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Record #129063:
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MARC recordThe effect of density variations during rime growth on overhead transmission line conductors / P.L.I. Skelton, G. Poots.
| Title: | The effect of density variations during rime growth on overhead transmission line conductors / P.L.I. Skelton, G. Poots. |
| Author(s): | Skelton, P. L. I. Poots, G. |
| Date: | 1994. |
| In: | Cold Regions Science and Technology. (1994.), Vol. 22(4) (1994) |
| Abstract: | Known density relationships, which are functions of variables and parameters controlling rime-ice accretion on circular cylinders, are incorporated in heat and mass transfer rime-icing model to predict ice load and equivalent ice thickness during evolution of ice surface. Whereas predictions for ice thickness and ice shape are found to depend on choice of density relationship, predictions for transient ice load are in agreement. Recommendation is made for adopting density relationship which can be readily used to predict ice loads on overhead line conductors having finite span and finite torsional stiffness. |
| Notes: | Cold Regions Science and Technology. Vol. 22(4) :311-317 (1994). |
| Keywords: | 624.14 -- Snow and ice engineering. 624.142 -- Low temperature effects. 621.315/.316 -- Electricity distribution lines. 621.315.1 -- Electric cables, overhead. 551.574.42 -- Rime, hoarfrost and glazed frost. E12 -- Glaciology: frozen ground / snow and ice engineering. |
| SPRI record no.: | 129063 |
LDR 01618naa#a2200000#a#4500 001 SPRI-129063 005 20240419053720.0 007 ta 008 240419s1994####xx#a##|##|###|0||#0|eng#d 035 ## ‡aSPRI-129063 040 ## ‡aUkCU-P‡beng‡eaacr 100 1# ‡aSkelton, P. L. I. 245 14 ‡aThe effect of density variations during rime growth on overhead transmission line conductors /‡cP.L.I. Skelton, G. Poots. 260 ## ‡a[S.l.] :‡b[s.n.],‡c1994. 300 ## ‡ap. 311-317 :‡bdiags. 500 ## ‡aCold Regions Science and Technology. Vol. 22(4) :311-317 (1994). 520 3# ‡aKnown density relationships, which are functions of variables and parameters controlling rime-ice accretion on circular cylinders, are incorporated in heat and mass transfer rime-icing model to predict ice load and equivalent ice thickness during evolution of ice surface. Whereas predictions for ice thickness and ice shape are found to depend on choice of density relationship, predictions for transient ice load are in agreement. Recommendation is made for adopting density relationship which can be readily used to predict ice loads on overhead line conductors having finite span and finite torsional stiffness. 650 07 ‡a624.14 -- Snow and ice engineering.‡2udc 650 07 ‡a624.142 -- Low temperature effects.‡2udc 650 07 ‡a621.315/.316 -- Electricity distribution lines.‡2udc 650 07 ‡a621.315.1 -- Electric cables, overhead.‡2udc 650 07 ‡a551.574.42 -- Rime, hoarfrost and glazed frost.‡2udc 650 07 ‡aE12 -- Glaciology: frozen ground / snow and ice engineering.‡2local 700 1# ‡aPoots, G. 773 0# ‡7nnas ‡tCold Regions Science and Technology. ‡gVol. 22(4) (1994) ‡wSPRI-59075 917 ## ‡aUnenhanced record from Muscat, imported 2019 948 3# ‡a20240419