Thermal conductivities of some ores and rocks in Norway.

Thermal conductivities of 61 diamond core smples are given. Most of the samples are from the Joma pyrite deposit and its neighbouring rocks. The measurements from Joma show that there is a very high conductivity in compact pyrite ore, a considerably low conductivity in impregnated ore, a high conduc...

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Main Authors: Logn, Ørnulf, Evensen, Einar
Format: Article in Journal/Newspaper
Language:English
Published: 1973
Subjects:
GEOLOGISK UNDERSØKELSE
LEDNINGSEVNE
METODE
MINERAL
Norway
Kautokeino
Troms og Finnmark
Jomafjellet
Finnmark
Troms
Online Access:https://hdl.handle.net/11250/2674973
id ftnorgesgu:oai:openarchive.ngu.no:11250/2674973
record_format openpolar
spelling ftnorgesgu:oai:openarchive.ngu.no:11250/2674973 2023-05-15T16:13:41+02:00 Thermal conductivities of some ores and rocks in Norway. Logn, Ørnulf Evensen, Einar 19241 Jomafjellet DOVRE 16232 Holden 15193 Hjerkinn KAUTOKEINO RØYRVIK INNLANDET TROMS OG FINNMARK TRØNDELAG 18334 Mållejus 1973 application/pdf https://hdl.handle.net/11250/2674973 eng eng NGU (300) https://hdl.handle.net/11250/2674973 Navngivelse 4.0 Internasjonal http://creativecommons.org/licenses/by/4.0/deed.no CC-BY 11-19 GEOLOGISK UNDERSØKELSE LEDNINGSEVNE METODE MINERAL Journal article 1973 ftnorgesgu 2022-07-03T15:26:30Z Thermal conductivities of 61 diamond core smples are given. Most of the samples are from the Joma pyrite deposit and its neighbouring rocks. The measurements from Joma show that there is a very high conductivity in compact pyrite ore, a considerably low conductivity in impregnated ore, a high conductivity in sphaleritic pyrite ore and a low conductivity in the surrounding greenstones and phyllites. Samples from other locations show that quartz and graphitic schists have intermediate conductivities and that magnetite has a relatively low conductivity. The conductivities of all measured specimens fall between 3 and 0 millical\/cm.sec. C. Comparison of thermal and electrical conductivities reveals the following interesting features: compact pyrite ore, which is usually difficult to separate electrically from impregnated ore and graphitic rocks, has a thermal conductivity distinct from that of the impregnated ore and graphite-bearing rocks. Quartz, which has a poor electrical conductivity, has a relatively high thermal conductivity as compared with that of the ordinary rocks. These features may have direct applications in prospecting for compact ore deposits. 36300 Article in Journal/Newspaper Finnmark Kautokeino Finnmark Troms NGU Open Archive (Geological Survey of Norway) Norway Kautokeino ENVELOPE(23.048,23.048,69.003,69.003) Troms og Finnmark ENVELOPE(23.712,23.712,69.724,69.724) Jomafjellet ENVELOPE(13.784,13.784,64.813,64.813)
institution Open Polar
collection NGU Open Archive (Geological Survey of Norway)
op_collection_id ftnorgesgu
language English
topic GEOLOGISK UNDERSØKELSE
LEDNINGSEVNE
METODE
MINERAL
spellingShingle GEOLOGISK UNDERSØKELSE
LEDNINGSEVNE
METODE
MINERAL
Logn, Ørnulf
Evensen, Einar
Thermal conductivities of some ores and rocks in Norway.
topic_facet GEOLOGISK UNDERSØKELSE
LEDNINGSEVNE
METODE
MINERAL
description Thermal conductivities of 61 diamond core smples are given. Most of the samples are from the Joma pyrite deposit and its neighbouring rocks. The measurements from Joma show that there is a very high conductivity in compact pyrite ore, a considerably low conductivity in impregnated ore, a high conductivity in sphaleritic pyrite ore and a low conductivity in the surrounding greenstones and phyllites. Samples from other locations show that quartz and graphitic schists have intermediate conductivities and that magnetite has a relatively low conductivity. The conductivities of all measured specimens fall between 3 and 0 millical\/cm.sec. C. Comparison of thermal and electrical conductivities reveals the following interesting features: compact pyrite ore, which is usually difficult to separate electrically from impregnated ore and graphitic rocks, has a thermal conductivity distinct from that of the impregnated ore and graphite-bearing rocks. Quartz, which has a poor electrical conductivity, has a relatively high thermal conductivity as compared with that of the ordinary rocks. These features may have direct applications in prospecting for compact ore deposits. 36300
format Article in Journal/Newspaper
author Logn, Ørnulf
Evensen, Einar
author_facet Logn, Ørnulf
Evensen, Einar
author_sort Logn, Ørnulf
title Thermal conductivities of some ores and rocks in Norway.
title_short Thermal conductivities of some ores and rocks in Norway.
title_full Thermal conductivities of some ores and rocks in Norway.
title_fullStr Thermal conductivities of some ores and rocks in Norway.
title_full_unstemmed Thermal conductivities of some ores and rocks in Norway.
title_sort thermal conductivities of some ores and rocks in norway.
publishDate 1973
url https://hdl.handle.net/11250/2674973
op_coverage 19241 Jomafjellet
DOVRE
16232 Holden
15193 Hjerkinn
KAUTOKEINO
RØYRVIK
INNLANDET
TROMS OG FINNMARK
TRØNDELAG
18334 Mållejus
long_lat ENVELOPE(23.048,23.048,69.003,69.003)
ENVELOPE(23.712,23.712,69.724,69.724)
ENVELOPE(13.784,13.784,64.813,64.813)
geographic Norway
Kautokeino
Troms og Finnmark
Jomafjellet
geographic_facet Norway
Kautokeino
Troms og Finnmark
Jomafjellet
genre Finnmark
Kautokeino
Finnmark
Troms
genre_facet Finnmark
Kautokeino
Finnmark
Troms
op_source 11-19
op_relation NGU (300)
https://hdl.handle.net/11250/2674973
op_rights Navngivelse 4.0 Internasjonal
http://creativecommons.org/licenses/by/4.0/deed.no
op_rightsnorm CC-BY
_version_ 1765999517949231104

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