Element recovery and sustainability /

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Bibliographic Details
Imprint:Cambridge : Royal Society of Chemistry, 2013.
Description:1 online resource
Language:English
Series:RSC green chemistry ; 22
RSC green chemistry series ; 22.
Subject:Rare earth metals.
Chemistry.
Sustainability.
TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.
Rare earth metals.
Electronic books.
Electronic books.
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11200838
Hidden Bibliographic Details
Other authors / contributors:Hunt, Andrew J.
ISBN:9781849737340
1849737347
9781849736169
1849736162
Notes:English.
Title details screen (RSC Publishing, viewed on July 25, 2013).
Summary:Increased consumption of electronic equipment has brought with it a greater demand for rare earth elements and metals. Adding to this is the growth in low carbon technologies such as hybrid fuel vehicles. It is predicted that the global supply of rare earth elements could soon be exhausted. A sustainable approach to the use and recovery of rare earth elements is needed, and this book addresses the political, economic and research agendas concerning them. The problem is discussed thoroughly and a multi-disciplinary team of authors from the chemistry, engineering and biotechnology sectors presents a range of solutions, from traditional metallurgical methods to innovations in biotechnology. Case studies add value to the theory presented, and indirect targets for recovery, such as municipal waste and combustion ash are considered. This book will be essential reading for researchers in academia and industry tackling sustainable element recovery, as well as postgraduate students in chemistry, engineering and biotechnology. Environmental scientists and policy makers will also benefit from reading about potential benefits of recovery from waste streams.
Table of Contents:
  • Fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; fig1; _s_h_o_w_6_; _s_h_o_w_89_; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig2; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig3; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig4; fig5; fig5; fig5; fig5; fig5; fig5; fig5; fig5; fig5; fig5; fig5; fig5; fig6; fig6; fig6; fig6; fig6; fig6; fig6; fig6; fig6; fig6; fig6; fig6; fig7; fig7; fig7; fig7; fig7.
  • Fig7fig7; fig7; fig7; fig7; fig8; fig8; fig8; fig8; fig8; fig8; fig8; fig8; fig9; fig9; fig9; fig9; fig9; fig9; _s_h_o_w_44_; sch1; sch1; sch2; sch2; fig10; fig10; fig10; fig10; fig11; fig11; fig11; fig11; fig12; fig12; fig12; fig12; fig13; fig13; sch3; sch3; fig13; fig13; fig14; fig14; sch4; sch4; fig14; fig14; fig15; fig15; sch5; sch5; fig15; fig15; fig16; fig16; fig16; fig16; sch6; sch6; fig17; fig17; sch7; sch7; fig17; fig17; fig18; fig18; fig18; fig18; fig19; fig19; sch8; sch8; fig19; fig19; fig20; fig20; sch9; sch9; fig21; fig21; sch10; sch10.