Regierungspraesidium Freiburg - Dept. … |
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Regierungspraesidium Freiburg - Dept. 9 State Authority for Geology, Mineral Resources and Mining (unverified)
Contact information:
Guenter Sokol
Regierungspraesidium Freiburg - Dept. 9 State Authority for Geology, Mineral Resources and Mining
POSTAL:
Regierungspräsidium Freiburg - Abteilung 9 Landesamt für Geologie, Rohstoffe und Bergbau, Albertstraße 5, D-79104 Freiburg i. Br.,
D-79104
Freiburg i. Br.,
Germany
Email:
Phone: +49 (0)761-208-3000
Interreg IV project "GeORG": Heat in place maps
GeORG Heat in Place (lgrb_georg_hip_en)
Interreg IV project "GeORG": Heat in place maps
Heat in place Malm (g_hipjo)
The map shows the theoretical Heat in Place (GJ/km2) for the Malm for the inner project area. The calculation is based on the formula of MUFFLER & CATALDI (1972) (Heat content * recovery factor = exploitable heat quantity). Colours are similar for all maps of this kind and are therefore comparable. In addition, faults and faultzones in the same depth are shown. For details see final report of INTERREG IV project "GeORG".
Heat in Place Malm (g_hipjog)
Occurence Malm (g_vgtjof-1)
Fault zone Malm (g_tectjof-1)
Faults Malm (g_tectjol-1)
Heat in place Main Oolite (g_hiphr)
The map shows the theoretical Heat in Place (GJ/km2) for the Main Oolite for the inner project area. The calculation is based on the formula of MUFFLER & CATALDI (1972) (Heat content * recovery factor = exploitable heat quantity). Colours are similar for all maps of this kind and are therefore comparable. In addition, faults and faultzones in the same depth are shown. For details see final report of INTERREG IV project "GeORG".
Heat in Place Hauptrogenstein (g_hipjmhrg)
Occurence at top Main Oolite (g_vgthrf-1)
Fault zone (g_tecthrf-1)
Faults (g_tecthrl-1)
Heat in place Upper Muschelkalk (g_hipmo)
The map shows the theoretical Heat in Place (GJ/km2) for the Upper Muschelkalk for the inner project area. The calculation is based on the formula of MUFFLER & CATALDI (1972) (Heat content * recovery factor = exploitable heat quantity). Colours are similar for all maps of this kind and are therefore comparable. In addition, faults and faultzones in the same depth are shown. For details see final report of INTERREG IV project "GeORG".
Heat in Place Upper Muschelkalk (g_hipmog)
Occurence Upper Muschelkalk (g_vgtmof-1)
Fault zone Upper Muschelkalk (g_tectmof-1)
Faults Upper Muschelkalk (g_tectmol-1)
Heat in place Permo-Triassic sandstones (g_hipsz)
The map shows the theoretical Heat in Place (GJ/km2) for the Permo-Triassic sandstones for the inner project area. The calculation is based on the formula of MUFFLER & CATALDI (1972) (Heat content * recovery factor = exploitable heat quantity). Colours are similar for all maps of this kind and are therefore comparable. In addition, faults and faultzones in the same depth are shown. For details see final report of INTERREG IV project "GeORG".
Heat in Place Permo-Triassic sandstones (g_hipszg)
Occurence Permo-Triassic sandstones (g_vgtsf-1)
Fault zone Permo-Triassic sandstones (g_tectsf-1)
Faults Permo-Triassic sandstones (g_tectsl-1)
Heat in place Basement rocks (g_hipkr)
The map shows the theoretical Heat in Place (GJ/km2) for the Basement rocks (only > 100 °C and < 5000 m below surface) for the inner project area. The calculation is based on the formula of MUFFLER & CATALDI (1972) (Heat content * recovery factor = exploitable heat quantity). In addition, faults and faultzones in the same depth are shown. For details see final report of INTERREG IV project "GeORG".
Heat in Place basement rocks (g_hipkrg)
Occurence basement rocks (g_vgtkrf-1)
Fault zone basement rocks (g_tectkrf-1)
Faults basement rocks (g_tectkrl-1)
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