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Record #119397:

A numerical simulation model of cable icing using an elliptical ice shape / Pierre McComber, Jacques Druez.

Title: A numerical simulation model of cable icing using an elliptical ice shape / Pierre McComber, Jacques Druez.
Author(s): McComber, Pierre.
Druez, Jacques.
Date: 1992.
Publisher: Golden, CO: International Society of Offshore and Polar Engineers (ISOPE)
In: Proceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2. (1992.),
Abstract: Existing icing models assume either circular accretion shape or complicated detailed profile, whereas field measurements of ice accretion on cables have shown evidence of variable cable twisting during icing. This can be modelled by considering eccentric ice load. By compromising between circular or detailed icing shape, cable twisting can be included in simulation and accuracy of models can be improved. Such a model is described.
Notes:

In: The proceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2 / Michael S. Triantafyllou, Jin S. Chung, Karel Karal, Alfred L. Tunik, eds.

Keywords: 624.14 -- Snow and ice engineering.
624.142 -- Low temperature effects.
621.3 -- Electrical engineering.
621.315.1 -- Electric cables, overhead.
519.673 -- Modelling.
E12 -- Glaciology: frozen ground / snow and ice engineering.
SPRI record no.: 119397

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245 12 ‡aA numerical simulation model of cable icing using an elliptical ice shape /‡cPierre McComber, Jacques Druez.
260 ## ‡aGolden, CO :‡bInternational Society of Offshore and Polar Engineers (ISOPE),‡c1992.
300 ## ‡ap. 632-640 :‡bdiags.
500 ## ‡aIn: The proceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2 / Michael S. Triantafyllou, Jin S. Chung, Karel Karal, Alfred L. Tunik, eds.
520 3# ‡aExisting icing models assume either circular accretion shape or complicated detailed profile, whereas field measurements of ice accretion on cables have shown evidence of variable cable twisting during icing. This can be modelled by considering eccentric ice load. By compromising between circular or detailed icing shape, cable twisting can be included in simulation and accuracy of models can be improved. Such a model is described.
650 07 ‡a624.14 -- Snow and ice engineering.‡2udc
650 07 ‡a624.142 -- Low temperature effects.‡2udc
650 07 ‡a621.3 -- Electrical engineering.‡2udc
650 07 ‡a621.315.1 -- Electric cables, overhead.‡2udc
650 07 ‡a519.673 -- Modelling.‡2udc
650 07 ‡aE12 -- Glaciology: frozen ground / snow and ice engineering.‡2local
700 1# ‡aDruez, Jacques.
773 0# ‡7nnam ‡aMichael S. Triantafyllou, Jin S. Chung, Karel Karal, Alfred L. Tunik, eds. ‡tProceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2. ‡dGolden, CO : International Society of Offshore and Polar Engineers (ISOPE), 1992. ‡wSPRI-119457
917 ## ‡aUnenhanced record from Muscat, imported 2019
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