A coupled debris flow–turbidity current model |
| |
Authors: | M Drago |
| |
Institution: | Snamprogetti S.p.A., Via Toniolo No. 1, 61032 Fano, Italy |
| |
Abstract: | In the last decade, offshore pipeline engineering extended its action field to very deep waters and continental slopes. This implied the necessity to deal with continental slope instability and mass gravity flows. Mass gravity flows are rare and have random occurrence; therefore, considering also the technical difficulties, the direct measurement of the phenomena is practically impossible. This has encouraged the development of physical and numerical models for investigating the characteristics and intensity of the phenomena (Proc. OTC Conf., Houston, TX (2000); Proc. 19th OMAE Conference, New Orleans, LA (2000)). In order to provide design activities with reliable predictive tools, two numerical models, one for debris flows and the other for turbidity currents, have been developed. The two models are coupled by the bottom boundary conditions of the turbidity current model that depends on the instantaneous velocity of the debris flow model. The two models used together provide a tool for the evaluation of a mass gravity flow event starting as a debris flow and evolving into a turbidity current. |
| |
Keywords: | Mass gravity flow Debris flow Turbidity current Numerical modelling |
本文献已被 ScienceDirect 等数据库收录! |
|