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  • SME
    Heavy Metal Patterns In Stream Waters, Stream Sediments And Selected Aquatic Life, Northern New Lead Belt, Southeast Missouri

    By Paul Dean Proctor

    The known northern ore zones of the New Lead Belt of Southeast Missouri extend to the drainage divide between the Meramec River draining north and east and that of the Black River draining southward.

    Jan 1, 1977

  • AIME
    Heavy Metal Patterns in Stream Waters, Stream Sediments, and Selected Aquatic Life, Northern New Lead Belt, Southeast Missouri (518b4dd9-0c6f-459c-ae51-f92bb334ec63)

    By Bhudeo N. Sinha, Paul Dean Proctor

    Heavy metal contents in stream waters, sediments, and selected aquatic algae were determined for the upper Meramec River basin, Missouri, of 3905 km2 (1508 sq mi) area and site of the proposed and con

    Jan 1, 1980

  • SME
    Heavy Metal Removal For Water Reuse And Effluent Treatment ? Introduction

    By J. L. Boyd

    The mining and processing of basic metals relies on water as a medium for transport. Metallurgical ores are ground, concentrated, leached and refined in an aqueous medium. Water is used for temperatur

    Jan 1, 1975

  • SME
    Heavy Metal Removal From Wastewaters Using Low-Cost Materials

    By R. Markovic

    The objective of this research study was the investigation of heavy metal removal from wastewaters of the "SARAKA" stream by using low-cost materials. These wastewaters flow into Krivelj River and thr

    Jan 1, 2006

  • SME
    Heavy metal sorption with clinoptilolite zeolite: Alternatives for treating contaminated soil and water

    By D. Leppert

    Large deposits of natural zeolites may provide cost-effective alternatives for treatment of soil and water contaminated ) with heavy metals and radionuclides. Research on the Bikini atoll demonstrated

    Jan 1, 1991

  • SME
    Heavy Metal Sorption With Clinoptilolite Zeolite: Soil And Water Treatment Alternatives

    By D. Leppert

    Clinoptilolite zeolite may offer attractive, cost-effective alternatives for remedial cleanup of old minesites, smelters and other sites with heavy metal contamination. Previous research demonstrates

    Jan 1, 1989

  • TMS
    Heavy Metal Stabilization Optimization Study

    By Keith E. Forrester

    This paper presents results of laboratory and field optimization of a proprietary processes developed by FESI for the stabilization of heavy metal bearing wastes. The specific waste studies presented

    Jan 1, 1994

  • SME
    Heavy Metals And Elements In Coastal Waters Close To Mining Activities

    By G. Gaidajis

    Sea water samples collected from coastal waters in the vicinity of the Stratoni mining operations, in North-Aegean Sea were analysed for dissolved metals and elements. The maximum concentrations obser

    Jan 1, 2006

  • AIME
    Heavy Metals In Stream Sediment Used as Exploration Guides

    By Harold Bloom, H. E. Hawkes

    Streams and rivers are the principal channels into which the weathering products of rocks and their contained ores are funneled. The inorganic load of a stream system is a crude sample of all the eart

    Nov 1, 1956

  • IMPC
    Heavy Metals Migration Decrease in the Area of Industrial Facility for Environmental Safety

    By K. V. Fedotov, G. I. Sarapulova

    The study is devoted to the earth's surface protection and is aimed at improving the ecological safety of the territories in the mining industry. Identification of the diagnostic signs and quantitativ

    Jan 1, 2018

  • TMS
    Heavy Metals Recovery in Vitrification Process of MSW Residues

    By Takuya Shinagawa

    After vitrification of the residues from a municipal solid waste incinerator, the vitrified products can be used as a construction material, and the dust can be used as raw materials for the non- ferr

    Jan 1, 2002

  • TMS
    Heavy Metals Removal From Small-Arms Firing Ranges

    By Jerold L. Johnson

    Remediation of small-arms firing ranges is being investigated by the Naval Civil Engineering Laboratory and the U.S. Bureau of Mines. Scheduled closures of military installations, as well as the manag

    Jan 1, 1993

  • TMS
    Heavy Metals Removal from Small-Arms Firing Ranges (d57464b2-215f-4c60-8f75-d50df113d8b3)

    By J. L. Johnson

    Remediation of small-arms firing ranges is being investigated by the Naval Civil Engineering Laboratory and the U.S. Bureau of Mines. Scheduled closures of military installations, as well as the manag

    Jan 1, 1991

  • CIM
    Heavy mineral by-products from Athabasca tar sands

    By Lloyd W. Trevoy

    Syncrude Canada Limited is presently studying commercial production of heavy minerals from plant tailings of the openpit A lhabasca tar sands operation. When tar sands are processed and upgraded to sy

    Jan 1, 1984

  • CIM
    Heavy Mineral Concentration from Oil Sand Tailings

    By Francis Chachula, Niel Erasmus

    "In 2002, Titanium Corporation Inc. focused its attention on the development of a process for the recovery of valuable heavy minerals, including zircon and titanium bearing minerals from oil sands fro

    Jan 1, 2008

  • AIME
    Heavy Mineral Deposits Of The East Coast Of Australia

    By N. H. Fisher

    GEOGRAPHICAL DISTRIBUTION THE most important known deposits in Australia of what are commonly referred to as the beach-sand minerals are along the most easterly part of the Australian coast, betwee

    Jan 1, 1947

  • SME
    Heavy Mineral Deposits Of The Fox Hills Formation Located Near Limon, CO

    By F. L. Pirkle

    A heavy mineral deposit about 1.6 km (1 mile) in length, 0.13 km (0.08 mile) in width and averaging about 3 m (10 ft) in thickness is exposed approximately 130 km (80 miles) east of Denver, along Inte

    Jan 1, 2012

  • SME
    Heavy Mineral Mining In Florida

    By Jr. Garnar

    Heavy mineral mining has been a relatively small but important Florida industry for over sixty years. Geology of the Florida heavy mineral deposits is similar. Each formed along active coastlines afte

    Jan 1, 1978

  • SME
    Heavy mineral mining in the Atlantic Coastal Plain of Florida and Georgia and the chemical and physical characteristics of the deposits

    By F. L. Pirkle, D. L. Pirkle, E. C. Pirkle, W. A. Pirkle

    Heavy minerals have been mined from the sands of the United States’ Atlantic Coastal Plain since the early part of the twentieth century. Production of ilmenite from beach sands near Mineral City (Po

    Jan 1, 2005

  • AUSIMM
    Heavy Mineral Placer Deposits Along the West Coast of South Africa - A World-Class Resource of Zircon, Ilmenite and Rutile

    By C Philander

    The West Coast of South Africa is well known for its placer gem quality diamond deposits and also associated with these hosts of Cenozoic unconsolidated marine and aeolian sand and gravel are signific

    Jan 1, 2008