Advection-diffusion-settling of deep-sea mining sediment plumes. Part 1: Midwater plumes

Author(s)

Ouillon, Raphael; Muñoz-Royo, Carlos; Alford, Matthew H.; Peacock, Thomas

Abstract

The evolution of midwater sediment plumes associated with deep-sea mining activities is investigated in the passive-transport phase using a simplified advection–diffusion-settling model. Key metrics that characterize the extent of plumes are defined based on a concentration threshold. Namely, we consider the volume flux of fluid that ever exceeds a concentration threshold, the furthest distance from and maximum depth below the intrusion where the plume exceeds the threshold, and the instantaneous volume of fluid in excess of the threshold. Formulas are derived for the metrics that provide insight into the parameters that most strongly affect the extent of the plume. The model is applied to a reference deep-sea mining scenario around which key parameters are varied. The results provide some sense of scale for deep-sea mining midwater plumes, but more significantly demonstrate the importance of the parameters that influence the evolution of midwater plumes. The model shows that the discharge mass flow rate and the concentration threshold play an equal and opposite role on setting the extent of the plume. Ambient ocean turbulence and the settling velocity distribution of particles play a lesser yet significant role on setting the extent, and can influence different metrics in opposing ways.

Date issued

2022

URI

https://hdl.handle.net/1721.1/154076

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Flow

Publisher

Cambridge University Press

Citation

Ouillon R, Muñoz-Royo C, Alford MH, Peacock T. Advection-diffusion-settling of deep-sea mining sediment plumes. Part 1: Midwater plumes. Flow. 2022;2:E22.

Version: Final published version

ISSN

2633-4259