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add rule section headers

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This commit is contained in:
Fabian Neumann 2019-08-11 11:40:47 +02:00
parent c622c22b9c
commit 1bded0ab9b
21 changed files with 258 additions and 7 deletions
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13
scripts/add_electricity.py
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@ -1,6 +1,19 @@
# coding: utf-8 # coding: utf-8
""" """
Adds electrical generators and storage units to base network Adds electrical generators and storage units to base network
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import logging import logging

13
scripts/base_network.py
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@ -1,6 +1,19 @@
# coding: utf-8 # coding: utf-8
""" """
Creates the network topology from ENTSO-E map extracts as a PyPSA network Creates the network topology from ENTSO-E map extracts as a PyPSA network
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import yaml import yaml

13
scripts/build_bus_regions.py
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@ -1,5 +1,18 @@
""" """
Creates onshore and offshore Voronoi shapes for each bus Creates onshore and offshore Voronoi shapes for each bus
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import os import os

13
scripts/build_country_flh.py
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@ -1,6 +1,19 @@
#!/usr/bin/env python #!/usr/bin/env python
""" """
Create csv files and plots for comparing per country full load hours of renewable time-series Create csv files and plots for comparing per country full load hours of renewable time-series
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import os import os

13
scripts/build_cutout.py
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@ -1,5 +1,18 @@
""" """
Create cutouts configured in `atlite` config section Create cutouts configured in `atlite` config section
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import os import os
import atlite import atlite

17
scripts/build_hydro_profile.py
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@ -2,9 +2,20 @@
""" """
Build hydroelectric inflow time-series for each country Build hydroelectric inflow time-series for each country
See also Relevant Settings
-------- -----------------
build_renewable_profiles
Inputs
------
Outputs
-------
Description
-----------
.. seealso::
build_renewable_profiles
""" """
import os import os

13
scripts/build_natura_raster.py
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@ -1,5 +1,18 @@
""" """
Rasters the vector data of the NATURA2000 data onto all cutout regions Rasters the vector data of the NATURA2000 data onto all cutout regions
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import numpy as np import numpy as np

13
scripts/build_powerplants.py
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@ -1,6 +1,19 @@
# coding: utf-8 # coding: utf-8
""" """
Get conventional powerplants from `powerplantmatching`, assign to buses and create csv file Get conventional powerplants from `powerplantmatching`, assign to buses and create csv file
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import logging import logging

4
scripts/build_renewable_profiles.py
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#!/usr/bin/env python #!/usr/bin/env python
""" """
Summary
-------
The script ``build_renewable_profiles.py`` calculates for each node several geographical properties: The script ``build_renewable_profiles.py`` calculates for each node several geographical properties:
1. the installable capacity (based on land-use) 1. the installable capacity (based on land-use)
@ -47,7 +45,7 @@ for offshore we also have:
underwater_fraction (bus) - the fraction of the average connection distance underwater_fraction (bus) - the fraction of the average connection distance
which is under water which is under water
Long description: Description:
----------------- -----------------
First the script computes how much of the technology can be installed at each First the script computes how much of the technology can be installed at each

13
scripts/build_shapes.py
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""" """
Create GIS shape files for countries on-shore and off-shore, europe and nuts3 regions Create GIS shape files for countries on-shore and off-shore, europe and nuts3 regions
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import os import os

11
scripts/cluster_network.py
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""" """
Create networks clustered to `cluster` number of zones with aggregated buses, generators and transmission corridors Create networks clustered to `cluster` number of zones with aggregated buses, generators and transmission corridors
Summary Relevant Settings
-----------------
Inputs
------
Outputs
------- -------
Description
-----------
The rule cluster_network instead clusters the network to a given number of buses. The rule cluster_network instead clusters the network to a given number of buses.
-Why is this cluster function used? -Why is this cluster function used?

13
scripts/make_summary.py
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""" """
Create summaries of aggregated energy and costs as csv files Create summaries of aggregated energy and costs as csv files
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import os import os

13
scripts/plot_network.py
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@ -1,5 +1,18 @@
""" """
Plot map with pie charts and cost box plots Plot map with pie charts and cost box plots
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
# Dirty work-around so that sphinx can import this module and get the # Dirty work-around so that sphinx can import this module and get the

13
scripts/plot_p_nom_max.py
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@ -1,5 +1,18 @@
""" """
Plot renewable installation potentials per capacity factor Plot renewable installation potentials per capacity factor
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import pypsa import pypsa

13
scripts/plot_summary.py
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@ -1,5 +1,18 @@
""" """
Plot energy and cost summaries for several solved networks Plot energy and cost summaries for several solved networks
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import os import os

13
scripts/prepare_links_p_nom.py
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@ -1,6 +1,19 @@
#!/usr/bin/env python #!/usr/bin/env python
""" """
Extract capacities for HVDC links from wikipedia Extract capacities for HVDC links from wikipedia
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import pandas as pd import pandas as pd

13
scripts/prepare_network.py
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@ -1,6 +1,19 @@
# coding: utf-8 # coding: utf-8
""" """
Prepare PyPSA network for solving according to `opts`-wildcard Prepare PyPSA network for solving according to `opts`-wildcard
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import logging import logging

12
scripts/simplify_network.py
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@ -3,6 +3,18 @@
remove network dead-ends, and reduce multi-hop linear HVDC connections to a remove network dead-ends, and reduce multi-hop linear HVDC connections to a
single link single link
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
The rule simplify_network does up to four things: The rule simplify_network does up to four things:
1. Create an equivalent transmission network in which all voltage levels are mapped to the 380 kV level by the function ``simplify_network(...)``. 1. Create an equivalent transmission network in which all voltage levels are mapped to the 380 kV level by the function ``simplify_network(...)``.

13
scripts/solve_network.py
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@ -1,5 +1,18 @@
""" """
Solve networks iteratively linear optimal power flow, while updating reactances Solve networks iteratively linear optimal power flow, while updating reactances
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import numpy as np import numpy as np

13
scripts/solve_operations_network.py
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""" """
Solve linear optimal dispatch in hourly resolution with capacities of previous Solve linear optimal dispatch in hourly resolution with capacities of previous
capacity expansion capacity expansion
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import pypsa import pypsa

13
scripts/trace_solve_network.py
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@ -1,6 +1,19 @@
""" """
Iteratively solves expansion problem like solve_network, but additionally Iteratively solves expansion problem like solve_network, but additionally
records intermediate branch capacity steps and values of the objective records intermediate branch capacity steps and values of the objective
Relevant Settings
-----------------
Inputs
------
Outputs
-------
Description
-----------
""" """
import numpy as np import numpy as np