Search Documents

Search Again

Search Again

Refine Search

Publication Date
Clear

Refine Search

Publication Date
Clear
Organization
Organization
  • 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
    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
    Geochemical Characteristics Of Deep-Sea Sediments From The NE Equatorial Pacific And Its Paleoceanographic Implications

    By Sung-Hyun Park

    Core sediment samples collected from the KODOS area of the Clarion-Clipperton Fracture Zone in the NE Equatorial Pacific were analyzed for chemical and mineralogical compositions to investigate the de

    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
    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
    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
    Overview of Cobalt-Rich Ferromanganese Crusts, Seamounts, and the Outlook for Mining

    By Akira Usui, James R. Hein, Rachel Dunham

    Ferromanganese crusts are found on most hard-rock substrates in the deep ocean (800-3,000 m). Their distributions on seamounts are complex and controlled by a wide-variety of factors including seamo

  • IMMS
    Ocean Mineral And Energy Resources: Market Updates And Price Trends

    By Porter Hoagland

    It is well known that significant quantities of mineral deposits exist in the oceans. Most of these resources cannot yet be classified as economic "reserves" in the strict sense of the term, but they

    Jan 1, 1996

  • IMMS
    Exploration For Seafloor Polymetallic Sulfide Deposits Using Particle Concentration Gradients In Hydrothermal Plumes

    By Timothy F. McConachy

    Hydrothermal fluids emanating from the seafloor rise as buoyant plumes, entraining ambient bottom sea water on the way up, until they reach density equilibrium and spread laterally in a direction that

    Jan 1, 1986

  • IMMS
    Present Status Of Offshore Phosphate Deposits, Atlantic Continental Margin

    By Stanley R. Riggs

    Phosphate deposits on the southeastern U.S. coastal plain have long been the major force in world phosphate markets. World markets continue to grow, but the role of U.S. resources is rapidly declining

    Jan 1, 1988

  • IMMS
    Comparative Study On Mining Robots Design For Polymetallic Nodules And Seabed Massive Sulfides

    By Sup Hong

    Herein, concept designs of two different types of mining robots are concerned, which are aimed for developments of deep seabed mineral resources: polymetallic nodules (PMN) and seabed massive sulfides

    Jan 1, 2011

  • IMMS
    Commercial And Technical Realities Of Deep Ocean Mining

    By Jon Machin

    ?ORE? is defined as ?mineral/s that can be mined at a profit?. So, what is ORE at 2,000 m water depth? Is it 5% Copper or 1.8% Nickel/Cobalt? One of the key factors that determine what is ORE, pr

    Jan 1, 2004

  • IMMS
    Ecosystem Modeling For Impact Assessment Of Possible Methane Leakage During Methane Hydrate Utilization

    By Tetsuo Yamazaki

    Natural methane hydrate has been scientifically studied as a carbon reservoir globally. However, in Japan, the potential for energy resource has been industrially highlighted. There is less domestic

    Jan 1, 2005

  • IMMS
    ACS: A Seafloor Drilling System for the Deepsea Methane Hydrate Program Offshore India

    By M. E. Williamson

    A seafloor based robotic drilling system is being developed for the National Institute of Ocean Technology in Chennai, India to support a National initiative for marine methane hydrate research. The

  • IMMS
    Research and Development on an Ultraviolet Laser Raman Spectrometer for Deep-Sea Application

    By Ning Yang, Yuxiang Chen, Ming Chen

    An ultraviolet laser Raman spectrometer was developed to detect and analyze material components of seawater, seafloor sediment and rock at a depth of 7000m maximally. Wave length of the excitation res

    Jan 1, 2017

  • IMMS
    Reconsideration of Fine-scale Dating of Ferromanganese Crusts for More Reliable Microstratigraphic Correlation

    By H. Oda, L. E. Fong, K. K. McBride, B. P. Weiss, F. J. Baudenbacher, A. Usui

    Fine-scale dating is a key parameter in characterizing the growth history of hydrogenetic ferromanganese crusts. We once compared several dating methods, micropaleontological (calcareous nanofossil),

    Aug 24, 2006

  • IMMS
    Multi-criteria Decision Making Application for Sustainable Deep Sea Mining Transport Plan Selection

    By Wenbin Ma, Cees van Rhee, Dingena Schott

    Since the concept of deep sea mining (DSM) was proposed by J. L. Mero with his book, The Mineral Resources of the Sea, in the 1960s, many research and significant developments have been implemented. H

    Jan 1, 2018

  • IMMS
    Managing Deep Sea Tailings Placement And The Environment: An Analogue For Deep Sea Mining

    By Tracy Shimmield

    Deep sea tailings placement (DSTP) techniques have been pioneered in Papua New Guinea (PNG): a mining reliant economy in a seismically active region, facing major environmental challenges in the safe

    Sep 14, 2011

  • IMMS
    Development of Equipment for Reconnaissance Level Detection and Confirmation of Deepwater Massive Sulfide Deposits

    By Will Roberts, M. E. Williamson

    After verification of methodology and testing of prototype systems during 2005/06, Nautilus Minerals expanded their Papua New Guinea (PNG) operations to a full commercial exploration program in 2007

  • 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