Print Email Facebook Twitter Near-Field Analysis of Turbidity Flows Generated by Polymetallic Nodule Mining Tools Title Near-Field Analysis of Turbidity Flows Generated by Polymetallic Nodule Mining Tools Author Elerian, M.F.A.I. (TU Delft Offshore and Dredging Engineering) Alhaddad, S.M.S. (TU Delft Offshore and Dredging Engineering) Helmons, R.L.J. (TU Delft Offshore and Dredging Engineering) van Rhee, C. (TU Delft Offshore and Dredging Engineering; TU Delft Rivers, Ports, Waterways and Dredging Engineering) Date 2021 Abstract The interest in polymetallic nodule mining has considerably increased in the last few decades. This has been largely driven by population growth and the need to move towards a green future, which requires strategic raw materials. Deep-Sea Mining (DSM) is a potential source of such key materials. While harvesting the ore from the deep sea by a Polymetallic Nodule Mining Tool (PNMT), some bed sediment is unavoidably collected. Within the PNMT, the ore is separated from the sediment, and the remaining sediment–water mixture is discharged behind the PNMT, forming an environmental concern. This paper begins with surveying the state-of-the-art knowledge of the evolution of the discharge from a PNMT, in which the discharge characteristics and generation of turbidity currents are discussed. Moreover, the existing water entrainment theories and coefficients are analyzed. It is shown how plumes and jets can be classified using the flux balance approach. Following that, the models of Lee et al. (2013) and Parker et al. (1986) are combined and utilized to study the evolution of both the generated sediment plume and the subsequent turbidity current. The results showed that a smaller sediment flux at the impingement point, where the plume is transformed into a turbidity current, results in a shorter run-out distance of the turbidity current, consequently being more favorable from an environmental point of view. Subject deep-sea miningpolymetallic nodulesturbidity currentssediment–water dischargewater entrainmentsediment deposition To reference this document use: http://resolver.tudelft.nl/uuid:fa48d9f4-ecbe-4ce4-bb7f-6578f6bcc6cc DOI https://doi.org/10.3390/mining1030017 ISSN 2673-6489 Source Mining, 1 (3), 251-278 Part of collection Institutional Repository Document type journal article Rights © 2021 M.F.A.I. Elerian, S.M.S. Alhaddad, R.L.J. Helmons, C. van Rhee Files PDF mining_01_00017.pdf 1.64 MB Close viewer /islandora/object/uuid:fa48d9f4-ecbe-4ce4-bb7f-6578f6bcc6cc/datastream/OBJ/view