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  • IMMS
    Deep Seabed Resource Potential

    By G. A. Gross

    Technological development in the last two decades has provided access to the deep seabed and opened a new frontier for exploration. Interest in Canada has focused mainly on study of metallic mineral o

    Jan 1, 1985

  • IMMS
    Gas Hydrates as a Future Energy Resource – Scientific Aspects and Perspectives

    By Christian Müller, Hermann-Rudolf Kudrass, Christian Reichert

    Recent studies estimate the depletion mid-point (dmp) for conventional natural gas to be reached around year 2022, and for conventional oil to be reached around year 2017. These numbers are based on

    Aug 24, 2006

  • IMMS
    Pacmanus: An Actively-Forming Submarine Polymetallic Sulfide Deposit In Felsic Volcanic Rocks Of The Manus Back-Arc, Papua, New Guinea

    By Steven D. Scott

    The 1991 PACMANUS Expedition (Papua New Guinea-Australia-Canada in the Manus Basin) discovered a very large (approximately 800 x 350 m) actively-forming seafloor polymetallic sulfide 4 deposit in fels

    Jan 1, 2011

  • IMMS
    Comparative Analysis of Deep-Sea Minerals

    By Pedro Madureira, Georgy Cherkashov, Harald Brekke, Marzia Rovere

    "The most promising deep-sea mineral resources for exploration in the Area (beyond the limits of national jurisdiction) are polymetallic nodules, cobalt-rich ferromanganese crusts and polymetallic sul

    Jan 1, 2017

  • IMMS
    Indian Underwater Mining Programme, Its Long Term And Short Term Objectives

    By M. Ravindran

    The Government of India started its deep seabed exploration programme during 1982. This programme was started as one of national importance and several national laboratories were involved to realize t

    Jan 1, 1994

  • IMMS
    Pelagic Sediments Associated with Polymetallic Nodules in the Clarion Area Fracture Zone (0561cd29-9a1e-44e4-ad6d-1907506df123)

    By Marlene Olivares Cruz

    The particles that make up the deep-sea sediments have two main sources: 1) those that are created in situ from dissolved components and 2) those that are washed into the ocean in solid phases from th

    Sep 14, 2011

  • IMMS
    MARTEMIS – An Electromagnetic Coil System for the Detection of Buried Seafloor Massive Sulfides

    By S. Hölz, M. Jegen, K. Reeck, A. Haroon

    Past investigations of seafloor massive sulfides (SMS) focused on actively forming sites. New technologies are needed to explore for SMS deposits which have finished their active phase and are possibl

    Jan 1, 2018

  • IMMS
    On-Site Observations and In-Situ Experiments for the Ferromanganese Deposit at the Seamounts in the Northwestern Pacific: A Review for the ROV Geoscientific Exploration

    By Akira Usui

    The small-scale observations, mapping, sampling, and in-situ experiments have been carried out since 2009 using JAMSTEC ROVs at some model seamounts in the Northwestern Pacific seamounts. Laboratory a

    Jan 1, 2018

  • IMMS
    DSM Concept Cube - A classification system for deep-sea mining concepts

    By Maria Thornhill, Rolf Arne Kleiv

    INTRODUCTION The last decade has given rise to an increasing number of deep-sea mining concepts (DSMCs) outlining technical solutions for the production chain from seafloor mining to mineral or metal

    Jan 1, 2018

  • IMMS
    Number 8 Wire Technology ? Keeping The Costs Down

    By Keith Gordon

    The recent discoveries of hydrothermal activity in the ocean off New Zealand have created interest in the business community in the commercial possibilities of mining associated marine polymetallic su

    Jan 1, 2002

  • IMMS
    Further Environmental Considerations For Marine Mining: Mine Closure And Environmental Terrorism

    By Derek Ellis

    There are two environmental issues which have only recently begun to need planning in detail for marine mining. One is the environmental consequences of mine closure; the other is environmental terror

    Jan 1, 2005

  • IMMS
    Draft Exploitation Regulations: Commercial Viability

    By Eleanor Martin

    An examination of the draft Exploitation Regulations from an investor’s perspective. We will look at the commercial requirements of the investment community (debt and equity) in order to provide fundi

    Jan 1, 2018

  • IMMS
    Exploration Strategies And Activities For Deep-Sea Mineral Resources Development Of Korea

    By Cheong-Kee Park

    Since 1983, Korea Ocean Research and Development Institute (KORDI) have performed surveys on deep-sea mineral deposits in various areas with respects to their occurrences in Pacific ocean including ma

    Jan 1, 2003

  • IMMS
    Obtaining Approval For Deep Water Seafloor Mineral Extraction: The Solwara 1 Example

    By David Gwyther

    There is increasing recognition that in order for a development project to proceed successfully, it must first obtain a ?social licence to operate? from concerned stakeholders. Obtaining this ?licenc

    Jan 1, 2011

  • IMMS
    Particle Geochemistry at Hydrothermal Vents and Implications for Mining Seafloor Massive Sulfides

    By Amy Gartman

    "Seafloor hydrothermal systems result in the emission of abundant particles and nanoparticles into seawater1. Many of the elements in these particles settle locally, although some are transported dist

    Jan 1, 2017

  • IMMS
    From Space Robotics to Deep-sea Mining

    By Robert Corcoran, Piotr Jasiobedzki, Roy Jakola, Michael Jenkin

    Vast mineral resources of copper, zinc, cobalt and gold have been identified off the coast of Papua New Guinea at depths exceeding 2,000 meters. Accessing them in a cost effective manner and without

  • IMMS
    The Campbell Ferromanganese Nodule Field (SW Pacific Ocean) Formed Beneath The Deep Western Boundary Current: An Important Source Of Paleo-Environmental And Chronostratigraphic Information

    An extensive ferromanganese nodule field south of New Zealand (Fig. 1) has existed beneath the flow of the Deep Western Boundary Current (DWBC) and Antarctic Circumpolar Current (ACC) for at least the

    Jan 1, 2003

  • IMMS
    The Initial Spreading of Turbidity Plumes – Dedicated Laboratory Experiments for Model Validation

    By Frans van Grunsven, Cees van Rhee, Geert Keetels

    One of the obstacles during the initial phases of project development is the assessment of the environmental impact. Mining residue, consisting of fine seafloor sediments, are to be discharged subsea

    Jan 1, 2018

  • IMMS
    Search for Sediment-hosted Seafloor Polymetallic Sulfides: What Are We Doing Wrong?

    By Timothy F. McConachy, Christopher J. Yeats, Ray Binns

    Various kinds of sediment-hosted polymetallic sulfide deposit are known on land in ancient marine sequences, many tending to be larger and more valuable than massive sulfide deposits genetically ass

    Aug 24, 2006

  • IMMS
    Optimization And Economic Efficiency Evaluation Of Manganese Nodule Carrier Using Genetic Algorithms

    By Jae-Hyung Park

    Since the Industrial Revolution, the land resources have been decreased rapidly as the industrialization. And this phenomenon brings to our mind an interest in deep-sea resource(manganese nodule). Hen

    Jan 1, 2003