Citation:

PANGAEA.807100

Name: Component parts of the World Heat Flow Data Collection
Published: 1979
License: https://creativecommons.org/licenses/by/3.0/

Always quote citation above when using data! You can download the citation in several formats below.

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Related to:

Haenel, Ralph; Grönlie, G; Heier, K S (1979): Terrestrial Heat Flow Determination in Norway and an Attempted Interpretation. In: Cermak, V; Rybach, L (eds.), Terrestrial Heat Flow in Europe. Springer Verlag, Heidelberg-Berlin-New York, 232-239, https://doi.org/10.1007/978-3-642-95357-6_24

International Heat Flow Commission, I H F C (2012): Global Heat Flow Database. The Global Heat Flow Database of the International Heat Flow Commission (IHFC), University of North Dakota, USA; (data copied, 2012-10), https://ihfc-iugg.org/products/global-heat-flow-database/data

Further details:

Jessop, Alan M; Hobart, Michael A; Sclater, John G (1976): The World Heat Flow Data Collection - 1975. Geological Survey of Canada, Earth Physics Branch, Geothermal Series, 5, 10 pp, hdl:10013/epic.40176.d002

Coverage:

Median Latitude: 61.813412 * Median Longitude: 8.277987 * South-bound Latitude: 59.401700 * West-bound Longitude: 5.390000 * North-bound Latitude: 67.383300 * East-bound Longitude: 15.533300

Minimum ELEVATION: -455 m a.s.l. * Maximum ELEVATION: -34 m a.s.l.

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Comment
1	Area/locality	Area		Haenel, Ralph
2	Sample, optional label/labor no	Lab no		Haenel, Ralph
3	LATITUDE	Latitude			Geocode
4	LONGITUDE	Longitude			Geocode
5	ELEVATION	Elevation	m a.s.l.		Geocode
6	Temperature gradient	T grad	mK/m	Haenel, Ralph
7	Conductivity, average	Cond average	W/m K	Haenel, Ralph
8	Number	No		Haenel, Ralph	Number of individual sites
9	Method comment	Method comm		Haenel, Ralph

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

144 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Area	2 Lab no	3 Latitude	4 Longitude	5 Elevation [m a.s.l.]	6 T grad [mK/m]	7 Cond average [W/m K]	8 No	9 Method comm
Norway	Bandakvatn 1	59.4150	8.1967	-207	62	0.71	1	lake (oceanic)
Norway	Bandakvatn 2	59.4017	8.2800	-285	83	0.59	1	lake (oceanic)
Norway	Bjoerkedalsvatn	62.0117	6.0650	-81	40	0.72	1	lake (oceanic)
Norway	Botvatn	67.1017	15.5333	-114	55	0.90	1	lake (oceanic)
Norway	Breimsvatn	61.6900	6.3950	-278	73	0.76	1	lake (oceanic)
Norway	Eikesdalsvatn	62.6017	8.1600	-152	50	0.81	1	lake (oceanic)
Norway	Granvinvatn	60.5500	6.7167	-84	60	0.80	1	lake (oceanic)
Norway	Haukedalvatn	61.3950	6.2600	-110	61	0.69	1	lake (oceanic)
Norway	Heggemowann	67.3833	15.0000	-116	43	0.76	1	lake (oceanic)
Norway	Kalandsvatn 1	60.2800	5.3900	-95	84	0.58	1	lake (oceanic)
Norway	Kalandsvatn 2	60.2717	5.4083	-75	64	0.64	1	lake (oceanic)
Norway	Lovatn	61.8233	6.9583	-130	37	0.92	1	lake (oceanic)
Norway	Myrdalsvatn	60.8200	6.4867	-93	59	0.71	1	lake (oceanic)
Norway	Oldevatn	61.7350	6.8017	-91	40	0.90	1	lake (oceanic)
Norway	Oppheimsvatn	60.7967	6.5967	-67	33	0.82	1	lake (oceanic)
Norway	Roeldalsvatn	59.8033	6.7850	-105	62	0.81	1	lake (oceanic)
Norway	Rossvatn	65.8767	14.2433	-129	67	0.88	1	lake (oceanic)
Norway	Salsvatn	64.7150	11.6133	-455	58	0.72	1	lake (oceanic)
Norway	Selbusjoen	63.2500	10.8400	-155	70	0.67	1	lake (oceanic)
Norway	Strynevatn	61.9433	7.0017	-190	64	0.79	1	lake (oceanic)
Norway	Suldalsvatn	59.6017	6.7833	-316	45	0.77	1	lake (oceanic)
Norway	Svinsjoeen	59.8217	10.3767	-34	61	0.84	1	lake (oceanic)
Norway	Vangsvatn 1	60.6167	6.3900	-62	77	0.73	1	lake (oceanic)
Norway	Vangsvatn 2	60.6167	6.3900	-62	82	0.73	1	lake (oceanic)