Au and Cu recovery from printed boards by decomposition of epoxy resin in supercritical water

Journal of Supercritical Fluids

Volumn 95, Issue , 2014, Pages 462-467

  Matsumoto, Yuta ^a   Oshima, Yoshito ^a  

^a UNIVERSITY OF TOKYO   (Japan)

Author keywords

Material recycling; Noble metal recovery; Organic inorganic composite waste; Printed board; Supercritical water

Indexed keywords

MATERIAL RECYCLING; ORGANIC-INORGANIC COMPOSITE; PRINTED BOARD; SUPERCRITICAL WATER;

PRECIOUS METALS;

EID: 84910024169     PISSN: 08968446     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.supflu.2014.10.020     Document Type: Article

References (18)

1. I. Ogura Relation between chemical structures and characteristics on epoxy resins DIC Technical Review 7 2007 1 12 (In Japanese text)
2. M. Kakimoto, and A. Takahashi Electronics Jissou-you Kiban Zairyo no Kaihatsu 2005 CMC, Publishing Tokyo (In Japanese text)
3. Koubutsu Shigen Material Flow 2011 Japan Oil Gas and Metals National Corporation (In Japanese text)
4. Y. Abe Kinzoku Shigen Report 2008 93 100 (In Japanese text)
5. Printed Circuit Board Recycling Methods, Workshop Materials on WEEE Management in Taiwan 2012 Handout10
6. Y.C. Chien, H.P. Wang, K.S. Lin, and Y.W. Yang Oxidation of printed circuit board wastes in supercritical water Water Research 34 2000 4279 4283
7. F.R. Xiu, and F.S. Zhang Recovery of copper and lead from waste printed circuit boards by supercritical water oxidation combined with electrokinetic process J. Hazardous Materials 165 2009 1002 1007
8. F.R. Xiu, and F.S. Zhang Electrokinetic recovery of Cd, Cr, As, Ni, Zn and Mn from waste printed circuit boards: effect of assisting agents J. Hazardous Materials 170 2009 191 196
9. F.R. Xiu, Y. Qi, and F.S. Zhang Recovery of metals from waste printed circuit boards by supercritical water pre-treatment combined with acid leaching process Waste Management 33 2013 1251 1257
10. 2O nanoparticles from waste printed circuit boards by supercritical water combined with electrokinetic process J. Hazardous Materials 233-234 2012 200 206
11. C. Fromonteil, P. Bardelle, and F. Cansell Hydrolysis and oxidation of an epoxy resin in sub- and supercritical water Industrial & Engineering Chemistry Research 39 2000 922 925
12. H. Tagaya, Y. Shibasaki, C. Kato, J. Kadokawa, and B. Hatano Decomposition reactions of epoxy resin and polyetheretherketone resin in sub- and supercritical water J. Material Cycles and Waste Management 6 2004 1 5
13. W. Wagner, and A. Pruss The IAPWS formulation 1995 for the thermodynamic properties of ordinary water substance for general and scientific use J. Physical and Chemical Reference Data 31 2002 387 535
14. C.M. Huelsman, and P.E. Savage Reaction pathways and kinetic modeling for phenol gasification in supercritical water J. Supercritical Fluids 81 2013 200 209
15. E. Croiset, S.F. Rice, and R.G. Hanush Hydrogen peroxide decomposition in supercritical water AIChE J. 43 1997 2343 2352
16. M. Akizuki, and Y. Oshima Using supercritical water for the recovery of iron oxides from oily mill sludge emitted by the steel industry J. Japan Society of Material Cycles and Waste Management 23 2012 18 24 (In Japanese text)
17. Y. Matsumoto, and Y. Oshima Ag compound recovery from used X-ray film using supercritical water J. Japan Society of Material Cycles and Waste Management 24 2013 71 78 (In Japanese text)
18. J. Yu, and P.E. Savage Catalyst activity, stability, and transformations during oxidation in supercritical water Applied Catalysis B: Environmental 31 2001 123 132