TY - GEN
T1 - Design and simulation of a lamella Clarifier
AU - Maqina, Phumelele
AU - Von Kallon, Daramy Vandi
N1 - Publisher Copyright:
© IEOM Society International.
PY - 2021
Y1 - 2021
N2 - The front-end design of the Additional Mining Vessel 3 (AMV3) is based on the current mv Mafuta (MFT) design, comprising of a crawler that is used to recover material from the seabed. This material is then pumped through a 700NB riser pipe to a four-way splitter, whose discharge reports to the static drain panels. The main focus of this study is to use experimental methods to explore the feasibility of an alternative Dewatering Bin concept (Lamella Clarifier) that can successfully operate in the unique mining environment, with the increase in operating capacity without jeopardizing the dewatering bins operational efficiency. Using the existing Mafuta mining vessel which uses four dewatering as a baseline. A CFD study was conducted to determine the effect of using lamella plates on the existing dewatering bin prior developing a new concept. Based on the findings from the study, +0.5, -1.4 mm sized particles interjected, which indicated diamonds could escape. An alternative concept was developed and on a 7th scale Lamella Clarifier test rig to establish a fundamental understanding of the alternative dewatering bin concept. This document defines the scope of work for test work to be conducted at Paarden Eiland for the Dewatering Bin concept development.
AB - The front-end design of the Additional Mining Vessel 3 (AMV3) is based on the current mv Mafuta (MFT) design, comprising of a crawler that is used to recover material from the seabed. This material is then pumped through a 700NB riser pipe to a four-way splitter, whose discharge reports to the static drain panels. The main focus of this study is to use experimental methods to explore the feasibility of an alternative Dewatering Bin concept (Lamella Clarifier) that can successfully operate in the unique mining environment, with the increase in operating capacity without jeopardizing the dewatering bins operational efficiency. Using the existing Mafuta mining vessel which uses four dewatering as a baseline. A CFD study was conducted to determine the effect of using lamella plates on the existing dewatering bin prior developing a new concept. Based on the findings from the study, +0.5, -1.4 mm sized particles interjected, which indicated diamonds could escape. An alternative concept was developed and on a 7th scale Lamella Clarifier test rig to establish a fundamental understanding of the alternative dewatering bin concept. This document defines the scope of work for test work to be conducted at Paarden Eiland for the Dewatering Bin concept development.
KW - Additional Mining Vessel 3(AMV3)
KW - And Lamella Clarifier
KW - Front-End
KW - Mv Mafuta (MFT)
UR - http://www.scopus.com/inward/record.url?scp=85121110199&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85121110199
SN - 9781792361258
T3 - Proceedings of the International Conference on Industrial Engineering and Operations Management
SP - 2453
EP - 2463
BT - Proceedings of the International Conference on Industrial Engineering and Operations Management, 2021
PB - IEOM Society
T2 - 2nd South American Conference on Industrial Engineering and Operations Management, IEOM 2021
Y2 - 5 April 2021 through 8 April 2021
ER -