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Open Journal of Physical Chemistry

Open Journal of Physical Chemistry

Open Journal of Physical Chemistry

ISSN Print: 2162-1969
ISSN Online: 2162-1977
www.scirp.org/journal/ojpc
E-mail: ojpc@scirp.org
"Dissolution of Rare Earth Elements from Coal Fly Ash Particles in a Dilute H2SO4 Solvent"
written by Shunsuke Kashiwakura, Yuichi Kumagai, Hiroshi Kubo, Kazuaki Wagatsuma,
published by Open Journal of Physical Chemistry, Vol.3 No.2, 2013
has been cited by the following article(s):
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[1] From Ashes to Riches: Microscale Phenomena Controlling Rare Earths Recovery from Coal Fly Ash
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[4] Ionic Liquid Recovery of Rare-Earth Elements from Coal fly Ash: Process Efficiency and Sustainability Evaluations
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[5] Coal fly ash activated by NaOH roasting: Rare earth elements recovery and harmful trace elements migration
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[6] The recycling of coal fly ash: A review on sustainable developments and economic considerations
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[7] Rare Earth Elements Partition and Recovery During Electrodialytic Treatment of Coal Fly Ash
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[9] Determination of concentrations of non-volatile elements in fly ash released from coal combustion using EDXRF
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[11] Stimulation of Leaching of Rare Earth Elements from Ash and Slag by Energy Impacts
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[12] Department of Civil Engineering, Technical University of Denmark, 2800 Lyngby, Denmark Rare earth elements (REE) recovery from waste (end-of-line …
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[13] PROCESS DEVELOPMENT FOR SELECTIVE SEPARATION OF CRITICAL ELEMENTS FROM SECONDARY RESOURCES
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[14] A review of rare earth elements and yttrium in coal ash: Content, modes of occurrences, combustion behavior, and extraction methods
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[15] Kinetics and mechanisms of leaching of rare earth elements from secondary resources
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[16] Study on rare earth elements leaching from magnetic coal fly ash by citric acid
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[17] The effect of particle size separation on the enrichment and recovery of rare earth elements from South African coal fly ash
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[18] Effects of acid concentration on the extraction of rare earth elements from South African Coal Fly Ash
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[19] Study on the Potential Rare Earth Elements in Coal Combustion Product from Banjarsari Power Plant, South Sumatera
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[20] Investigation on Extraction and Recovery of Rare Earth Elements from Coal Combustion Products
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[21] Utilization of Circulating Fluidized Bed Combustion Fly Ash for Simultaneous Recovery of Rare Earth Elements and CO2 Capture
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[22] Preferential Recovery of Rare-Earth Elements from Coal Fly Ash Using a Recyclable Ionic Liquid
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[23] Coal Burn Ash: A Sustainable Future Resource for Critical Metals Production
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[24] A new method for recovering rare earth elements from the hyperaccumulating fern Dicranopteris linearis from China
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[25] Characteristics of Some Selected Methods of Rare Earth Elements Recovery from Coal Fly Ashes. Metals 2021, 11, 142
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[26] Developments in Characterization and Mineral Processing of Coal Fly Ash for Recovery of Rare Earth Elements
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[27] Characteristics of Some Selected Methods of Rare Earth Elements Recovery from Coal Fly Ashes
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[29] Effect of various ligands on the selective precipitation of critical and rare earth elements from acid mine drainage
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[45] Solid Green Biodiesel Catalysts Derived from Coal Fly Ash
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[47] Leaching of REY from Non-magnetic Coal Fly Ash with Acetic Acid
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[48] Effect of Temperature on Rare Earth Elements Recovery from Coal Fly Ash Using Citric Acid
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[59] Rare earth elements and yttrium in coal ash from the Luzhou power plant in Sichuan, Southwest China: Concentration, characterization and optimized …
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[64] Experimental Study of the Static and Dynamic Extraction of Rare Earth Elements from Coal Using HNO3 and TBP-HNO3 Complex in Supercritical CO2
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[65] Rare Metals in Kuzbass Ash and Slag Wastes: Prospects of Extraction
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[92] Coal fly ash as a resource for rare earth elements
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[93] Towards zero-waste valorisation of rare-earth-containing industrial process residues: a critical review
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