name | -- | One of {'gurobi', 'cplex', 'cbc', 'glpk', 'ipopt'}; potentially more possible | Solver to use for optimisation problems in the workflow; e.g. clustering and linear optimal power flow. |
| 22 | -- options | -- | Key listed under ``solver_options``. | Link to specific parameter settings. |
| 23 | solver_options | dict | Dictionaries with solver-specific parameter settings. | |
| 24 | mem | MB | int | Estimated maximum memory requirement for solving networks. |