ON HYDRODYNAMIC ASPECTS OF SHIP COLLISION WITH RIGID OR NON-RIGID STRUCTURES

Throughout the history of fendering systems, design assumptions have been made on the magnitude of the hydrodynamic added mass of ships when hitting a fendering system. This added mass is known to be dependent upon a number of variables, such as ship shape, ship size, bottom clearance, spring constant of the fendering system, mode of collision, etc. The assumptions to be made for the fendering design are in general not supported by a theory backed by extensive experiments. In view of the increasing amount of structures of various kinds in several offshore areas and the increasing transport of dangerous cargoes, the demand for reliable design methods gets stronger. It is the purpose of this paper to give more data-based support to the design of fendering systems by means of the presentation of an extensive test series conducted at the Netherlands Ship Model Basin. Correlation with existing theories are discussed.

  • Supplemental Notes:
    • Proceedings of the Eleventh Annual OTC held in Houston, Texas April 30-May 3 1979, Volume 4.
  • Corporate Authors:

    Offshore Technology Conference

    6200 North Central Expressway
    Dallas, TX  USA  45206
  • Authors:
    • Blok, J J
    • Dekker, J N
  • Publication Date: 1979

Media Info

Subject/Index Terms

Filing Info

  • Accession Number: 00195812
  • Record Type: Publication
  • Source Agency: Offshore Technology Conference
  • Report/Paper Numbers: Volume 4 Proceeding
  • Files: TRIS
  • Created Date: Jul 31 1979 12:00AM