Abstract
Discussed herein are mooring performance requirements of the new types of marine structures now proposed, and characteristic ranges and future expansion potential of the existing mooring systems. The mooring systems studied for floating structures are catenary, single point (multi-leg and single-leg types), fixed structure with fender and tension leg mooring systems. The studied items include extraction of the elements that constitute rigidity of the spring for horizontal mooring, survey on and data collection for each element, determination of element ranges, programs for mooring analysis, assessment of mooring characteristic ranges, and potential development of the characteristic ranges. It is concluded that the existing systems with their current characteristic ranges and future possibility are insufficient for the future marine structures. It is therefore necessary to develop new mooring concepts, instead of expanding the current concepts, in order to meet the mooring performance requirements for the new marine structures. 14 refs., 9 figs., 11 tabs.
Citation Formats
Yoshida, K, Suzuki, H, and Ide, T.
Systematic analysis on mooring systems of floating structures; Futai keiryuho ni kansuru keitoteki kenkyu.
Japan: N. p.,
1996.
Web.
Yoshida, K, Suzuki, H, & Ide, T.
Systematic analysis on mooring systems of floating structures; Futai keiryuho ni kansuru keitoteki kenkyu.
Japan.
Yoshida, K, Suzuki, H, and Ide, T.
1996.
"Systematic analysis on mooring systems of floating structures; Futai keiryuho ni kansuru keitoteki kenkyu."
Japan.
@misc{etde_473711,
title = {Systematic analysis on mooring systems of floating structures; Futai keiryuho ni kansuru keitoteki kenkyu}
author = {Yoshida, K, Suzuki, H, and Ide, T}
abstractNote = {Discussed herein are mooring performance requirements of the new types of marine structures now proposed, and characteristic ranges and future expansion potential of the existing mooring systems. The mooring systems studied for floating structures are catenary, single point (multi-leg and single-leg types), fixed structure with fender and tension leg mooring systems. The studied items include extraction of the elements that constitute rigidity of the spring for horizontal mooring, survey on and data collection for each element, determination of element ranges, programs for mooring analysis, assessment of mooring characteristic ranges, and potential development of the characteristic ranges. It is concluded that the existing systems with their current characteristic ranges and future possibility are insufficient for the future marine structures. It is therefore necessary to develop new mooring concepts, instead of expanding the current concepts, in order to meet the mooring performance requirements for the new marine structures. 14 refs., 9 figs., 11 tabs.}
place = {Japan}
year = {1996}
month = {Dec}
}
title = {Systematic analysis on mooring systems of floating structures; Futai keiryuho ni kansuru keitoteki kenkyu}
author = {Yoshida, K, Suzuki, H, and Ide, T}
abstractNote = {Discussed herein are mooring performance requirements of the new types of marine structures now proposed, and characteristic ranges and future expansion potential of the existing mooring systems. The mooring systems studied for floating structures are catenary, single point (multi-leg and single-leg types), fixed structure with fender and tension leg mooring systems. The studied items include extraction of the elements that constitute rigidity of the spring for horizontal mooring, survey on and data collection for each element, determination of element ranges, programs for mooring analysis, assessment of mooring characteristic ranges, and potential development of the characteristic ranges. It is concluded that the existing systems with their current characteristic ranges and future possibility are insufficient for the future marine structures. It is therefore necessary to develop new mooring concepts, instead of expanding the current concepts, in order to meet the mooring performance requirements for the new marine structures. 14 refs., 9 figs., 11 tabs.}
place = {Japan}
year = {1996}
month = {Dec}
}