Abstract
Underwater pipelines for unloading oil tankers, e.g. in 30 km distance from the harbour site, are required to be flexible and require supervision. This is done by implementation of oil sensitive sensors between the inner rubber tube and the following impregnated textile layer. The generated sensor signals, influenced by leak oil, have to be wireless transmitted from 150 meters under water to the supervisory station at the coast. Sensor configurations are described, to derive the point of the leakage from the topologized warning signals.
Citation Formats
Moeller, E, and Bernstein, L.
Leakage warning system for flexible underwater pipelines.
Germany: N. p.,
1985.
Web.
Moeller, E, & Bernstein, L.
Leakage warning system for flexible underwater pipelines.
Germany.
Moeller, E, and Bernstein, L.
1985.
"Leakage warning system for flexible underwater pipelines."
Germany.
@misc{etde_5102169,
title = {Leakage warning system for flexible underwater pipelines}
author = {Moeller, E, and Bernstein, L}
abstractNote = {Underwater pipelines for unloading oil tankers, e.g. in 30 km distance from the harbour site, are required to be flexible and require supervision. This is done by implementation of oil sensitive sensors between the inner rubber tube and the following impregnated textile layer. The generated sensor signals, influenced by leak oil, have to be wireless transmitted from 150 meters under water to the supervisory station at the coast. Sensor configurations are described, to derive the point of the leakage from the topologized warning signals.}
journal = []
volume = {38:8}
journal type = {AC}
place = {Germany}
year = {1985}
month = {Aug}
}
title = {Leakage warning system for flexible underwater pipelines}
author = {Moeller, E, and Bernstein, L}
abstractNote = {Underwater pipelines for unloading oil tankers, e.g. in 30 km distance from the harbour site, are required to be flexible and require supervision. This is done by implementation of oil sensitive sensors between the inner rubber tube and the following impregnated textile layer. The generated sensor signals, influenced by leak oil, have to be wireless transmitted from 150 meters under water to the supervisory station at the coast. Sensor configurations are described, to derive the point of the leakage from the topologized warning signals.}
journal = []
volume = {38:8}
journal type = {AC}
place = {Germany}
year = {1985}
month = {Aug}
}