Line Types¶
The LineType components describe standard line types with per length values
for impedances. If for a Line the attribute type is non-empty, it is mapped
to the LineType's electrical parameters and multiplied with the length
attribute of the Line.
| attribute | type | unit | default | description | status |
|---|---|---|---|---|---|
| name | string | nan | nan | Unique name | Input (required) |
| f_nom | float | Hz | 50. | Nominal frequency | Input (required) |
| r_per_length | float | Ohm per km | 0. | Series resistance per length | Input (required) |
| x_per_length | float | Ohm per km | 0. | Series reactance per length | Input (required) |
| c_per_length | float | nF per km | 0. | Shunt capacitance per length | Input (optional) |
| i_nom | float | kA | 0. | Nominal current | Input (optional) |
| mounting | string | nan | ol | Can be "ol" for overhead line or "cs" for cable | Input (optional) |
| cross_section | float | mm2 | 0. | Wire cross-section | Input (optional) |
| references | string | nan | nan | References for electrical parameters | Input (optional) |
The following standard line types are available, which are based on pandapower's standard types, whose parameterisation is in turn based on DIgSILENT PowerFactory. Other sources include JAO's Static Grid Model.
| name | f_nom | r_per_length | x_per_length | c_per_length | i_nom | mounting | cross_section | references |
|---|---|---|---|---|---|---|---|---|
| 149-AL1/24-ST1A 10.0 | 50 | 0.194 | 0.315 | 11.25 | 0.47 | ol | 149 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 149-AL1/24-ST1A 110.0 | 50 | 0.194 | 0.41 | 8.75 | 0.47 | ol | 149 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 149-AL1/24-ST1A 20.0 | 50 | 0.194 | 0.337 | 10.5 | 0.47 | ol | 149 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 15-AL1/3-ST1A 0.4 | 50 | 1.8769 | 0.35 | 11 | 0.105 | ol | 16 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 184-AL1/30-ST1A 110.0 | 50 | 0.1571 | 0.4 | 8.8 | 0.535 | ol | 184 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 184-AL1/30-ST1A 20.0 | 50 | 0.1571 | 0.33 | 10.75 | 0.535 | ol | 184 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 24-AL1/4-ST1A 0.4 | 50 | 1.2012 | 0.335 | 11.25 | 0.14 | ol | 24 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 243-AL1/39-ST1A 110.0 | 50 | 0.1188 | 0.39 | 9 | 0.645 | ol | 243 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 243-AL1/39-ST1A 20.0 | 50 | 0.1188 | 0.32 | 11 | 0.645 | ol | 243 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 305-AL1/39-ST1A 110.0 | 50 | 0.0949 | 0.38 | 9.2 | 0.74 | ol | 305 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 34-AL1/6-ST1A 10.0 | 50 | 0.8342 | 0.36 | 9.7 | 0.17 | ol | 34 | pandapower |
| 34-AL1/6-ST1A 20.0 | 50 | 0.8342 | 0.382 | 9.15 | 0.17 | ol | 34 | pandapower |
| 48-AL1/8-ST1A 0.4 | 50 | 0.5939 | 0.3 | 12.2 | 0.21 | ol | 48 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 48-AL1/8-ST1A 10.0 | 50 | 0.5939 | 0.35 | 10.1 | 0.21 | ol | 48 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 48-AL1/8-ST1A 20.0 | 50 | 0.5939 | 0.372 | 9.5 | 0.21 | ol | 48 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 48-AL1/8-ST1A 110.0 | 50 | 0.5939 | 0.46 | 8 | 0.21 | ol | 48 | pandapower |
| 70-AL1/11-ST1A 10.0 | 50 | 0.4132 | 0.339 | 10.4 | 0.29 | ol | 70 | pandapower |
| 70-AL1/11-ST1A 20.0 | 50 | 0.4132 | 0.36 | 9.7 | 0.29 | ol | 70 | pandapower |
| 70-AL1/11-ST1A 110.0 | 50 | 0.4132 | 0.45 | 8.4 | 0.29 | ol | 70 | pandapower |
| 94-AL1/15-ST1A 0.4 | 50 | 0.306 | 0.29 | 13.2 | 0.35 | ol | 94 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 94-AL1/15-ST1A 10.0 | 50 | 0.306 | 0.33 | 10.75 | 0.35 | ol | 94 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 94-AL1/15-ST1A 20.0 | 50 | 0.306 | 0.35 | 10 | 0.35 | ol | 94 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013) |
| 94-AL1/15-ST1A 110.0 | 50 | 0.306 | 0.44 | 8.65 | 0.35 | ol | 94 | pandapower |
| 122-AL1/20-ST1A 10.0 | 50 | 0.2376 | 0.323 | 11.1 | 0.41 | ol | 122 | pandapower |
| 122-AL1/20-ST1A 20.0 | 50 | 0.2376 | 0.344 | 10.3 | 0.41 | ol | 122 | pandapower |
