This Notebook is part of the project Open Power System Data. Open Power System Data develops a platform for free and open data for electricity system modeling. We collect, check, process, document, and provide data that are publicly available but currently inconvenient to use. More info on Open Power System Data:
This file is a Jupyter Notebook. A Jupyter Notebook is a file that combines executable programming code with visualizations and comments in markdown format, allowing for an intuitive documentation of the code. We use Jupyter Notebooks for combined coding and documentation. We use Python 3 as programming language. All Notebooks are stored on GitHub, a platform for software development, and are publicly available. More information on our IT-concept can be found here. See also our step-by-step manual how to use the dataplatform.
We provide data in different chunks, or Data Packages. The one you are looking at right now, Renewable power plants, contains
Due to differing data availability, the power plant lists are of variable accurancy and partly provide different power plant parameters. Therefore the lists are provided as separate CSV files per country and as separate sheets in the Excel file.
This Data Package uses the following main data sources.
In Germany historically all data has been published mandatorily by the four TSOs (50Hertz, Amprion, Tennet, TransnetBW). This obligation expired in August 2014, nonetheless the TSO reported until the end of 2014 and issued another update in August 2016 for plants commissioned until end of 2015 (which is used in this script).
Since August 2014 the BNetzA is responsible to publish the renewable power plants register. The legal framework for the register is specified in the EEG 2014 (German) (English). All power plants are listed in a new format: two separate MS-Excel and CSV files for roof-mounted PV power plants "PV-Datenmeldungen" and all other renewable power plants " Anlagenregister".
The Danish Energy Agency publishes a national master data register for wind turbines which was created in collaboration with the transmission system operators. The publication is monthly as an Excel file. The data set includes all electricity-generating wind turbines with information about technical data, location data and production data.
The photovoltaic statistic, published from Energinet, includes information about location, year of implementing, installed capacity and number of systems. There is an additional overview of the number of plants and installed capacity per postcode. The publication an Excel file and dates of publication are not entirely clear.
The data is annual published on the france website for statistics as an Excel file. The Excel chart includes number and installed capacity of the different renewable source for every municipality in France. It is limited to the plants which are covered by article 10 of february 2000 by an agreement to a purchase commitment.
Number of installations and installed capacity per energy source of renewable energy, summed per powiat (districts) is illustrated on the page and can be downloaded as rtf-file
Data of all renewable power plants receiving "Kostendeckende Einspeisevergütung" (KEV) which is the Swiss feed in tarif for renewable power plants.
Geodata is based on municipality codes.
A complete list of data sources is provided on the Data Package information website. They are also contained in the JSON file that contains all metadata.
This list provides all internal translations of column original names to the OPSD standard names in order to achieve common data structure for data of all implemented countries as well as the other data packages.
import pandas as pd
pd.read_csv('input/column_translation_list.csv')
