3D geological model of the graphite deposit Český Krumlov - Městský vrch

3D model of the graphite deposit Český Krumlov – Městský vrch was created within the project TE02000029 Competence Centre for Effective and Ecological Mining of Mineral Resources. The main objective of this project is a review of reserves of selected non-energy minerals belonging to EU critical commodities. The project also includes a methodology of creating and visualizing 3D models of selected mineral deposits.
The 3D model depicts only the richer part of the graphite deposit, especially its southern to south-eastern part from the shear zone extending through the northern part of the deposit. The model is limiting by the lower and upper surface of the graphite deposit from the terain to a depth of 425 m.a.s.l. The most important is the graphite concentration, which is displayed by stained points of 3D grid. The concentration of C was calculated only in the range 490 to 510 m.a.s.l., where there was enough representative input data. The model was created in SW MOVE. Graphite concentrations were calculated using SW Surfer, Voxler, SGeMS and specially created MS Excel macros in Visual Basic. The model was submitted in native MOVE format and also in 3D PDF format.
dataset
https://registry.geology.cz/id/3D-MESTSKY_VRCH-LOZ
Czech
Geoscientific information
GEMET - Concepts, version 3.1: CGS Geoscientific themes:
Free:
3D geological model
graphite deposit
Městský vrch
Český Krumlov
14.299, 48.817, 14.312, 48.823
creation: 2017-10-31, publication: 2019-08-01
2017 - 2018
tin
projekt č. 223500 (CEEMIR)
Czech Geological Survey
RNDr. František Staněk, Ph.D.
Klárov 131/3, Praha 1, 118 21, Česká republika
email: frantisek.stanek@geology.cz
Role: point of contact
Czech Geological Survey
doc. Ing. Jan Jelínek, Ph.D.
Klárov 131/3, Praha 1, 118 21, Česká republika
tel: +420257089464
email: jan.jelinek@geology.cz
Role: processor
VSB - Technical University of Ostrava
doc. Ing. Radomír Grygar, CSc.
17. listopadu 2172/15, Ostrava-Poruba, 708 00, Česká republika
tel: +420597323329
email: radomir.grygar@vsb.cz
Role: processor
Czech Geological Survey
Mgr. Jan Franěk, Ph.D.
Klárov 131/3, Praha 1, 118 21, Česká republika
tel: +420257089447
email: jan.franek@geology.cz
Role: processor
Czech Geological Survey
Klárov 3, Praha 1, 118 21, Česká republika
tel: +420257089411
email: metadata@geology.cz
Role: originator
VSB - Technical University of Ostrava
Mgr. Marcela Jarošová
Ludvíka Podéště 1875/17, Ostrava-Poruba, 708 00, Česká republika
tel: +420597321376
email: marcela.jarosova@vsb.cz
Role: processor
VSB - Technical University of Ostrava
17. listopadu 2172/15, Ostrava-Poruba, 708 00, Česká republika
tel: +420597321111
email: univerzita@vsb.cz
Role: custodian

Data Quality

The 3D model of the graphite deposit Český Krumlov – Městský vrch was created within the project TE02000029 Competence Centre for Effective and Ecological Mining of Mineral Resources.
The 3D model depicts only the richer part of the graphite deposit, especially its southern to south-eastern part from the shear zone extending through the northern part of the deposit. The model is limiting by the lower and upper surface of the graphite deposit from the terain to a depth of 425 m.a.s.l. The most important is the graphite concentration, which is displayed by stained points of 3D grid. The concentration of C was calculated only in the range 490 to 510 m.a.s.l., where there was enough representative input data. The model was created in SW MOVE. Graphite concentrations were calculated using SW Surfer, Voxler, SGeMS and specially created MS Excel macros in Visual Basic.
Equivalent Scale: 1: 2000

Constraints

Distribution

Czech Geological Survey
doc. Ing. Jan Jelínek, Ph.D.
Klárov 131/3, Praha 1, 118 21, Česká republika
tel: +420257089464
email: jan.jelinek@geology.cz
Role: distributor

Metadata about metadata

5d78d7a9-41a4-490b-9aac-776b0a010852
Czech Geological Survey
Ing. Lucie Kondrová, Ph.D.
Klárov 131/3, Praha 1, 118 21, Česká republika
tel: +420257089434
email: lucie.kondrova@geology.cz
Role: point of contact
2021-12-15

Coupled Resources