Journal of Marine Science and Engineering (Aug 2024)

An Experimental Study of Pulp-Lift Characteristics Using a High-Viscous Fluid Simulating Deep Muddy Seawater

  • Sakai Onishi,
  • Yurie Itagaki,
  • Naoki Nakatani,
  • Kyara Ohara,
  • Hiroyuki Katayama,
  • Tetsuo Yamazaki

DOI
https://doi.org/10.3390/jmse12081448
Journal volume & issue
Vol. 12, no. 8
p. 1448

Abstract

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Rare-earth mud and manganese nodules coexist on the seafloor around Minamitorishima Island. To investigate the feasibility of a pulp-lift system that can ensure economic efficiency by pumping manganese using rare-earth mud as the working fluid, we conducted pulp-lift experiments at a head of 5.0 m using a squeeze pump for mortar pumping. In the study, we used carboxymethylcellulose (CMC) as the working fluid, which is a pseudo-plastic fluid like deep muddy seawater. We investigated the effects of the viscosity of the working fluid and the pump pulsation characteristics on lifting. The results revealed that the drag force acting on the pumped ore increased as the fluid became more viscous and the pulsation period became higher, while the reverse flow rate increased due to the negative pulsation pressure. This suggests that there is an optimum value for the viscosity of the working fluid.

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