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Record #117942:
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MARC recordThe effect of orientation on the cranked, tubular thermosyphon / G.S.H. Lock, Jialin Fu.
| Title: | The effect of orientation on the cranked, tubular thermosyphon / G.S.H. Lock, Jialin Fu. |
| Author(s): | Lock, G. S. H. Fu, Jialin. |
| Date: | 1992. |
| Publisher: | New York: American Society of Mechanical Engineers |
| In: | Proceedings of the 11th International Conference on Offshore Mechanics and Arctic Engineering - 1992. Presented ... Calgary, Alberta, Canada, June 7-12, 1992. Vol. 4 - Arctic/polar technology. (1992.), |
| Abstract: | Thermosyphons can be used to maintain soil in frozen condition or to create underwater ice blockage in northern rivers. Experiments undertaken on water-filled small-bore rig reveal effect of inclining heated and cooled sections relative to vertical, while adiabatic offset tube joining them is held horizontal. In addition, effect of rotating horizontally aligned heat and cooled sections about their own axis is also studied. Results show similarities between this system and linear thermosyphon, and indicate that horizontal alignments produce higher heat transfer rates. |
| Notes: | In: Proceedings of the 11th International Conference on Offshore Mechanics and Arctic Engineering - 1992. Presented ... Calgary, Alberta, Canada, June 7-12, 1992. Vol. 4 - Arctic/polar technology / Olufemi A. Ayorinde, Nirmal K. Sinha, Devinder S. Sodhi, Wilfrid A. Nixon, eds. |
| Keywords: | 62 -- Engineering and technology. 621.577 -- Heat pumps. 624.139.62 -- Permafrost control. E12 -- Glaciology: frozen ground / snow and ice engineering. |
| SPRI record no.: | 117942 |
LDR 01927naa#a2200000#a#4500 001 SPRI-117942 005 20230925131852.0 007 ta 008 230925s1992####nyua###|#####|0||#0#eng#d 035 ## ‡aSPRI-117942 040 ## ‡aUkCU-P‡beng‡eaacr 100 1# ‡aLock, G. S. H. 245 14 ‡aThe effect of orientation on the cranked, tubular thermosyphon /‡cG.S.H. Lock, Jialin Fu. 260 ## ‡aNew York :‡bAmerican Society of Mechanical Engineers,‡c1992. 300 ## ‡ap. 155-158 :‡bdiags. 500 ## ‡aIn: Proceedings of the 11th International Conference on Offshore Mechanics and Arctic Engineering - 1992. Presented ... Calgary, Alberta, Canada, June 7-12, 1992. Vol. 4 - Arctic/polar technology / Olufemi A. Ayorinde, Nirmal K. Sinha, Devinder S. Sodhi, Wilfrid A. Nixon, eds. 520 3# ‡aThermosyphons can be used to maintain soil in frozen condition or to create underwater ice blockage in northern rivers. Experiments undertaken on water-filled small-bore rig reveal effect of inclining heated and cooled sections relative to vertical, while adiabatic offset tube joining them is held horizontal. In addition, effect of rotating horizontally aligned heat and cooled sections about their own axis is also studied. Results show similarities between this system and linear thermosyphon, and indicate that horizontal alignments produce higher heat transfer rates. 650 07 ‡a62 -- Engineering and technology.‡2udc 650 07 ‡a621.577 -- Heat pumps.‡2udc 650 07 ‡a624.139.62 -- Permafrost control.‡2udc 650 07 ‡aE12 -- Glaciology: frozen ground / snow and ice engineering.‡2local 700 1# ‡aFu, Jialin. 773 0# ‡7nnam ‡aOlufemi A. Ayorinde, Nirmal K. Sinha, Devinder S. Sodhi, Wilfrid A. Nixon, eds. ‡tProceedings of the 11th International Conference on Offshore Mechanics and Arctic Engineering - 1992. Presented ... Calgary, Alberta, Canada, June 7-12, 1992. Vol. 4 - Arctic/polar technology. ‡dNew York : American Society of Mechanical Engineers, 1992. ‡wSPRI-117928 917 ## ‡aUnenhanced record from Muscat, imported 2019 948 3# ‡a20230925