WEEE Treatment by Black Copper Smelting

Tutkimustuotos: Lehtiartikkeli

Standard

WEEE Treatment by Black Copper Smelting. / Taskinen, Pekka; Avarmaa, Katri; Yliaho, Simon; Sukhomlinov, Dmitry; Klemettinen, Lassi; Tirronen, Topi; Lundström, Mari; Jokilaakso, Ari.

julkaisussa: Materia, Vuosikerta 75, Nro 4, 2017, s. 56.

Tutkimustuotos: Lehtiartikkeli

Harvard

Taskinen, P, Avarmaa, K, Yliaho, S, Sukhomlinov, D, Klemettinen, L, Tirronen, T, Lundström, M & Jokilaakso, A 2017, 'WEEE Treatment by Black Copper Smelting', Materia, Vuosikerta. 75, Nro 4, Sivut 56.

APA

Vancouver

Taskinen P, Avarmaa K, Yliaho S, Sukhomlinov D, Klemettinen L, Tirronen T et al. WEEE Treatment by Black Copper Smelting. Materia. 2017;75(4):56.

Author

Taskinen, Pekka ; Avarmaa, Katri ; Yliaho, Simon ; Sukhomlinov, Dmitry ; Klemettinen, Lassi ; Tirronen, Topi ; Lundström, Mari ; Jokilaakso, Ari. / WEEE Treatment by Black Copper Smelting. Julkaisussa: Materia. 2017 ; Vuosikerta 75, Nro 4. Sivut 56.

Bibtex - Lataa

@article{084e5ccdd27d4d10994a2210928980e9,
title = "WEEE Treatment by Black Copper Smelting",
abstract = "The concept and policies of circular economy as well as the sustainability of metals increase challenges to the fundamental knowledge of trace ele-ments in various metal making environments. New processing approaches are needed to increase the resource efficiencies of the smelting and refining technologies, and their maximal utilization needs basic data about the phase equilibria and other thermodynamic properties, which then can be used in process design, optimization of plants and various artificial intelligence tools. We have measured selected phase equilibria relevant to industrial WEEE smelting as well as the distribution equilibria for a wide range of rare elements present in typical copper scrap smelting and refining conditions.",
keywords = "circular economy, sustainability, black copper, smelting",
author = "Pekka Taskinen and Katri Avarmaa and Simon Yliaho and Dmitry Sukhomlinov and Lassi Klemettinen and Topi Tirronen and Mari Lundstr{\"o}m and Ari Jokilaakso",
note = "https://vuorimiesyhdistys.fi/sites/default/files/materia/pdf/Materia{\%}204-2017.pdf Materia-lehden numero 4/ 2017. Lehdess{\"a} artikeli {"}WEEE Treatment by Black Copper Smelting{"}. The link to the journal {"}Materi{"} 4/2017. The journal includs the the full text of the article {"}WEEE Treatment by Black Copper Smelting{"}.",
year = "2017",
language = "English",
volume = "75",
pages = "56",
journal = "Materia",
issn = "1459-9694",
publisher = "Vuorimiesyhdistys ry",
number = "4",

}

RIS - Lataa

TY - JOUR

T1 - WEEE Treatment by Black Copper Smelting

AU - Taskinen, Pekka

AU - Avarmaa, Katri

AU - Yliaho, Simon

AU - Sukhomlinov, Dmitry

AU - Klemettinen, Lassi

AU - Tirronen, Topi

AU - Lundström, Mari

AU - Jokilaakso, Ari

N1 - https://vuorimiesyhdistys.fi/sites/default/files/materia/pdf/Materia%204-2017.pdf Materia-lehden numero 4/ 2017. Lehdessä artikeli "WEEE Treatment by Black Copper Smelting". The link to the journal "Materi" 4/2017. The journal includs the the full text of the article "WEEE Treatment by Black Copper Smelting".

PY - 2017

Y1 - 2017

N2 - The concept and policies of circular economy as well as the sustainability of metals increase challenges to the fundamental knowledge of trace ele-ments in various metal making environments. New processing approaches are needed to increase the resource efficiencies of the smelting and refining technologies, and their maximal utilization needs basic data about the phase equilibria and other thermodynamic properties, which then can be used in process design, optimization of plants and various artificial intelligence tools. We have measured selected phase equilibria relevant to industrial WEEE smelting as well as the distribution equilibria for a wide range of rare elements present in typical copper scrap smelting and refining conditions.

AB - The concept and policies of circular economy as well as the sustainability of metals increase challenges to the fundamental knowledge of trace ele-ments in various metal making environments. New processing approaches are needed to increase the resource efficiencies of the smelting and refining technologies, and their maximal utilization needs basic data about the phase equilibria and other thermodynamic properties, which then can be used in process design, optimization of plants and various artificial intelligence tools. We have measured selected phase equilibria relevant to industrial WEEE smelting as well as the distribution equilibria for a wide range of rare elements present in typical copper scrap smelting and refining conditions.

KW - circular economy

KW - sustainability

KW - black copper

KW - smelting

M3 - Article

VL - 75

SP - 56

JO - Materia

JF - Materia

SN - 1459-9694

IS - 4

ER -

ID: 30140580