Search Documents
Search Again
Search Again
Refine Search
Refine Search
- Relevance
- Most Recent
- Alphabetically
Sort by
- Relevance
- Most Recent
- Alphabetically
-
Recycling And Secondary Recovery Applications Using An Eddy-Current Separator (c467563b-2080-44fb-b6e2-d516bff25e8e)By D. A. Norrgran
The term "secondary recovery" has recently brought on a new meaning in view of the depletion of natural resources, energy conservation, plant optimization, and the environmental consciousness that has
Jan 1, 1991
-
Recycling Arizona Land After Copper Mining - The Problem in Open Pit ReclamationBy Thomas J. Neil, O&apos
Mine land reclamation is a comparatively new science-Although some mining companies point with pride to reclamation efforts of 20 to 30 years ago these were the exception rather than the rule. In the
Jan 1, 1976
-
Recycling automotive Li(NiyMnzCo1-y-z)O2 /C batteriesBy Sravya Kosaraju, Christian Ekberg, Stefan Allard
Li-ion batteries are now used in electric vehicles (EVs), plug-in hybrid vehicles (PHEVs) and, hybrid electric vehicles (HEVs). Nanostructured Li(NiyMnzCo1-y-z)O2 is one of the more popular cathode ch
Jan 1, 2014
-
Recycling Charge and Subsidy for Waste Packaging Containers in TaiwanBy Chen-Ming Kuo, Esher Hsu
"Under the 4-in-1 recycling system, Taiwan producers and importers who using packaging containers have responsibility to pay the recycling fees for recycling the waste packaging containers they produc
Jan 1, 2011
-
Recycling Copper Scrap at United States Metals Refining CompanyBy M. G. Manzone
Approximately two-thirds of the annual 210,000 tons at copper refined by AMAX Inc. at the United States Metals Refining Company in Carteret, New Jersey, comes from a wide variety of copper scrap rangi
Jan 1, 1977
-
Recycling Dry and Alkaline Batteries Using Mining OperationsBy Denise Corrêa de Oliveira
Household zinc based batteries, dry and alkaline, has become the most popular sources of electrical energy, and are widely used. Because of their heavy metals content such as mercury, zinc and mangane
Jan 1, 2001
-
Recycling EAF Dust with Contop® TechnologyBy J. Pesl, U. Kemey, F. Sauert
"The CONTOP® smelting cyclone is a water-cooled, upright, high-intensity smelting reactor. The technology for the reactor was initially developed and brought into industrial-scale operation in the are
Jan 1, 2000
-
Recycling for Recovery of Critical Metals from LiCoO2 Cathode Material Through Methanesulfonic Acid‑Citric Acid Organic Leaching System - Mining, Metallurgy & Exploration (2023)By Jaeheon Lee, Jai‑Won Byeon, Junmo Ahn, Jun‑Jae Lee, Eun‑Woo Kim, Yoo‑Jin Kim, Jiajia Wu, Jae‑Yeon Kim
Growing demand for valuable battery materials and environmental issues from battery disposal make the recycling of spent lithium-ion batteries (LIBs) essential. Specifically, the green approaches usin
Sep 20, 2023
-
Recycling for the recovery of critical metals from LiCoO2 cathode material through methanesulfonic acid-citric acid organic leaching systemBy Jaeheon Lee, Junmo Ahn, Jae-Yeon Kim, Yoo-Jin Kim, Jiajia Wu, Eun-Woo Kim, Jai-Won Byeon, Jun-Jae Lee
The surge in demand for battery materials, coupled with environmental challenges linked to battery disposal, underscores the need to recycle spent lithium-ion batteries (LIBs). Green recycling approac
Feb 1, 2024
-
Recycling Galvanised Steel: Operating Experience and BenefitsBy Daniels E. J, Morgan W. A
In response to the increase in consumption of galvanised steel for automobiles in the last decade and the problems associated with remelting larger quantities of galvanised steel scrap, a process is
Jan 1, 1993
-
Recycling Jet Grout Backflow: Waste Mitigation and Cost BenefitsBy Craig T. Jones, Zachary Q. Maassen
"Jet grouting is a method of ground improvement that relies on the erosive capacity of high-speed jets to cut and mix the ground in place with a cementitious grout. A continuous return flow of cutting
Jan 1, 2017
-
Recycling Lead and Cadmium, as well as Zinc, from .EAF DustBy S. E. James
EAF dust has been listed as a "hazardous waste" due to the presence of lead and cadmium, and at times chromium. The 550,00 tpy production of . .EA]' dust, estimated for the United States alone, c
Jan 1, 1990
-
Recycling Lead and Zinc in the United States - Hydrometallurgy and Physical Concentration Become Important Parts of the Secondary SmelterBy Paul B. Queneau, Barry J. Hansen, D. Erik Spiller
Most lead and zinc secondaries are recycled pyrometallurgically. However, many problems encountered in secondary smelters have been solved by addition of physical concentration and/or hydrometallurgic
Jan 1, 1993
-
Recycling Low Grade Waste Heat to ElectricityBy N. Razavinia
Most mining and metallurgical industries produce relatively large quantities of low grade waste heat which they vent, for the most part, to the environment. To date, little is being done to recover so
Aug 1, 2013
-
Recycling Metal-Bearing Hazardous WasteBy V. Ramachandran
Under the Resource Conservation and Recovery ACT (RCRA), generators of listed or characteristic hazardous wastes must find satisfactory means for disposal. of wastes. Initially, for many this meant la
Jan 1, 1994
-
Recycling Metals Using the MOCVD ProcessBy Mick O'Meara
Metal Organic Chemical Vapour Deposition (MOCVD) is used in the production of computer circuit boards and metal shapes in nickel, gold, copper, cobalt, etc. All varieties of .MOCVD use the decompositi
Jan 1, 2000
-
Recycling Milling Water In Missouri's New Lead BeltBy Franklin H. Sharp, Kenneth L. Clifford
During the last few years the New Lead Belt of Southeastern Missouri has become the main source of lead in the United States. It also produces significant amounts of zinc, copper and silver. The mines
Jan 7, 1973
-
Recycling Nickel, Chromium And Iron Catalysts Through The High Temperature Metals Recovery ProcessBy R. H. Hanewald
INMETCO, a subsidiary of Inco Limited, is the only facility in North America that provides High Temperature Metals Recovery for nickel-, chromium-, and iron-bearing wastes. Since 1978, this process ha
Jan 1, 1995
-
Recycling Non-Ferrous Metals From U.S. Industrial WasteBy Paul B. Queneau
U.S. plants solely devoted to recovering values from metal-rich wastes have established market niches based on one or more competitive advantages: superior process technology, access to key feedstock
Jan 1, 2003
-
Recycling Nonferrous Oxides In Iron And Steel MeltingBy Simon Lekakh
Direct reduction of Cu,Ni,W,VandMo oxides from various industrial wastes the melting of iron and steel in different furnaces was studied by thermodynamic computation and experimental methods. Thermody
Jan 1, 2006