original_name | opsd_name | description | country | data_source | |
---|---|---|---|---|---|
0 | ÜNB | tso | Name of transmission system operator | DE | 50Hertz / Amprion / TenneT / TransnetBW |
1 | REGELZONE | tso | Name of transmission system operator | DE | 50Hertz / Amprion / TenneT / TransnetBW |
2 | Regelzonenbezeichnung | tso | Name of transmission system operator | DE | 50Hertz / Amprion / TenneT / TransnetBW |
3 | Netzbetreiber Name | dso | Name of distribution system operator | DE | 50Hertz / Amprion / TenneT / TransnetBW |
4 | NETZBETREIBER_NAME | dso | Name of distribution system operator | DE | 50Hertz / Amprion / TenneT / TransnetBW |
5 | Netzbetreiber Betriebsnummer | dso_id | Company number of dso | DE | 50Hertz / Amprion / TenneT / TransnetBW |
6 | NETZBETREIBER_BETRIEBSNUMMER | dso_id | Company number of dso | DE | 50Hertz / Amprion / TenneT / TransnetBW |
7 | ÜNB-Anlagenschlüssel | eeg_id | German EEG renumeration ID number | DE | 50Hertz / Amprion / TenneT / TransnetBW |
8 | ANLAGENSCHLUESSEL | eeg_id | German EEG renumeration ID number | DE | 50Hertz / Amprion / TenneT / TransnetBW |
9 | ÜNB-Anlagennummer | eeg_id | German EEG renumeration ID number | DE | 50Hertz / Amprion / TenneT / TransnetBW |
10 | Bundesland | federal_state | Federal state – administrative region NUTS1-level | DE | 50Hertz / Amprion / TenneT / TransnetBW |
11 | Bundelsand | federal_state | Federal state – administrative region NUTS1-level | DE | 50Hertz / Amprion / TenneT / TransnetBW |
12 | BUNDESLAND | federal_state | Federal state – administrative region NUTS1-level | DE | 50Hertz / Amprion / TenneT / TransnetBW |
13 | PLZ | postcode | Postcode or ZIP-code | DE | 50Hertz / Amprion / TenneT / TransnetBW |
14 | Installierte Leistung [kW] | electrical_capacity_kW | Installed electrical capacity in kW | DE | 50Hertz / Amprion / TenneT / TransnetBW |
15 | INST_LEISTUNG_KW | electrical_capacity_kW | Installed electrical capacity in kW | DE | 50Hertz / Amprion / TenneT / TransnetBW |
16 | installierte Leistung | electrical_capacity_kW | Installed electrical capacity in kW | DE | 50Hertz / Amprion / TenneT / TransnetBW |
17 | Einspeisespannungsebene | voltage_level | Grid connection/voltage level | DE | 50Hertz / Amprion / TenneT / TransnetBW |
18 | EINSPEISESPANNUNGSEBENE | voltage_level | Grid connection/voltage level | DE | 50Hertz / Amprion / TenneT / TransnetBW |
19 | Leistungsmessung | power_measurement | Indicates whether power measurement is impleme... | DE | 50Hertz / Amprion / TenneT / TransnetBW |
20 | LEISTUNGSGEMESSENE_ANLAGE | power_measurement | Indicates whether power measurement is impleme... | DE | 50Hertz / Amprion / TenneT / TransnetBW |
21 | Leistungsgemessene Anlage? | power_measurement | Indicates whether power measurement is impleme... | DE | 50Hertz / Amprion / TenneT / TransnetBW |
22 | Regelbarkeit | controllability | Indicates whether remote controllability is im... | DE | 50Hertz / Amprion / TenneT / TransnetBW |
23 | REGELBARKEIT | controllability | Indicates whether remote controllability is im... | DE | 50Hertz / Amprion / TenneT / TransnetBW |
24 | Energieträger | energy_source_level_2 | Type of energy source / generation | DE | 50Hertz / Amprion / TenneT / TransnetBW |
25 | Energietr�ger | energy_source_level_2 | Type of energy source / generation | DE | 50Hertz / Amprion / TenneT / TransnetBW |
26 | BEZEICHNUNG | energy_source_level_2 | Type of energy source / generation | DE | 50Hertz / Amprion / TenneT / TransnetBW |
27 | Inbetriebnahme | commissioning_date | NaN | DE | 50Hertz / Amprion / TenneT / TransnetBW |
28 | Zeitpunkt der Inbetriebnahme | commissioning_date | NaN | DE | 50Hertz / Amprion / TenneT / TransnetBW |