| 122-AL1/20-ST1A 110.0 | 50 | 0.2376 | 0.43 | 8.5 | 0.41 | ol | 122 | pandapower |
| 490-AL1/64-ST1A 220.0 | 50 | 0.059 | 0.285 | 10 | 0.96 | ol | 490 | pandapower |
| 490-AL1/64-ST1A 380.0 | 50 | 0.059 | 0.253 | 11 | 0.96 | ol | 490 | pandapower |
| 490-AL1/64-ST1A 110.0 | 50 | 0.059 | 0.37 | 9.75 | 0.96 | ol | 490 | pandapower |
| 679-AL1/86-ST1A 110.0 | 50 | 0.042 | 0.36 | 9.95 | 1.15 | ol | 679 | pandapower |
| 679-AL1/86-ST1A 220.0 | 50 | 0.042 | 0.275 | 11.7 | 1.15 | ol | 679 | pandapower |
| 679-AL1/86-ST1A 380.0 | 50 | 0.042 | 0.25 | 14.6 | 1.15 | ol | 679 | pandapower |
| N2XS(FL)2Y 1x120 RM/35 64/110 kV | 50 | 0.153 | 0.166 | 112 | 0.366 | cs | 120 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| N2XS(FL)2Y 1x185 RM/35 64/110 kV | 50 | 0.099 | 0.156 | 125 | 0.457 | cs | 185 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| N2XS(FL)2Y 1x240 RM/35 64/110 kV | 50 | 0.075 | 0.149 | 135 | 0.526 | cs | 240 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| N2XS(FL)2Y 1x300 RM/35 64/110 kV | 50 | 0.06 | 0.144 | 144 | 0.588 | cs | 300 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| NA2XS2Y 1x95 RM/25 6/10 kV | 50 | 0.313 | 0.123 | 315 | 0.249 | cs | 95 | pandapower |
| NA2XS2Y 1x185 RM/25 6/10 kV | 50 | 0.161 | 0.11 | 406 | 0.358 | cs | 185 | pandapower |
| NA2XS2Y 1x240 RM/25 6/10 kV | 50 | 0.122 | 0.105 | 456 | 0.416 | cs | 240 | pandapower |
| NA2XS2Y 1x150 RM/25 12/20 kV | 50 | 0.206 | 0.116 | 250 | 0.319 | cs | 150 | pandapower |
| NA2XS2Y 1x185 RM/25 12/20 kV | 50 | 0.161 | 0.117 | 273 | 0.362 | cs | 185 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| NA2XS2Y 1x240 RM/25 12/20 kV | 50 | 0.122 | 0.112 | 304 | 0.421 | cs | 240 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| NA2XS2Y 1x120 RM/25 12/20 kV | 50 | 0.253 | 0.119 | 230 | 0.283 | cs | 120 | pandapower |
| NA2XS2Y 1x70 RM/25 12/20 kV | 50 | 0.443 | 0.132 | 190 | 0.22 | cs | 70 | pandapower |
| NA2XS2Y 1x95 RM/25 12/20 kV | 50 | 0.313 | 0.132 | 216 | 0.252 | cs | 95 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| NA2XS2Y 1x150 RM/25 6/10 kV | 50 | 0.206 | 0.11 | 360 | 0.315 | cs | 150 | pandapower |
| NA2XS2Y 1x120 RM/25 6/10 kV | 50 | 0.253 | 0.113 | 340 | 0.28 | cs | 120 | pandapower |
| NA2XS2Y 1x70 RM/25 6/10 kV | 50 | 0.443 | 0.123 | 280 | 0.217 | cs | 70 | pandapower |
| NAYY 4x120 SE | 50 | 0.225 | 0.08 | 264 | 0.242 | cs | 120 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner |
| NAYY 4x150 SE | 50 | 0.208 | 0.08 | 261 | 0.27 | cs | 150 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| NAYY 4x50 SE | 50 | 0.642 | 0.083 | 210 | 0.142 | cs | 50 | pandapower;Heuck et al. Elektrische Energieversorgung 8. Auflage (2010); Vierweg+Teubner (2013);Werth Netzberechnung mit Erzeugungsprofilen |
| Al/St 240/40 2-bundle 220.0 | 50 | 0.06 | 0.301 | 12.5 | 1.29 | ol | 240 | Oeding and Oswald "Elektrische Kraftwerke und Netze", 2011, Chapter 9 |
| Al/St 240/40 3-bundle 300.0 | 50 | 0.04 | 0.265 | 13.2 | 1.935 | ol | 240 | Oeding and Oswald "Elektrische Kraftwerke und Netze", 2011, Chapter 9 |
| Al/St 240/40 4-bundle 380.0 | 50 | 0.03 | 0.246 | 13.8 | 2.58 | ol | 240 | Oeding and Oswald "Elektrische Kraftwerke und Netze", 2011, Chapter 9 |
| Al/St 490/64 4-bundle 380.0 | 50 | 0.015 | 0.16 | 16.5 | 3.84 | ol | 490 | Calculation similar to Al/St 240/40 4-bundle 380.0 using the conductor 490-AL1/64-ST1A 380.0 |
| HTLS 4-bundle 380.0 | 50 | 0.02 | 0.26 | 13.9 | 4 | ol | 240 | HTLS based on line Oudon-Taute line in JAO Static Grid model, compared also to similar lines in Germany |
| Al/St 560/50 4-bundle 750.0 | 50 | 0.013 | 0.276 | 13.13 | 4.16 | ol | 560 | Oeding and Oswald "Elektrische Kraftwerke und Netze", 2011, Appendix |
| HVDC XLPE 1000 | 0 | 0.0022 | 1e-06 | 10000 | 1.638 | nan | 2500 | Regional Group North Sea, “Offshore Transmission Technology,”ENTSO-E AISBL, Brussels, Belgium, Tech. Rep., 2011. P.21-22 |
| HVDC Oil filled 1400 | 0 | 0.00264 | 1e-06 | 10000 | 2.8 | nan | 3000 | Regional Group North Sea, “Offshore Transmission Technology,”ENTSO-E AISBL, Brussels, Belgium, Tech. Rep., 2011. P.19-20 |