Investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits

This thesis focused on developing and understanding of the challenges of mining subsea polymetallic sulphide (PMS) deposits. The research presented starts from the concept of deposit identification through to prototype testing of an ocean mining excavator. The work presented builds on existing work...

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Main Author: Hunter, Richard Joseph
Format: Others
Language:English
Published: University of British Columbia 2009
Online Access:http://hdl.handle.net/2429/5734
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.-57342013-06-05T04:17:19ZInvestigation of the application of mechanical mining of ocean floor polymetallic sulphide depositsHunter, Richard JosephThis thesis focused on developing and understanding of the challenges of mining subsea polymetallic sulphide (PMS) deposits. The research presented starts from the concept of deposit identification through to prototype testing of an ocean mining excavator. The work presented builds on existing work in the field as well as relying heavily on the Solwara Ocean mining expedition case study carried out in conjunction with Barrick Gold and Nautilus Minerals. The research demonstrates the mechanical cutting of PMS sulphide deposits in the Manus Basin and confirms the viability of mechanical excavation as a mining strategy. As well, knowledge was gained in the performance of an undersea excavator and potential design objectives for a future generation mining ocean machine. This thesis presents the results of 27 cutting dives in the Manus Basin as well as the results from surface cutting trials of PMS substitute materials. The result indicate that excavation of deep ocean PMS deposits is technically viable.University of British Columbia2009-03-09T13:52:36Z2009-03-09T13:52:36Z20072009-03-09T13:52:36Z2007-11Electronic Thesis or Dissertation12170406 bytesapplication/pdfhttp://hdl.handle.net/2429/5734eng
collection NDLTD
language English
format Others
sources NDLTD
description This thesis focused on developing and understanding of the challenges of mining subsea polymetallic sulphide (PMS) deposits. The research presented starts from the concept of deposit identification through to prototype testing of an ocean mining excavator. The work presented builds on existing work in the field as well as relying heavily on the Solwara Ocean mining expedition case study carried out in conjunction with Barrick Gold and Nautilus Minerals. The research demonstrates the mechanical cutting of PMS sulphide deposits in the Manus Basin and confirms the viability of mechanical excavation as a mining strategy. As well, knowledge was gained in the performance of an undersea excavator and potential design objectives for a future generation mining ocean machine. This thesis presents the results of 27 cutting dives in the Manus Basin as well as the results from surface cutting trials of PMS substitute materials. The result indicate that excavation of deep ocean PMS deposits is technically viable.
author Hunter, Richard Joseph
spellingShingle Hunter, Richard Joseph
Investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits
author_facet Hunter, Richard Joseph
author_sort Hunter, Richard Joseph
title Investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits
title_short Investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits
title_full Investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits
title_fullStr Investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits
title_full_unstemmed Investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits
title_sort investigation of the application of mechanical mining of ocean floor polymetallic sulphide deposits
publisher University of British Columbia
publishDate 2009
url http://hdl.handle.net/2429/5734
work_keys_str_mv AT hunterrichardjoseph investigationoftheapplicationofmechanicalminingofoceanfloorpolymetallicsulphidedeposits
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