29 | ZEITPUNKT_INBETRIEBNAHME | commissioning_date | NaN | DE | 50Hertz / Amprion / TenneT / TransnetBW |
... | ... | ... | ... | ... | ... |
82 | Netområde Navn | dso | Name of distribution system operator | DK | Energinet.dk |
83 | Communes | municipality | NaN | FR | gouv.fr |
84 | Code officiel géographique | municipality_code | French municipality code (INSEE) | FR | gouv.fr |
85 | insee_com | municipality_code | French municipality code (INSEE) | FR | gouv.fr |
86 | Nombre d'installations | number_of_installations | Number of installed solar systems | FR | gouv.fr |
87 | Puissance installée (MW) | electrical_capacity | Installed electrical capacity in MW | FR | gouv.fr |
88 | technology | energy_source_level_2 | Type of energy source / generation | Europe | OPSD |
89 | capacity | electrical_capacity | Installed electrical capacity in MW | Europe | OPSD |
90 | source | data_source | NaN | Europe | OPSD |
91 | Country / Area | country | NaN | Europe | IRENA |
92 | Sub Technology | technology | NaN | Europe | IRENA |
93 | Year | year | NaN | Europe | IRENA |
94 | Value | electrical_capacity | NaN | Europe | IRENA |
95 | Anlage_\nEnergieträger | energy_source_level_2 | Type of energy source / generation | CH | BFE |
96 | Anlagentyp | technology | Type of used technology | CH | BFE |
97 | Leistung [kW] | electrical_capacity | Installed electrical capacity in MW | CH | BFE |
98 | Anlage_Inbetriebnahme-\ndatum | commissioning_date | NaN | CH | BFE |
99 | Anlage_PLZ | municipality_code | NaN | CH | BFE |
100 | Anlage_Ort | municipality | NaN | CH | BFE |
101 | Anlage_Projekt-Bezeichnung | project_name | name of the project/asset or company | CH | BFE |
102 | Produktion [kWh]** | production | production in kWh | CH | BFE |
103 | Vergütung 2016 [CHF] | tariff | tariff in CHF for 2016 | CH | BFE |
104 | Anmeldedatum | notification_date | date of data entriy at BFE | CH | BFE |
105 | Anlage_Vertragsende | cantract_period_end | end of the contract period | CH | BFE |
106 | Anlage_Strasse | street | name of the street | CH | BFE |
107 | Anlage_Kanton | canton | name of the cantones/ member states of the Swi... | CH | BFE |
108 | Produzent_Firma | company | name of the company | CH | BFE |
109 | Produzent_Anrede | title | titel of owner | CH | BFE |
110 | Produzent_Name | surname | family name of owner | CH | BFE |
111 | Produzent_\nVorname | first_name | given name of owner | CH | BFE |
112 rows × 5 columns
This list provides all internal translations of original value names to the OPSD standard names in order to achieve common data structure for data of all implemented countries as well as the other data packages.
import pandas as pd
pd.read_csv('input/value_translation_list.csv')
original_name | opsd_name | energy_source_level_2 | country | data_source | |
---|---|---|---|---|---|
0 | Wind Land | Onshore | Wind | DE | BNetzA |
1 | Wind See | Offshore | Wind | DE | BNetzA |
2 | Klärgas | Sewage and landfill gas | Bioenergy | DE | BNetzA / TransnetBW / TenneT / 50Hertz / Amprion |
3 | Grubengas | Other fossil fuels | Other fossil fuels | DE | BnetzA/ Amprion |
4 | Freifläche PV | Photovoltaics ground | Solar | DE | BNetzA |
5 | Deponiegas | Sewage and landfill gas | Bioenergy | DE | BNetzA / TransnetBW / TenneT / 50Hertz / Amprion |
6 | Biomasse | Biomass and biogas | Bioenergy | DE | BNetzA / TransnetBW / TenneT / 50Hertz / Amprion |
7 | Wasserkraft | Run-of-river | Hydro | DE | BNetzA / TransnetBW / TenneT / 50Hertz / Amprion |
8 | Geothermie | Geothermal | Geothermal | DE | BnetzA / TenneT / 50Hertz / Amprion |
9 | Windenergie Offshore | Offshore | Wind | DE | 50Hertz / TenneT |
10 | Solar | Photovoltaics | Solar | DE | TransnetBW / TenneT / 50Hertz / Amprion |
11 | Windenergie | Onshore | Wind | DE | TenneT / 50Hertz / Amprion |
12 | Windenergie an Land | Onshore | Wind | DE | TransnetBW |
13 | HS | high voltage | NaN | DE | BNetzA |
14 | HS/MS | high voltage / medium voltage | NaN | DE | BNetzA |
15 | HöS | extra high voltage | NaN | DE | BNetzA |
16 | HöS/HS | high voltage / extra high voltage | NaN | DE | BNetzA |
17 | MS | Medium voltage | NaN | DE | BNetzA |
18 | MS/NS | Medium voltage / low voltage | NaN | DE | BNetzA |
19 | NS | Low voltage | NaN | DE | BNetzA |
20 | TransnetBW GmbH | TransnetBW | NaN | DE | TransnetBW |
21 | TenneT TSO GmbH | TenneT | NaN | DE | TenneT |
22 | Amprion GmbH | Amprion | NaN | DE | Amprion |
23 | HAV | Offshore | Wind | DK | Energistyrelsen |
24 | LAND | Onshore | Wind | DK | Energistyrelsen |
25 | Land | Onshore | Wind | DK | Energistyrelsen |
26 | Biomasse | Biomass and biogas | Bioenergy | FR | gouv.fr |
27 | Eolien | Wind | Wind | FR | gouv.fr |
28 | Géothermie | Geothermal | Geothermal | FR | gouv.fr |
29 | Hydraulique | Hydro | Hydro | FR | gouv.fr |
... | ... | ... | ... | ... | ... |
62 | Denmark | DK | NaN | Europe | IRENA |
63 | France | FR | NaN | Europe | IRENA |
64 | Germany | DE | NaN | Europe | IRENA |
65 | Poland | PL | NaN | Europe | IRENA |
66 | Bioenergy and other renewale fuels | Bioenergy and renewable waste | Bioenergy | Europe | OPSD |
67 | Solar | Solar | NaN | Europe | OPSD |
68 | Wind | Wind | NaN | Europe | OPSD |
69 | Geothermal | Geothermal | NaN | Europe | OPSD |
70 | Differently categorized hydro | Hydro | NaN | Europe | OPSD |
71 | Tide, wave, and ocean | Marine | NaN | Europe | OPSD |
72 | Biomasse | Biomass | Bioenergy | CH | BFE |
73 | Wind | Wind | Wind | CH | BFE |
74 | Photovoltaik | Photovoltaics | Solar | CH | BFE |
75 | Wasserkraft | Hydro | Hydro | CH | BFE |
76 | Abwasserkraftwerk | Waste water plant | NaN | CH | BFE |
77 | Schlammverbrennungsanlage | Biomass and biogas | Bioenergy | CH | BFE |
78 | Kehrrichtverbrennungsanlage | Biomass and biogas | Bioenergy | CH | BFE |
79 | Integrierte Anlage | Integrated unit | NaN | CH | BFE |
80 | Angebaute Anlage | Connected unit | NaN | CH | BFE |
81 | Durchlaufkraftwerk | Run-of-river | NaN | CH | BFE |
82 | Freistehende Anlage | Stand alone unit | NaN | CH | BFE |
83 | Dotierwasserkraftwerk | other Hydro | NaN | CH | BFE |
84 | Klärgasanlage | Biomass and biogas | Bioenergy | CH | BFE |
85 | übrige Biomasse - übrige WKK-Anlage | Biomass and biogas | Bioenergy | CH | BFE |
86 | übrige Biomasse - Dampfprozess | Biomass and biogas | Bioenergy | CH | BFE |
87 | Ausleitkraftwerk | Diversion plant | Hydro | CH | BFE |
88 | Unbekannt | Unknown | NaN | CH | BFE |
89 | natürliche Person | Natural person | NaN | CH | BFE |
90 | juristische Person | Legal entity | NaN | CH | BFE |
91 | Trinkwasserkraftwerk | Drinking water plant | Hydro | CH | BFE |
92 rows × 5 columns
Validation markers are used in comments column in order to mark units for which we identified one of the following issues:
import pandas as pd
pd.read_csv('input/validation_marker.csv')
Validation marker | Short explanation | Long explanation | |
---|---|---|---|
0 | R_1 | data_source = BnetzA and commissioning_date < ... | This powerplant is probably also represented b... |
1 | R_2 | notification_reason other than „Inbetriebnahme... | This powerplant is probably also represented b... |
2 | R_3 | commissioning_date not specified | NaN |
3 | R_4 | electrical_capacity not specified | NaN |
4 | R_5 | decommissioned from the grid | This powerplant is probably commissioned again... |
5 | R_6 | decommissioned | This powerplant is completely decommissioned. |
6 | R_7 | not connected to the European grid | This powerplant is located in regions belongin... |
This Jupyter Notebook as well as all other documents in this repository is published under the MIT License.